Author: "Kandeel, F." / Publication Year Range: Last 10 years - Searchworks@Jio Institute Digital Library Search Results

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91 results on '"Kandeel, F."'

1. Association between primary graft function and 5-year outcomes of islet allogeneic transplantation in type 1 diabetes: a retrospective, multicentre, observational cohort study in 1210 patients from the Collaborative Islet Transplant Registry

Author: Alejandro, R, Aull, M, Bellin, M, Berney, T, Borja-Cacho, D, Brayman, K, Cagliero, E, Caiazzo, R, Cattral, M, Coates, T, Danielson, K, Defrance, F, De Koning, E, Desai, C, Desai, N, Gaber, A O, Gmyr, V, Gores, P, Goss, J A, Gottllieb, P, Greenbaum, C, Hardy, M, Harlan, D, Hering, B, Kandeel, F, Kaufman, D, Kay, T, Keymeulen, B, Khan, K, Kudva, Y, Larsen, C, Le Mapihan, K, Levy, G, Levy, M, Loudovaris, T, Lundgren, T, Maffi, P, Markmann, J, Marks, W H, Naji, A, O'Connell, P, Oberholzer, J, Odorico, J, Onaca, N, Pattou, F, Piemonti, L, Pipeleers, D, Posselt, A, Rajab, A, Raverdy, V, Rickels, M R, Ricordi, C, Rossini, A A, Saudek, F, Schrope, B, Secchi, A, Senior, P, Shapiro, A M J, Shaw, J, Stock, P, Thomas, D, Thompson, M J, Vantyghem, M C, Vargas, L, Wang, H, Wiseman, A, Witkowski, P, Yoon, K, Chetboun, Mikaël, Drumez, Elodie, Ballou, Cassandra, Maanaoui, Mehdi, Payne, Elizabeth, Barton, Franca, Kerr-Conte, Julie, Vantyghem, Marie-Christine, Piemonti, Lorenzo, Rickels, Michael R, Labreuche, Julien, and Pattou, François
Published: 2023
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2. Posttransplant oxygen inhalation improves the outcome of subcutaneous islet transplantation: A promising clinical alternative to the conventional intrahepatic site

Author: Komatsu, H., Rawson, J., Barriga, A., Gonzalez, N., Mendez, D., Li, J., Omori, K., Kandeel, F., and Mullen, Y.
Published: 2018
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3. Association between primary graft function and 5-year outcomes of islet allogeneic transplantation in type 1 diabetes: a retrospective, multicentre, observational cohort study in 1210 patients from the Collaborative Islet Transplant Registry

Author: Chetboun, Mikaël, primary, Drumez, Elodie, additional, Ballou, Cassandra, additional, Maanaoui, Mehdi, additional, Payne, Elizabeth, additional, Barton, Franca, additional, Kerr-Conte, Julie, additional, Vantyghem, Marie-Christine, additional, Piemonti, Lorenzo, additional, Rickels, Michael R, additional, Labreuche, Julien, additional, Pattou, François, additional, Alejandro, R, additional, Aull, M, additional, Bellin, M, additional, Berney, T, additional, Borja-Cacho, D, additional, Brayman, K, additional, Cagliero, E, additional, Caiazzo, R, additional, Cattral, M, additional, Coates, T, additional, Danielson, K, additional, Defrance, F, additional, De Koning, E, additional, Desai, C, additional, Desai, N, additional, Gaber, A O, additional, Gmyr, V, additional, Gores, P, additional, Goss, J A, additional, Gottllieb, P, additional, Greenbaum, C, additional, Hardy, M, additional, Harlan, D, additional, Hering, B, additional, Kandeel, F, additional, Kaufman, D, additional, Kay, T, additional, Keymeulen, B, additional, Khan, K, additional, Kudva, Y, additional, Larsen, C, additional, Le Mapihan, K, additional, Levy, G, additional, Levy, M, additional, Loudovaris, T, additional, Lundgren, T, additional, Maffi, P, additional, Markmann, J, additional, Marks, W H, additional, Naji, A, additional, O'Connell, P, additional, Oberholzer, J, additional, Odorico, J, additional, Onaca, N, additional, Pattou, F, additional, Piemonti, L, additional, Pipeleers, D, additional, Posselt, A, additional, Rajab, A, additional, Raverdy, V, additional, Rickels, M R, additional, Ricordi, C, additional, Rossini, A A, additional, Saudek, F, additional, Schrope, B, additional, Secchi, A, additional, Senior, P, additional, Shapiro, A M J, additional, Shaw, J, additional, Stock, P, additional, Thomas, D, additional, Thompson, M J, additional, Vantyghem, M C, additional, Vargas, L, additional, Wang, H, additional, Wiseman, A, additional, Witkowski, P, additional, and Yoon, K, additional
Published: 2023
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4. The trans-ancestral genomic architecture of glycemic traits

Author: Chen, J. (Ji), Spracklen, C. N. (Cassandra N.), Marenne, G. (Gaelle), Varshney, A. (Arushi), Corbin, L. J. (Laura J.), Luan, J. (Jian'an), Willems, S. M. (Sara M.), Wu, Y. (Ying), Zhang, X. (Xiaoshuai), Horikoshi, M. (Momoko), Boutin, T. S. (Thibaud S.), Magi, R. (Reedik), Waage, J. (Johannes), Li-Gao, R. (Ruifang), Chan, K. H. (Kei Hang Katie), Yao, J. (Jie), Anasanti, M. D. (Mila D.), Chu, A. Y. (Audrey Y.), Claringbould, A. (Annique), Heikkinen, J. (Jani), Hong, J. (Jaeyoung), Hottenga, J.-J. (Jouke-Jan), Huo, S. (Shaofeng), Kaakinen, M. A. (Marika A.), Louie, T. (Tin), Maerz, W. (Winfried), Moreno-Macias, H. (Hortensia), Ndungu, A. (Anne), Nelson, S. C. (Sarah C.), Nolte, I. M. (Ilja M.), North, K. E. (Kari E.), Raulerson, C. K. (Chelsea K.), Ray, D. (Debashree), Rohde, R. (Rebecca), Rybin, D. (Denis), Schurmann, C. (Claudia), Sim, X. (Xueling), Southam, L. (Lorraine), Stewart, I. D. (Isobel D.), Wang, C. A. (Carol A.), Wang, Y. (Yujie), Wu, P. (Peitao), Zhang, W. (Weihua), Ahluwalia, T. S. (Tarunveer S.), Appel, E. V. (Emil V. R.), Bielak, L. F. (Lawrence F.), Brody, J. A. (Jennifer A.), Burtt, N. P. (Noel P.), Cabrera, C. P. (Claudia P.), Cade, B. E. (Brian E.), Chai, J. F. (Jin Fang), Chai, X. (Xiaoran), Chang, L.-C. (Li-Ching), Chen, C.-H. (Chien-Hsiun), Chen, B. H. (Brian H.), Chitrala, K. N. (Kumaraswamy Naidu), Chiu, Y.-F. (Yen-Feng), de Haan, H. G. (Hugoline G.), Delgado, G. E. (Graciela E.), Demirkan, A. (Ayse), Duan, Q. (Qing), Engmann, J. (Jorgen), Fatumo, S. A. (Segun A.), Gayan, J. (Javier), Giulianini, F. (Franco), Gong, J. H. (Jung Ho), Gustafsson, S. (Stefan), Hai, Y. (Yang), Hartwig, F. P. (Fernando P.), He, J. (Jing), Heianza, Y. (Yoriko), Huang, T. (Tao), Huerta-Chagoya, A. (Alicia), Hwang, M. Y. (Mi Yeong), Jensen, R. A. (Richard A.), Kawaguchi, T. (Takahisa), Kentistou, K. A. (Katherine A.), Kim, Y. J. (Young Jin), Kleber, M. E. (Marcus E.), Kooner, I. K. (Ishminder K.), Lai, S. (Shuiqing), Lange, L. A. (Leslie A.), Langefeld, C. D. (Carl D.), Lauzon, M. (Marie), Li, M. (Man), Ligthart, S. (Symen), Liu, J. (Jun), Loh, M. (Marie), Long, J. (Jirong), Lyssenko, V. (Valeriya), Mangino, M. (Massimo), Marzi, C. (Carola), Montasser, M. E. (May E.), Nag, A. (Abhishek), Nakatochi, M. (Masahiro), Noce, D. (Damia), Noordam, R. (Raymond), Pistis, G. (Giorgio), Preuss, M. (Michael), Raffield, L. (Laura), Rasmussen-Torvik, L. J. (Laura J.), Rich, S. S. (Stephen S.), Robertson, N. R. (Neil R.), Rueedi, R. (Rico), Ryan, K. (Kathleen), Sanna, S. (Serena), Saxena, R. (Richa), Schraut, K. E. (Katharina E.), Sennblad, B. (Bengt), Setoh, K. (Kazuya), Smith, A. V. (Albert V.), Sparso, T. (Thomas), Strawbridge, R. J. (Rona J.), Takeuchi, F. (Fumihiko), Tan, J. (Jingyi), Trompet, S. (Stella), van den Akker, E. (Erik), van der Most, P. J. (Peter J.), Verweij, N. (Niek), Vogel, M. (Mandy), Wang, H. (Heming), Wang, C. (Chaolong), Wang, N. (Nan), Warren, H. R. (Helen R.), Wen, W. (Wanqing), Wilsgaard, T. (Tom), Wong, A. (Andrew), Wood, A. R. (Andrew R.), Xie, T. (Tian), Zafarmand, M. H. (Mohammad Hadi), Zhao, J.-H. (Jing-Hua), Zhao, W. (Wei), Amin, N. (Najaf), Arzumanyan, Z. (Zorayr), Astrup, A. (Arne), Bakker, S. J. (Stephan J. L.), Baldassarre, D. (Damiano), Beekman, M. (Marian), Bergman, R. N. (Richard N.), Bertoni, A. (Alain), Blueher, M. (Matthias), Bonnycastle, L. L. (Lori L.), Bornstein, S. R. (Stefan R.), Bowden, D. W. (Donald W.), Cai, Q. (Qiuyin), Campbell, A. (Archie), Campbell, H. (Harry), Chang, Y. C. (Yi Cheng), de Geus, E. J. (Eco J. C.), Dehghan, A. (Abbas), Du, S. (Shufa), Eiriksdottir, G. (Gudny), Farmaki, A. E. (Aliki Eleni), Franberg, M. (Mattias), Fuchsberger, C. (Christian), Gao, Y. (Yutang), Gjesing, A. P. (Anette P.), Goel, A. (Anuj), Han, S. (Sohee), Hartman, C. A. (Catharina A.), Herder, C. (Christian), Hicks, A. A. (Andrew A.), Hsieh, C.-H. (Chang-Hsun), Hsueh, W. A. (Willa A.), Ichihara, S. (Sahoko), Igase, M. (Michiya), Ikram, M. A. (M. Arfan), Johnson, W. C. (W. Craig), Jorgensen, M. E. (Marit E.), Joshi, P. K. (Peter K.), Kalyani, R. R. (Rita R.), Kandeel, F. R. (Fouad R.), Katsuya, T. (Tomohiro), Khor, C. C. (Chiea Chuen), Kiess, W. (Wieland), Kolcic, I. (Ivana), Kuulasmaa, T. (Teemu), Kuusisto, J. (Johanna), Lall, K. (Kristi), Lam, K. (Kelvin), Lawlor, D. A. (Deborah A.), Lee, N. R. (Nanette R.), Lemaitre, R. N. (Rozenn N.), Li, H. (Honglan), Lin, S.-Y. (Shih-Yi), Lindstrom, J. (Jaana), Linneberg, A. (Allan), Liu, J. (Jianjun), Lorenzo, C. (Carlos), Matsubara, T. (Tatsuaki), Matsuda, F. (Fumihiko), Mingrone, G. (Geltrude), Mooijaart, S. (Simon), Moon, S. (Sanghoon), Nabika, T. (Toru), Nadkarni, G. N. (Girish N.), Nadler, J. L. (Jerry L.), Nelis, M. (Mari), Neville, M. J. (Matt J.), Norris, J. M. (Jill M.), Ohyagi, Y. (Yasumasa), Peters, A. (Annette), Peyser, P. A. (Patricia A.), Polasek, O. (Ozren), Qi, Q. (Qibin), Raven, D. (Dennis), Reilly, D. F. (Dermot F.), Reiner, A. (Alex), Rivideneira, F. (Fernando), Roll, K. (Kathryn), Rudan, I. (Igor), Sabanayagam, C. (Charumathi), Sandow, K. (Kevin), Sattar, N. (Naveed), Schuermann, A. (Annette), Shi, J. (Jinxiu), Stringham, H. M. (Heather M.), Taylor, K. D. (Kent D.), Teslovich, T. M. (Tanya M.), Thuesen, B. (Betina), Timmers, P. R. (Paul R. H. J.), Tremoli, E. (Elena), Tsai, M. Y. (Michael Y.), Uitterlinden, A. (Andre), van Dam, R. M. (Rob M.), van Heemst, D. (Diana), van Hylckama Vlieg, A. (Astrid), van Vliet-Ostaptchouk, J. V. (Jana V.), Vangipurapu, J. (Jagadish), Vestergaard, H. (Henrik), Wang, T. (Tao), Willems van Dijk, K. (Ko), Zemunik, T. (Tatijana), Abecasis, G. R. (Goncalo R.), Adair, L. S. (Linda S.), Aguilar-Salinas, C. A. (Carlos Alberto), Alarcon-Riquelme, M. E. (Marta E.), An, P. (Ping), Aviles-Santa, L. (Larissa), Becker, D. M. (Diane M.), Beilin, L. J. (Lawrence J.), Bergmann, S. (Sven), Bisgaard, H. (Hans), Black, C. (Corri), Boehnke, M. (Michael), Boerwinkle, E. (Eric), Boehm, B. O. (Bernhard O.), Bonnelykke, K. (Klaus), Boomsma, D. I. (D. I.), Bottinger, E. P. (Erwin P.), Buchanan, T. A. (Thomas A.), Canouil, M. (Mickael), Caulfield, M. J. (Mark J.), Chambers, J. C. (John C.), Chasman, D. I. (Daniel I.), Chen, Y. I. (Yii-Der Ida), Cheng, C.-Y. (Ching-Yu), Collins, F. S. (Francis S.), Correa, A. (Adolfo), Cucca, F. (Francesco), de Silva, H. J. (H. Janaka), Dedoussis, G. (George), Elmstahl, S. (Solve), Evans, M. K. (Michele K.), Ferrannini, E. (Ele), Ferrucci, L. (Luigi), Florez, J. C. (Jose C.), Franks, P. W. (Paul W.), Frayling, T. M. (Timothy M.), Froguel, P. (Philippe), Gigante, B. (Bruna), Goodarzi, M. O. (Mark O.), Gordon-Larsen, P. (Penny), Grallert, H. (Harald), Grarup, N. (Niels), Grimsgaard, S. (Sameline), Groop, L. (Leif), Gudnason, V. (Vilmundur), Guo, X. (Xiuqing), Hamsten, A. (Anders), Hansen, T. (Torben), Hayward, C. (Caroline), Heckbert, S. R. (Susan R.), Horta, B. L. (Bernardo L.), Huang, W. (Wei), Ingelsson, E. (Erik), James, P. S. (Pankow S.), Järvelin, M.-R. (Marjo-Ritta), Jonas, J. B. (Jost B.), Jukema, J. W. (J. Wouter), Kaleebu, P. (Pontiano), Kaplan, R. (Robert), Kardia, S. L. (Sharon L. R.), Kato, N. (Norihiro), Keinanen-Kiukaanniemi, S. M. (Sirkka M.), Kim, B.-J. (Bong-Jo), Kivimaki, M. (Mika), Koistinen, H. A. (Heikki A.), Kooner, J. S. (Jaspal S.), Koerner, A. (Antje), Kovacs, P. (Peter), Kuh, D. (Diana), Kumari, M. (Meena), Kutalik, Z. (Zoltan), Laakso, M. (Markku), Lakka, T. A. (Timo A.), Launer, L. J. (Lenore J.), Leander, K. (Karin), Li, H. (Huaixing), Lin, X. (Xu), Lind, L. (Lars), Lindgren, C. (Cecilia), Liu, S. (Simin), Loos, R. J. (Ruth J. F.), Magnusson, P. K. (Patrik K. E.), Mahajan, A. (Anubha), Metspalu, A. (Andres), Mook-Kanamori, D. O. (Dennis O.), Mori, T. A. (Trevor A.), Munroe, P. B. (Patricia B.), Njolstad, I. (Inger), O'Connell, J. R. (Jeffrey R.), Oldehinkel, A. J. (Albertine J.), Ong, K. K. (Ken K.), Padmanabhan, S. (Sandosh), Palmer, C. N. (Colin N. A.), Palmer, N. D. (Nicholette D.), Pedersen, O. (Oluf), Pennell, C. E. (Craig E.), Porteous, D. J. (David J.), Pramstaller, P. P. (Peter P.), Province, M. A. (Michael A.), Psaty, B. M. (Bruce M.), Qi, L. (Lu), Raffel, L. J. (Leslie J.), Rauramaa, R. (Rainer), Redline, S. (Susan), Ridker, P. M. (Paul M.), Rosendaal, F. R. (Frits R.), Saaristo, T. E. (Timo E.), Sandhu, M. (Manjinder), Saramies, J. (Jouko), Schneiderman, N. (Neil), Schwarz, P. (Peter), Scott, L. J. (Laura J.), Selvin, E. (Elizabeth), Sever, P. (Peter), Shu, X.-o. (Xiao-ou), Slagboom, P. E. (P. Eline), Small, K. S. (Kerrin S.), Smith, B. H. (Blair H.), Snieder, H. (Harold), Sofer, T. (Tamar), Sorensen, T. I. (Thorkild I. A.), Spector, T. D. (Tim D.), Stanton, A. (Alice), Steves, C. J. (Claire J.), Stumvoll, M. (Michael), Sun, L. (Liang), Tabara, Y. (Yasuharu), Tai, E. S. (E. Shyong), Timpson, N. J. (Nicholas J.), Tonjes, A. (Anke), Tuomilehto, J. (Jaakko), Tusie, T. (Teresa), Uusitupa, M. (Matti), van der Harst, P. (Pim), van Duijn, C. (Cornelia), Vitart, V. (Veronique), Vollenweider, P. (Peter), Vrijkotte, T. G. (Tanja G. M.), Wagenknecht, L. E. (Lynne E.), Walker, M. (Mark), Wang, Y. X. (Ya X.), Wareham, N. J. (Nick J.), Watanabe, R. M. (Richard M.), Watkins, H. (Hugh), Wei, W. B. (Wen B.), Wickremasinghe, A. R. (Ananda R.), Willemsen, G. (Gonneke), Wilson, J. F. (James F.), Wong, T.-Y. (Tien-Yin), Wu, J.-Y. (Jer-Yuarn), Xiang, A. H. (Anny H.), Yanek, L. R. (Lisa R.), Yengo, L. (Loic), Yokota, M. (Mitsuhiro), Zeggini, E. (Eleftheria), Zheng, W. (Wei), Zonderman, A. B. (Alan B.), Rotter, J. I. (Jerome I.), Gloyn, A. L. (Anna L.), McCarthy, M. I. (Mark I.), Dupuis, J. (Josee), Meigs, J. B. (James B.), Scott, R. A. (Robert A.), Prokopenko, I. (Inga), Leong, A. (Aaron), Liu, C.-T. (Ching-Ti), Parker, S. C. (Stephen C. J.), Mohlke, K. L. (Karen L.), Langenberg, C. (Claudia), Wheeler, E. (Eleanor), Morris, A. P. (Andrew P.), Barroso, I. (Ines), Chen, J. (Ji), Spracklen, C. N. (Cassandra N.), Marenne, G. (Gaelle), Varshney, A. (Arushi), Corbin, L. J. (Laura J.), Luan, J. (Jian'an), Willems, S. M. (Sara M.), Wu, Y. (Ying), Zhang, X. (Xiaoshuai), Horikoshi, M. (Momoko), Boutin, T. S. (Thibaud S.), Magi, R. (Reedik), Waage, J. (Johannes), Li-Gao, R. (Ruifang), Chan, K. H. (Kei Hang Katie), Yao, J. (Jie), Anasanti, M. D. (Mila D.), Chu, A. Y. (Audrey Y.), Claringbould, A. (Annique), Heikkinen, J. (Jani), Hong, J. (Jaeyoung), Hottenga, J.-J. (Jouke-Jan), Huo, S. (Shaofeng), Kaakinen, M. A. (Marika A.), Louie, T. (Tin), Maerz, W. (Winfried), Moreno-Macias, H. (Hortensia), Ndungu, A. (Anne), Nelson, S. C. (Sarah C.), Nolte, I. M. (Ilja M.), North, K. E. (Kari E.), Raulerson, C. K. (Chelsea K.), Ray, D. (Debashree), Rohde, R. (Rebecca), Rybin, D. (Denis), Schurmann, C. (Claudia), Sim, X. (Xueling), Southam, L. (Lorraine), Stewart, I. D. (Isobel D.), Wang, C. A. (Carol A.), Wang, Y. (Yujie), Wu, P. (Peitao), Zhang, W. (Weihua), Ahluwalia, T. S. (Tarunveer S.), Appel, E. V. (Emil V. R.), Bielak, L. F. (Lawrence F.), Brody, J. A. (Jennifer A.), Burtt, N. P. (Noel P.), Cabrera, C. P. (Claudia P.), Cade, B. E. (Brian E.), Chai, J. F. (Jin Fang), Chai, X. (Xiaoran), Chang, L.-C. (Li-Ching), Chen, C.-H. (Chien-Hsiun), Chen, B. H. (Brian H.), Chitrala, K. N. (Kumaraswamy Naidu), Chiu, Y.-F. (Yen-Feng), de Haan, H. G. (Hugoline G.), Delgado, G. E. (Graciela E.), Demirkan, A. (Ayse), Duan, Q. (Qing), Engmann, J. (Jorgen), Fatumo, S. A. (Segun A.), Gayan, J. (Javier), Giulianini, F. (Franco), Gong, J. H. (Jung Ho), Gustafsson, S. (Stefan), Hai, Y. (Yang), Hartwig, F. P. (Fernando P.), He, J. (Jing), Heianza, Y. (Yoriko), Huang, T. (Tao), Huerta-Chagoya, A. (Alicia), Hwang, M. Y. (Mi Yeong), Jensen, R. A. (Richard A.), Kawaguchi, T. (Takahisa), Kentistou, K. A. (Katherine A.), Kim, Y. J. (Young Jin), Kleber, M. E. (Marcus E.), Kooner, I. K. (Ishminder K.), Lai, S. (Shuiqing), Lange, L. A. (Leslie A.), Langefeld, C. D. (Carl D.), Lauzon, M. (Marie), Li, M. (Man), Ligthart, S. (Symen), Liu, J. (Jun), Loh, M. (Marie), Long, J. (Jirong), Lyssenko, V. (Valeriya), Mangino, M. (Massimo), Marzi, C. (Carola), Montasser, M. E. (May E.), Nag, A. (Abhishek), Nakatochi, M. (Masahiro), Noce, D. (Damia), Noordam, R. (Raymond), Pistis, G. (Giorgio), Preuss, M. (Michael), Raffield, L. (Laura), Rasmussen-Torvik, L. J. (Laura J.), Rich, S. S. (Stephen S.), Robertson, N. R. (Neil R.), Rueedi, R. (Rico), Ryan, K. (Kathleen), Sanna, S. (Serena), Saxena, R. (Richa), Schraut, K. E. (Katharina E.), Sennblad, B. (Bengt), Setoh, K. (Kazuya), Smith, A. V. (Albert V.), Sparso, T. (Thomas), Strawbridge, R. J. (Rona J.), Takeuchi, F. (Fumihiko), Tan, J. (Jingyi), Trompet, S. (Stella), van den Akker, E. (Erik), van der Most, P. J. (Peter J.), Verweij, N. (Niek), Vogel, M. (Mandy), Wang, H. (Heming), Wang, C. (Chaolong), Wang, N. (Nan), Warren, H. R. (Helen R.), Wen, W. (Wanqing), Wilsgaard, T. (Tom), Wong, A. (Andrew), Wood, A. R. (Andrew R.), Xie, T. (Tian), Zafarmand, M. H. (Mohammad Hadi), Zhao, J.-H. (Jing-Hua), Zhao, W. (Wei), Amin, N. (Najaf), Arzumanyan, Z. (Zorayr), Astrup, A. (Arne), Bakker, S. J. (Stephan J. L.), Baldassarre, D. (Damiano), Beekman, M. (Marian), Bergman, R. N. (Richard N.), Bertoni, A. (Alain), Blueher, M. (Matthias), Bonnycastle, L. L. (Lori L.), Bornstein, S. R. (Stefan R.), Bowden, D. W. (Donald W.), Cai, Q. (Qiuyin), Campbell, A. (Archie), Campbell, H. (Harry), Chang, Y. C. (Yi Cheng), de Geus, E. J. (Eco J. C.), Dehghan, A. (Abbas), Du, S. (Shufa), Eiriksdottir, G. (Gudny), Farmaki, A. E. (Aliki Eleni), Franberg, M. (Mattias), Fuchsberger, C. (Christian), Gao, Y. (Yutang), Gjesing, A. P. (Anette P.), Goel, A. (Anuj), Han, S. (Sohee), Hartman, C. A. (Catharina A.), Herder, C. (Christian), Hicks, A. A. (Andrew A.), Hsieh, C.-H. (Chang-Hsun), Hsueh, W. A. (Willa A.), Ichihara, S. (Sahoko), Igase, M. (Michiya), Ikram, M. A. (M. Arfan), Johnson, W. C. (W. Craig), Jorgensen, M. E. (Marit E.), Joshi, P. K. (Peter K.), Kalyani, R. R. (Rita R.), Kandeel, F. R. (Fouad R.), Katsuya, T. (Tomohiro), Khor, C. C. (Chiea Chuen), Kiess, W. (Wieland), Kolcic, I. (Ivana), Kuulasmaa, T. (Teemu), Kuusisto, J. (Johanna), Lall, K. (Kristi), Lam, K. (Kelvin), Lawlor, D. A. (Deborah A.), Lee, N. R. (Nanette R.), Lemaitre, R. N. (Rozenn N.), Li, H. (Honglan), Lin, S.-Y. (Shih-Yi), Lindstrom, J. (Jaana), Linneberg, A. (Allan), Liu, J. (Jianjun), Lorenzo, C. (Carlos), Matsubara, T. (Tatsuaki), Matsuda, F. (Fumihiko), Mingrone, G. (Geltrude), Mooijaart, S. (Simon), Moon, S. (Sanghoon), Nabika, T. (Toru), Nadkarni, G. N. (Girish N.), Nadler, J. L. (Jerry L.), Nelis, M. (Mari), Neville, M. J. (Matt J.), Norris, J. M. (Jill M.), Ohyagi, Y. (Yasumasa), Peters, A. (Annette), Peyser, P. A. (Patricia A.), Polasek, O. (Ozren), Qi, Q. (Qibin), Raven, D. (Dennis), Reilly, D. F. (Dermot F.), Reiner, A. (Alex), Rivideneira, F. (Fernando), Roll, K. (Kathryn), Rudan, I. (Igor), Sabanayagam, C. (Charumathi), Sandow, K. (Kevin), Sattar, N. (Naveed), Schuermann, A. (Annette), Shi, J. (Jinxiu), Stringham, H. M. (Heather M.), Taylor, K. D. (Kent D.), Teslovich, T. M. (Tanya M.), Thuesen, B. (Betina), Timmers, P. R. (Paul R. H. J.), Tremoli, E. (Elena), Tsai, M. Y. (Michael Y.), Uitterlinden, A. (Andre), van Dam, R. M. (Rob M.), van Heemst, D. (Diana), van Hylckama Vlieg, A. (Astrid), van Vliet-Ostaptchouk, J. V. (Jana V.), Vangipurapu, J. (Jagadish), Vestergaard, H. (Henrik), Wang, T. (Tao), Willems van Dijk, K. (Ko), Zemunik, T. (Tatijana), Abecasis, G. R. (Goncalo R.), Adair, L. S. (Linda S.), Aguilar-Salinas, C. A. (Carlos Alberto), Alarcon-Riquelme, M. E. (Marta E.), An, P. (Ping), Aviles-Santa, L. (Larissa), Becker, D. M. (Diane M.), Beilin, L. J. (Lawrence J.), Bergmann, S. (Sven), Bisgaard, H. (Hans), Black, C. (Corri), Boehnke, M. (Michael), Boerwinkle, E. (Eric), Boehm, B. O. (Bernhard O.), Bonnelykke, K. (Klaus), Boomsma, D. I. (D. I.), Bottinger, E. P. (Erwin P.), Buchanan, T. A. (Thomas A.), Canouil, M. (Mickael), Caulfield, M. J. (Mark J.), Chambers, J. C. (John C.), Chasman, D. I. (Daniel I.), Chen, Y. I. (Yii-Der Ida), Cheng, C.-Y. (Ching-Yu), Collins, F. S. (Francis S.), Correa, A. (Adolfo), Cucca, F. (Francesco), de Silva, H. J. (H. Janaka), Dedoussis, G. (George), Elmstahl, S. (Solve), Evans, M. K. (Michele K.), Ferrannini, E. (Ele), Ferrucci, L. (Luigi), Florez, J. C. (Jose C.), Franks, P. W. (Paul W.), Frayling, T. M. (Timothy M.), Froguel, P. (Philippe), Gigante, B. (Bruna), Goodarzi, M. O. (Mark O.), Gordon-Larsen, P. (Penny), Grallert, H. (Harald), Grarup, N. (Niels), Grimsgaard, S. (Sameline), Groop, L. (Leif), Gudnason, V. (Vilmundur), Guo, X. (Xiuqing), Hamsten, A. (Anders), Hansen, T. (Torben), Hayward, C. (Caroline), Heckbert, S. R. (Susan R.), Horta, B. L. (Bernardo L.), Huang, W. (Wei), Ingelsson, E. (Erik), James, P. S. (Pankow S.), Järvelin, M.-R. (Marjo-Ritta), Jonas, J. B. (Jost B.), Jukema, J. W. (J. Wouter), Kaleebu, P. (Pontiano), Kaplan, R. (Robert), Kardia, S. L. (Sharon L. R.), Kato, N. (Norihiro), Keinanen-Kiukaanniemi, S. M. (Sirkka M.), Kim, B.-J. (Bong-Jo), Kivimaki, M. (Mika), Koistinen, H. A. (Heikki A.), Kooner, J. S. (Jaspal S.), Koerner, A. (Antje), Kovacs, P. (Peter), Kuh, D. (Diana), Kumari, M. (Meena), Kutalik, Z. (Zoltan), Laakso, M. (Markku), Lakka, T. A. (Timo A.), Launer, L. J. (Lenore J.), Leander, K. (Karin), Li, H. (Huaixing), Lin, X. (Xu), Lind, L. (Lars), Lindgren, C. (Cecilia), Liu, S. (Simin), Loos, R. J. (Ruth J. F.), Magnusson, P. K. (Patrik K. E.), Mahajan, A. (Anubha), Metspalu, A. (Andres), Mook-Kanamori, D. O. (Dennis O.), Mori, T. A. (Trevor A.), Munroe, P. B. (Patricia B.), Njolstad, I. (Inger), O'Connell, J. R. (Jeffrey R.), Oldehinkel, A. J. (Albertine J.), Ong, K. K. (Ken K.), Padmanabhan, S. (Sandosh), Palmer, C. N. (Colin N. A.), Palmer, N. D. (Nicholette D.), Pedersen, O. (Oluf), Pennell, C. E. (Craig E.), Porteous, D. J. (David J.), Pramstaller, P. P. (Peter P.), Province, M. A. (Michael A.), Psaty, B. M. (Bruce M.), Qi, L. (Lu), Raffel, L. J. (Leslie J.), Rauramaa, R. (Rainer), Redline, S. (Susan), Ridker, P. M. (Paul M.), Rosendaal, F. R. (Frits R.), Saaristo, T. E. (Timo E.), Sandhu, M. (Manjinder), Saramies, J. (Jouko), Schneiderman, N. (Neil), Schwarz, P. (Peter), Scott, L. J. (Laura J.), Selvin, E. (Elizabeth), Sever, P. (Peter), Shu, X.-o. (Xiao-ou), Slagboom, P. E. (P. Eline), Small, K. S. (Kerrin S.), Smith, B. H. (Blair H.), Snieder, H. (Harold), Sofer, T. (Tamar), Sorensen, T. I. (Thorkild I. A.), Spector, T. D. (Tim D.), Stanton, A. (Alice), Steves, C. J. (Claire J.), Stumvoll, M. (Michael), Sun, L. (Liang), Tabara, Y. (Yasuharu), Tai, E. S. (E. Shyong), Timpson, N. J. (Nicholas J.), Tonjes, A. (Anke), Tuomilehto, J. (Jaakko), Tusie, T. (Teresa), Uusitupa, M. (Matti), van der Harst, P. (Pim), van Duijn, C. (Cornelia), Vitart, V. (Veronique), Vollenweider, P. (Peter), Vrijkotte, T. G. (Tanja G. M.), Wagenknecht, L. E. (Lynne E.), Walker, M. (Mark), Wang, Y. X. (Ya X.), Wareham, N. J. (Nick J.), Watanabe, R. M. (Richard M.), Watkins, H. (Hugh), Wei, W. B. (Wen B.), Wickremasinghe, A. R. (Ananda R.), Willemsen, G. (Gonneke), Wilson, J. F. (James F.), Wong, T.-Y. (Tien-Yin), Wu, J.-Y. (Jer-Yuarn), Xiang, A. H. (Anny H.), Yanek, L. R. (Lisa R.), Yengo, L. (Loic), Yokota, M. (Mitsuhiro), Zeggini, E. (Eleftheria), Zheng, W. (Wei), Zonderman, A. B. (Alan B.), Rotter, J. I. (Jerome I.), Gloyn, A. L. (Anna L.), McCarthy, M. I. (Mark I.), Dupuis, J. (Josee), Meigs, J. B. (James B.), Scott, R. A. (Robert A.), Prokopenko, I. (Inga), Leong, A. (Aaron), Liu, C.-T. (Ching-Ti), Parker, S. C. (Stephen C. J.), Mohlke, K. L. (Karen L.), Langenberg, C. (Claudia), Wheeler, E. (Eleanor), Morris, A. P. (Andrew P.), and Barroso, I. (Ines)
Abstract: Glycemic traits are used to diagnose and monitor type 2 diabetes and cardiometabolic health. To date, most genetic studies of glycemic traits have focused on individuals of European ancestry. Here we aggregated genome-wide association studies comprising up to 281,416 individuals without diabetes (30% non-European ancestry) for whom fasting glucose, 2-h glucose after an oral glucose challenge, glycated hemoglobin and fasting insulin data were available. Trans-ancestry and single-ancestry meta-analyses identified 242 loci (99 novel; P < 5 x 10-8), 80% of which had no significant evidence of between-ancestry heterogeneity. Analyses restricted to individuals of European ancestry with equivalent sample size would have led to 24 fewer new loci. Compared with single-ancestry analyses, equivalent-sized trans-ancestry fine-mapping reduced the number of estimated variants in 99% credible sets by a median of 37.5%. Genomic-feature, gene-expression and gene-set analyses revealed distinct biological signatures for each trait, highlighting different underlying biological pathways. Our results increase our understanding of diabetes pathophysiology by using trans-ancestry studies for improved power and resolution.
Published: 2021

5. The trans-ancestral genomic architecture of glycemic traits

Author: Chen, J., Spracklen, C. N., Marenne, G., Varshney, A., Corbin, L. J., Luan, J., Willems, S. M., Wu, Y., Zhang, X., Horikoshi, M., Boutin, T. S., Magi, R., Waage, J., Li-Gao, R., Chan, K. H. K., Yao, J., Anasanti, M. D., Chu, A. Y., Claringbould, A., Heikkinen, J., Hong, J., Hottenga, J. -J., Huo, S., Kaakinen, M. A., Louie, T., Marz, W., Moreno-Macias, H., Ndungu, A., Nelson, S. C., Nolte, I. M., North, K. E., Raulerson, C. K., Ray, D., Rohde, R., Rybin, D., Schurmann, C., Sim, X., Southam, L., Stewart, I. D., Wang, C. A., Wang, Y., Wu, P., Zhang, W., Ahluwalia, T. S., Appel, E. V. R., Bielak, L. F., Brody, J. A., Burtt, N. P., Cabrera, C. P., Cade, B. E., Chai, J. F., Chai, X., Chang, L. -C., Chen, C. -H., Chen, B. H., Chitrala, K. N., Chiu, Y. -F., de Haan, H. G., Delgado, G. E., Demirkan, A., Duan, Q., Engmann, J., Fatumo, S. A., Gayan, J., Giulianini, F., Gong, J. H., Gustafsson, S., Hai, Y., Hartwig, F. P., He, J., Heianza, Y., Huang, T., Huerta-Chagoya, A., Hwang, M. Y., Jensen, R. A., Kawaguchi, T., Kentistou, K. A., Kim, Y. J., Kleber, M. E., Kooner, I. K., Lai, S., Lange, L. A., Langefeld, C. D., Lauzon, M., Li, M., Ligthart, S., Liu, J., Loh, M., Long, J., Lyssenko, V., Mangino, M., Marzi, C., Montasser, M. E., Nag, A., Nakatochi, M., Noce, D., Noordam, R., Pistis, G., Preuss, M., Raffield, L., Rasmussen-Torvik, L. J., Rich, S. S., Robertson, N. R., Rueedi, R., Ryan, K., Sanna, S., Saxena, R., Schraut, K. E., Sennblad, B., Setoh, K., Smith, A. V., Sparso, T., Strawbridge, R. J., Takeuchi, F., Tan, J., Trompet, S., van den Akker, E., van der Most, P. J., Verweij, N., Vogel, M., Wang, H., Wang, Chin Heng, Wang, N., Warren, H. R., Wen, W., Wilsgaard, T., Wong, A., Wood, A. R., Xie, T., Zafarmand, M. H., Zhao, J. -H., Zhao, W., Amin, N., Arzumanyan, Z., Astrup, A., Bakker, S. J. L., Baldassarre, D., Beekman, M., Bergman, R. N., Bertoni, Anna Marta Maria, Bluher, M., Bonnycastle, L. L., Bornstein, S. R., Bowden, D. W., Cai, Q., Campbell, A., Campbell, H., Chang, Y. C., de Geus, E. J. C., Dehghan, A., Du, S., Eiriksdottir, G., Farmaki, A. E., Franberg, M., Fuchsberger, C., Gao, Y., Gjesing, A. P., Goel, A., Han, S., Hartman, C. A., Herder, C., Hicks, A. A., Hsieh, C. -H., Hsueh, W. A., Ichihara, S., Igase, M., Ikram, M. A., Johnson, W. C., Jorgensen, M. E., Joshi, P. K., Kalyani, R. R., Kandeel, F. R., Katsuya, T., Khor, C. C., Kiess, W., Kolcic, I., Kuulasmaa, T., Kuusisto, J., Lall, K., Lam, K., Lawlor, D. A., Lee, N. R., Lemaitre, R. N., Li, H., Lin, S. -Y., Lindstrom, J., Linneberg, A., Lorenzo, C., Matsubara, T., Matsuda, F., Mingrone, Geltrude, Mooijaart, S., Moon, S., Nabika, T., Nadkarni, G. N., Nadler, J. L., Nelis, M., Neville, M. J., Norris, J. M., Ohyagi, Y., Peters, A., Peyser, P. A., Polasek, O., Qi, Q., Raven, D., Reilly, D. F., Reiner, A., Rivideneira, F., Roll, K., Rudan, I., Sabanayagam, C., Sandow, K., Sattar, N., Schurmann, A., Shi, J., Stringham, H. M., Taylor, K. D., Teslovich, T. M., Thuesen, B., Timmers, P. R. H. J., Tremoli, Elena, Tsai, M. Y., Uitterlinden, A., van Dam, R. M., van Heemst, D., van Hylckama Vlieg, A., van Vliet-Ostaptchouk, J. V., Vangipurapu, J., Vestergaard, H., Wang, T., Willems van Dijk, K., Zemunik, T., Abecasis, G. R., Adair, L. S., Aguilar-Salinas, C. A., Alarcon-Riquelme, M. E., An, P., Aviles-Santa, L., Becker, D. M., Beilin, L. J., Bergmann, S., Bisgaard, H., Black, C., Boehnke, M., Boerwinkle, E., Bohm, B. O., Bonnelykke, K., Boomsma, D. I., Bottinger, E. P., Buchanan, T. A., Canouil, M., Caulfield, M. J., Chambers, J. C., Chasman, D. I., Chen, Y. -D. I., Cheng, C. -Y., Collins, F. S., Correa, A., Cucca, F., de Silva, H. J., Dedoussis, G., Elmstahl, S., Evans, M. K., Ferrannini, E., Ferrucci, L., Florez, J. C., Franks, P. W., Frayling, T. M., Froguel, P., Gigante, B., Goodarzi, M. O., Gordon-Larsen, P., Grallert, H., Grarup, N., Grimsgaard, S., Groop, L., Gudnason, V., Guo, X., Hamsten, A., Hansen, T., Hayward, C., Heckbert, S. R., Horta, B. L., Huang, W., Ingelsson, E., James, P. S., Jarvelin, M. -R., Jonas, J. B., Jukema, J. W., Kaleebu, P., Kaplan, R., Kardia, S. L. R., Kato, N., Keinanen-Kiukaanniemi, S. M., Kim, B. -J., Kivimaki, M., Koistinen, H. A., Kooner, J. S., Korner, A., Kovacs, P., Kuh, D., Kumari, M., Kutalik, Z., Laakso, M., Lakka, T. A., Launer, L. J., Leander, K., Lin, X., Lind, L., Lindgren, C., Liu, S., Loos, R. J. F., Magnusson, P. K. E., Mahajan, A., Metspalu, A., Mook-Kanamori, D. O., Mori, T. A., Munroe, P. B., Njolstad, I., O'Connell, J. R., Oldehinkel, A. J., Ong, K. K., Padmanabhan, S., Palmer, C. N. A., Palmer, N. D., Pedersen, O., Pennell, C. E., Porteous, D. J., Pramstaller, P. P., Province, M. A., Psaty, B. M., Qi, L., Raffel, L. J., Rauramaa, R., Redline, S., Ridker, P. M., Rosendaal, F. R., Saaristo, T. E., Sandhu, M., Saramies, J., Schneiderman, N., Schwarz, P., Scott, L. J., Selvin, E., Sever, P., Shu, X. -O., Slagboom, P. E., Small, K. S., Smith, B. H., Snieder, H., Sofer, T., Sorensen, T. I. A., Spector, T. D., Stanton, A., Steves, C. J., Stumvoll, M., Sun, L., Tabara, Y., Tai, E. S., Timpson, N. J., Tonjes, A., Tuomilehto, J., Tusie, T., Uusitupa, M., van der Harst, P., van Duijn, C., Vitart, V., Vollenweider, P., Vrijkotte, T. G. M., Wagenknecht, L. E., Walker, M., Wang, Y. X., Wareham, N. J., Watanabe, R. M., Watkins, H., Wei, W. B., Wickremasinghe, A. R., Willemsen, G., Wilson, J. F., Wong, T. -Y., Wu, J. -Y., Xiang, A. H., Yanek, L. R., Yengo, L., Yokota, M., Zeggini, E., Zheng, W., Zonderman, A. B., Rotter, J. I., Gloyn, A. L., Mccarthy, M. I., Dupuis, J., Meigs, J. B., Scott, R. A., Prokopenko, I., Leong, A., Liu, C. -T., Parker, S. C. J., Mohlke, K. L., Langenberg, C., Wheeler, E., Morris, A. P., Barroso, I., van Willems van Dijk, K., Wang C., Bertoni A. (ORCID:0000-0001-7228-8718), Mingrone G. (ORCID:0000-0003-2021-528X), Tremoli E., Chen, J., Spracklen, C. N., Marenne, G., Varshney, A., Corbin, L. J., Luan, J., Willems, S. M., Wu, Y., Zhang, X., Horikoshi, M., Boutin, T. S., Magi, R., Waage, J., Li-Gao, R., Chan, K. H. K., Yao, J., Anasanti, M. D., Chu, A. Y., Claringbould, A., Heikkinen, J., Hong, J., Hottenga, J. -J., Huo, S., Kaakinen, M. A., Louie, T., Marz, W., Moreno-Macias, H., Ndungu, A., Nelson, S. C., Nolte, I. M., North, K. E., Raulerson, C. K., Ray, D., Rohde, R., Rybin, D., Schurmann, C., Sim, X., Southam, L., Stewart, I. D., Wang, C. A., Wang, Y., Wu, P., Zhang, W., Ahluwalia, T. S., Appel, E. V. R., Bielak, L. F., Brody, J. A., Burtt, N. P., Cabrera, C. P., Cade, B. E., Chai, J. F., Chai, X., Chang, L. -C., Chen, C. -H., Chen, B. H., Chitrala, K. N., Chiu, Y. -F., de Haan, H. G., Delgado, G. E., Demirkan, A., Duan, Q., Engmann, J., Fatumo, S. A., Gayan, J., Giulianini, F., Gong, J. H., Gustafsson, S., Hai, Y., Hartwig, F. P., He, J., Heianza, Y., Huang, T., Huerta-Chagoya, A., Hwang, M. Y., Jensen, R. A., Kawaguchi, T., Kentistou, K. A., Kim, Y. J., Kleber, M. E., Kooner, I. K., Lai, S., Lange, L. A., Langefeld, C. D., Lauzon, M., Li, M., Ligthart, S., Liu, J., Loh, M., Long, J., Lyssenko, V., Mangino, M., Marzi, C., Montasser, M. E., Nag, A., Nakatochi, M., Noce, D., Noordam, R., Pistis, G., Preuss, M., Raffield, L., Rasmussen-Torvik, L. J., Rich, S. S., Robertson, N. R., Rueedi, R., Ryan, K., Sanna, S., Saxena, R., Schraut, K. E., Sennblad, B., Setoh, K., Smith, A. V., Sparso, T., Strawbridge, R. J., Takeuchi, F., Tan, J., Trompet, S., van den Akker, E., van der Most, P. J., Verweij, N., Vogel, M., Wang, H., Wang, Chin Heng, Wang, N., Warren, H. R., Wen, W., Wilsgaard, T., Wong, A., Wood, A. R., Xie, T., Zafarmand, M. H., Zhao, J. -H., Zhao, W., Amin, N., Arzumanyan, Z., Astrup, A., Bakker, S. J. L., Baldassarre, D., Beekman, M., Bergman, R. N., Bertoni, Anna Marta Maria, Bluher, M., Bonnycastle, L. L., Bornstein, S. R., Bowden, D. W., Cai, Q., Campbell, A., Campbell, H., Chang, Y. C., de Geus, E. J. C., Dehghan, A., Du, S., Eiriksdottir, G., Farmaki, A. E., Franberg, M., Fuchsberger, C., Gao, Y., Gjesing, A. P., Goel, A., Han, S., Hartman, C. A., Herder, C., Hicks, A. A., Hsieh, C. -H., Hsueh, W. A., Ichihara, S., Igase, M., Ikram, M. A., Johnson, W. C., Jorgensen, M. E., Joshi, P. K., Kalyani, R. R., Kandeel, F. R., Katsuya, T., Khor, C. C., Kiess, W., Kolcic, I., Kuulasmaa, T., Kuusisto, J., Lall, K., Lam, K., Lawlor, D. A., Lee, N. R., Lemaitre, R. N., Li, H., Lin, S. -Y., Lindstrom, J., Linneberg, A., Lorenzo, C., Matsubara, T., Matsuda, F., Mingrone, Geltrude, Mooijaart, S., Moon, S., Nabika, T., Nadkarni, G. N., Nadler, J. L., Nelis, M., Neville, M. J., Norris, J. M., Ohyagi, Y., Peters, A., Peyser, P. A., Polasek, O., Qi, Q., Raven, D., Reilly, D. F., Reiner, A., Rivideneira, F., Roll, K., Rudan, I., Sabanayagam, C., Sandow, K., Sattar, N., Schurmann, A., Shi, J., Stringham, H. M., Taylor, K. D., Teslovich, T. M., Thuesen, B., Timmers, P. R. H. J., Tremoli, Elena, Tsai, M. Y., Uitterlinden, A., van Dam, R. M., van Heemst, D., van Hylckama Vlieg, A., van Vliet-Ostaptchouk, J. V., Vangipurapu, J., Vestergaard, H., Wang, T., Willems van Dijk, K., Zemunik, T., Abecasis, G. R., Adair, L. S., Aguilar-Salinas, C. A., Alarcon-Riquelme, M. E., An, P., Aviles-Santa, L., Becker, D. M., Beilin, L. J., Bergmann, S., Bisgaard, H., Black, C., Boehnke, M., Boerwinkle, E., Bohm, B. O., Bonnelykke, K., Boomsma, D. I., Bottinger, E. P., Buchanan, T. A., Canouil, M., Caulfield, M. J., Chambers, J. C., Chasman, D. I., Chen, Y. -D. I., Cheng, C. -Y., Collins, F. S., Correa, A., Cucca, F., de Silva, H. J., Dedoussis, G., Elmstahl, S., Evans, M. K., Ferrannini, E., Ferrucci, L., Florez, J. C., Franks, P. W., Frayling, T. M., Froguel, P., Gigante, B., Goodarzi, M. O., Gordon-Larsen, P., Grallert, H., Grarup, N., Grimsgaard, S., Groop, L., Gudnason, V., Guo, X., Hamsten, A., Hansen, T., Hayward, C., Heckbert, S. R., Horta, B. L., Huang, W., Ingelsson, E., James, P. S., Jarvelin, M. -R., Jonas, J. B., Jukema, J. W., Kaleebu, P., Kaplan, R., Kardia, S. L. R., Kato, N., Keinanen-Kiukaanniemi, S. M., Kim, B. -J., Kivimaki, M., Koistinen, H. A., Kooner, J. S., Korner, A., Kovacs, P., Kuh, D., Kumari, M., Kutalik, Z., Laakso, M., Lakka, T. A., Launer, L. J., Leander, K., Lin, X., Lind, L., Lindgren, C., Liu, S., Loos, R. J. F., Magnusson, P. K. E., Mahajan, A., Metspalu, A., Mook-Kanamori, D. O., Mori, T. A., Munroe, P. B., Njolstad, I., O'Connell, J. R., Oldehinkel, A. J., Ong, K. K., Padmanabhan, S., Palmer, C. N. A., Palmer, N. D., Pedersen, O., Pennell, C. E., Porteous, D. J., Pramstaller, P. P., Province, M. A., Psaty, B. M., Qi, L., Raffel, L. J., Rauramaa, R., Redline, S., Ridker, P. M., Rosendaal, F. R., Saaristo, T. E., Sandhu, M., Saramies, J., Schneiderman, N., Schwarz, P., Scott, L. J., Selvin, E., Sever, P., Shu, X. -O., Slagboom, P. E., Small, K. S., Smith, B. H., Snieder, H., Sofer, T., Sorensen, T. I. A., Spector, T. D., Stanton, A., Steves, C. J., Stumvoll, M., Sun, L., Tabara, Y., Tai, E. S., Timpson, N. J., Tonjes, A., Tuomilehto, J., Tusie, T., Uusitupa, M., van der Harst, P., van Duijn, C., Vitart, V., Vollenweider, P., Vrijkotte, T. G. M., Wagenknecht, L. E., Walker, M., Wang, Y. X., Wareham, N. J., Watanabe, R. M., Watkins, H., Wei, W. B., Wickremasinghe, A. R., Willemsen, G., Wilson, J. F., Wong, T. -Y., Wu, J. -Y., Xiang, A. H., Yanek, L. R., Yengo, L., Yokota, M., Zeggini, E., Zheng, W., Zonderman, A. B., Rotter, J. I., Gloyn, A. L., Mccarthy, M. I., Dupuis, J., Meigs, J. B., Scott, R. A., Prokopenko, I., Leong, A., Liu, C. -T., Parker, S. C. J., Mohlke, K. L., Langenberg, C., Wheeler, E., Morris, A. P., Barroso, I., van Willems van Dijk, K., Wang C., Bertoni A. (ORCID:0000-0001-7228-8718), Mingrone G. (ORCID:0000-0003-2021-528X), and Tremoli E.
Abstract: Glycemic traits are used to diagnose and monitor type 2 diabetes and cardiometabolic health. To date, most genetic studies of glycemic traits have focused on individuals of European ancestry. Here we aggregated genome-wide association studies comprising up to 281,416 individuals without diabetes (30% non-European ancestry) for whom fasting glucose, 2-h glucose after an oral glucose challenge, glycated hemoglobin and fasting insulin data were available. Trans-ancestry and single-ancestry meta-analyses identified 242 loci (99 novel; P < 5 × 10−8), 80% of which had no significant evidence of between-ancestry heterogeneity. Analyses restricted to individuals of European ancestry with equivalent sample size would have led to 24 fewer new loci. Compared with single-ancestry analyses, equivalent-sized trans-ancestry fine-mapping reduced the number of estimated variants in 99% credible sets by a median of 37.5%. Genomic-feature, gene-expression and gene-set analyses revealed distinct biological signatures for each trait, highlighting different underlying biological pathways. Our results increase our understanding of diabetes pathophysiology by using trans-ancestry studies for improved power and resolution.
Published: 2021

6. The potential role of N-acetylcysteine as an adjuvant therapy in acute aluminum phosphide poisoning: a randomized clinical trial.

Author: Abd El-Khalek SH, Amin SA, El-Ebiary AA, Elfeky A, and Kandeel F
Abstract: Objective: Aluminum phosphide (AP) intoxication is a life-threatening emergency with no available effective antidote. This study evaluated the efficacy and safety of N-acetylcysteine (NAC) infusion in cases of acute AP poisoning., Methods: This randomized, single-blinded, parallel-group, controlled, clinical trial enrolled 96 patients with acute AP poisoning. The patients were allocated to two groups and received either conventional treatment (control group) or conventional treatment plus NAC infusion (NAC group). The patients were subjected to full clinical evaluation, routine laboratory investigations, silver nitrate test, and evaluation of the oxidative markers, malondialdehyde (MDA) and total antioxidant capacity (TAC), at admission and after 24 h treatment. The primary outcome was mortality, and the secondary outcomes were the arterial blood pressure, the length of hospital stay, and the need for intubation or mechanical ventilation., Results: Compared to the control group, the NAC group showed significantly lower MDA (median [interquartile range (IQR)]: 4.6 [1.9-10.6] vs. 6.8 [3.5-17.4] nmol/mL, P = 0.014) and higher TAC levels (median [IQR]: 0.7 [0.6-0.7] vs. 0.6 [0.6-06] mM/L, P < 0.001). The mortality rate and the need for mechanical ventilation were comparable in both groups ( P = 0.601 and 0.505, respectively). However, the NAC group showed significant improvements of both systolic and diastolic blood pressure values (both P = 0.030). The duration of hospitalization was significantly shorter in the NAC group ( P = 0.017). No adverse events were reported in patients who received NAC infusion., Conclusion: In patients with acute AP poisoning, the use of NAC mitigates oxidative stress and partially enhances clinical manifestations without inducing noticeable adverse effects., (© The Author(s) 2025. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)
Published: 2025
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7. Can Islet Transplantation Possibly Reduce Mortality in Type 1 Diabetes.

Author: Isenberg JS and Kandeel F
Subjects: Humans, Kidney Transplantation mortality, Diabetes Mellitus, Type 1 therapy, Diabetes Mellitus, Type 1 mortality, Islets of Langerhans Transplantation methods
Abstract: Islet transplantation (IT) is a successful natural cell therapy. But the benefits are known mostly to individuals with severe type 1 diabetes who undergo IT and the health care professionals that work to make the therapy available, reproducible, and safe. Data linking IT to overall survival in T1D might alter this situation and frame the therapy in a more positive light. Recent analysis of mortality in several cohorts suggests that IT has possible survival benefits when used alone or in conjunction with renal transplantation. Multi-center prospective studies with long-term follow-up of individuals that receive stand-alone IT versus individuals who qualify for but do not undergo the procedure would seem reasonable to undertake to confirm an IT survival benefit., Competing Interests: Declaration of Conflicting InterestsThe author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: J.S.I. is a consultant to San Rocco Therapeutics (Tampa, FL). F.K. declares no conflicts of interest regarding the work and results described herein.
Published: 2025
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8. Characterization of Human Pancreatic Islet Cells Using a Single-Cell Western Blot Platform.

Author: Lenz G, Miao L, Lenz A, Mares J, Quijano J, Zook HN, Komatsu H, Garcia P, Ferreri K, Ku HT, and Kandeel F
Subjects: Humans, Adult, Immunohistochemistry methods, Single-Cell Analysis methods, Antibody Specificity, Microscopy, Confocal methods, Biomarkers metabolism, Biomarkers analysis, Male, Islets of Langerhans Transplantation methods, Glucagon metabolism, Glucagon analysis, Glucagon-Secreting Cells metabolism, Somatostatin metabolism, Somatostatin analysis, Insulin metabolism, Somatostatin-Secreting Cells metabolism, Blotting, Western methods, Insulin-Secreting Cells metabolism, Insulin-Secreting Cells cytology, Islets of Langerhans metabolism, Islets of Langerhans cytology
Abstract: Objective: Islet transplantation is an effective treatment for type 1 diabetes. However, transplant success depends on quick islet assessment because islets deteriorate 2-3 days after isolation. A new tool, single-cell western blot (scWestern), offers results within 1 day. In this study, we aimed to test the suitability of scWestern to detect protein markers for beta (insulin), alpha (glucagon), and delta (somatostatin) cells, the 3 major endocrine cell types in islets., Materials and Methods: We characterized the antibody specificity, signal intensity, and cell identification on the scWestern platform and then compared the islet cell composition analysis between scWestern and immunohistochemistry performed by the Integrated Islet Distribution Program., Results: Islet cell composition is comparable for alpha and beta cells, but not delta cells. Protein expression levels of insulin, glucagon, and somatostatin in individual islet cells varied greatly, highlighting cell type heterogeneity. Surprisingly, scWestern revealed double-hormonal cells (~1%), co-expressing insulin and somatostatin or insulin and glucagon, in nondiabetic and nonobese adult human islets, which was confirmed by confocal immunofluorescence microscopy., Conclusions: These results demonstrate that each alpha, beta, and delta cells express varying levels of peptide hormones, and a small subpopulation co-expresses double hormones in normal human islets. The scWestern platform will enable timely assessment of beta cell mass in isolated islets before clinical transplantation., Competing Interests: The authors declare no conflict of interest., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)
Published: 2024
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9. Pancreatic β-cells package double C2-like domain beta protein into extracellular vesicles via tandem C2 domains.

Author: Esparza D, Lima C, Abuelreich S, Ghaeli I, Hwang J, Oh E, Lenz A, Gu A, Jiang N, Kandeel F, Thurmond DC, and Jovanovic-Talisman T
Subjects: Animals, Rats, Humans, Mice, Protein Domains, Insulin Secretion, Insulin-Secreting Cells metabolism, Extracellular Vesicles metabolism, Calcium-Binding Proteins metabolism, Nerve Tissue Proteins metabolism
Abstract: Introduction: Double C2-like domain beta (DOC2B) is a vesicle priming protein critical for glucose-stimulated insulin secretion in β-cells. Individuals with type 1 diabetes (T1D) have lower levels of DOC2B in their residual functional β-cell mass and platelets, a phenotype also observed in a mouse model of T1D. Thus, DOC2B levels could provide important information on β-cell dys(function)., Objective: Our objective was to evaluate the DOC2B secretome of β-cells. In addition to soluble extracellular protein, we assessed DOC2B localized within membrane-delimited nanoparticles - extracellular vesicles (EVs). Moreover, in rat clonal β-cells, we probed domains required for DOC2B sorting into EVs., Method: Using Single Extracellular VEsicle Nanoscopy, we quantified EVs derived from clonal β-cells (human EndoC-βH1, rat INS-1 832/13, and mouse MIN6); two other cell types known to regulate glucose homeostasis and functionally utilize DOC2B (skeletal muscle rat myotube L6-GLUT4myc and human neuronal-like SH-SY5Y cells); and human islets sourced from individuals with no diabetes (ND). EVs derived from ND human plasma, ND human islets, and cell lines were isolated with either size exclusion chromatography or differential centrifugation. Isolated EVs were comprehensively characterized using dotblots, transmission electron microscopy, nanoparticle tracking analysis, and immunoblotting., Results: DOC2B was present within EVs derived from ND human plasma, ND human islets, and INS-1 832/13 β-cells. Compared to neuronal-like SH-SY5Y cells and L6-GLUT4myc myotubes, clonal β-cells (EndoC-βH1, INS-1 832/13, and MIN6) produced significantly more EVs. DOC2B levels in EVs (over whole cell lysates) were higher in INS-1 832/13 β-cells compared to L6-GLUT4myc myotubes; SH-SY5Y neuronal-like cells did not release appreciable DOC2B. Mechanistically, we show that DOC2B was localized to the EV lumen; the tandem C2 domains were sufficient to confer sorting to INS-1 832/13 β-cell EVs., Discussion: Clonal β-cells and ND human islets produce abundant EVs. In cell culture, appreciable DOC2B can be packaged into EVs, and a small fraction is excreted as a soluble protein. While DOC2B-laden EVs and soluble protein are present in ND plasma, further studies will be necessary to determine if DOC2B originating from β-cells significantly contributes to the plasma secretome., Competing Interests: Part of the methodology used in this work is the subject of a provisional patent application. Patent holders may be entitled to certain compensation through their institutions’ respective intellectual property policies in the event such intellectual property is licensed. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Esparza, Lima, Abuelreich, Ghaeli, Hwang, Oh, Lenz, Gu, Jiang, Kandeel, Thurmond and Jovanovic-Talisman.)
Published: 2024
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10. Trefoil Factor 2 Expressed by the Murine Pancreatic Acinar Cells Is Required for the Development of Islets and for β-Cell Function During Aging.

Author: Ortiz JA, Ghazalli N, Lopez K, Rawson J, McCown EM, Oh E, Irimia JM, Jou K, Mares J, Chen MH, Wu X, Zook HN, Quijano JC, Erdem N, Lizarraga A, Kandeel F, Fueger PT, Thurmond DC, and Ku HT
Subjects: Animals, Mice, Male, Female, Insulin metabolism, Islets of Langerhans metabolism, Islets of Langerhans cytology, Insulin Secretion physiology, Insulin Secretion genetics, Trefoil Factors metabolism, Trefoil Factors genetics, Peptides metabolism, Insulin-Secreting Cells metabolism, Trefoil Factor-2 metabolism, Trefoil Factor-2 genetics, Acinar Cells metabolism, Aging metabolism, Aging physiology, Mice, Knockout
Abstract: Exocrine-to-endocrine cross talk in the pancreas is crucial to maintain β-cell function. However, the molecular mechanisms underlying this cross talk are largely undefined. Trefoil factor 2 (Tff2) is a secreted factor known to promote the proliferation of β-cells in vitro, but its physiological role in vivo in the pancreas is unknown. Also, it remains unclear which pancreatic cell type expresses Tff2 protein. We therefore created a mouse model with a conditional knockout of Tff2 in the murine pancreas. We find that the Tff2 protein is preferentially expressed in acinar but not ductal or endocrine cells. Tff2 deficiency in the pancreas reduces β-cell mass on embryonic day 16.5. However, homozygous mutant mice are born without a reduction of β-cells and with acinar Tff3 compensation by day 7. When mice are aged to 1 year, both male and female homozygous and male heterozygous mutants develop impaired glucose tolerance without affected insulin sensitivity. Perifusion analysis reveals that the second phase of glucose-stimulated insulin secretion from islets is reduced in aged homozygous mutant compared with controls. Collectively, these results demonstrate a previously unknown role of Tff2 as an exocrine acinar cell-derived protein required for maintaining functional endocrine β-cells in mice., (© 2024 by the American Diabetes Association.)
Published: 2024
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11. Lowering an ER stress-regulated long noncoding RNA protects mice from diabetes and isolated pancreatic islets from cell death.

Author: Kato M, Abdollahi M, Omori K, Malek V, Lanting L, Kandeel F, Rawson J, Tsark W, Zhang L, Wang M, Tunduguru R, and Natarajan R
Abstract: We investigated the role of the endoplasmic reticulum (ER) stress-regulated long noncoding RNA (lncRNA) lncMGC in pancreatic islets and the pathology of type 1 diabetes (T1D), as well as the potential of lncMGC-based therapeutics. In vivo , blood glucose levels (BGLs) and HbA1c were significantly lower in lncMGC-knockout (KO)-streptozotocin (STZ)-treated diabetic mice compared to wild-type STZ. Antisense oligonucleotides (GapmeR) targeting lncMGC significantly attenuated insulitis and BGLs in T1D NOD mice compared to GapmeR-negative control (NC). GapmeR-injected T1D Akita mice showed significantly lower BGLs compared to Akita-NC mice. hlncMGC-GapmeR lowered BGLs in partially humanized lncMGC (hlncMGC)-STZ mice compared to NC-injected mice. CHOP (ER stress regulating transcription factor) and lncMGC were upregulated in islets from diabetic mice but not in lncMGC-KO and GapmeR-injected diabetic mice, suggesting ER stress involvement . In vitro , hlncMGC-GapmeR increased the viability of isolated islets from human donors and hlncMGC mice and protected them from cytokine-induced apoptosis. Anti-ER stress and anti-apoptotic genes were upregulated, but pro-apoptotic genes were down-regulated in lncMGC KO mice islets and GapmeR-treated human islets. Taken together, these results show that a GapmeR-targeting lncMGC is effective in ameliorating diabetes in mice and also preserves human and mouse islet viability, implicating clinical translation potential., Competing Interests: M.K. and R.N. have an issued patent and pending patent applications through City of Hope disclosing and claiming certain parts of the work detailed in this paper. These pending applications and patents include the following two families: (1) US Patent Number 10,787,664, and US Patent Application No. 16/985,779 (published as U.S. Patent Application Publication No. 2020/0407721), which both claim priority to US Provisional Application No. 62/166,533; and (2) US Patent Application No. 17/268,068 (published as US Patent Application Publication No. 2021/0310000), which claims priority to PCT/US2019/046896 and US Provisional Application No. 62/719,566., (© 2024 The Author(s).)
Published: 2024
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12. Biological hypoxia in pre-transplant human pancreatic islets induces transplant failure in diabetic mice.

Author: Kato H, Salgado M, Mendez D, Gonzalez N, Rawson J, Ligot D, Balandran B, Orr C, Quijano JC, Omori K, Qi M, Al-Abdullah IH, Mullen Y, Ku HT, Kandeel F, and Komatsu H
Subjects: Humans, Animals, Mice, Male, Diabetes Mellitus, Type 1 metabolism, Hypoxia metabolism, Female, Cell Hypoxia, Middle Aged, Blood Glucose metabolism, Islets of Langerhans Transplantation methods, Islets of Langerhans metabolism, Diabetes Mellitus, Experimental therapy
Abstract: Evaluating the quality of isolated human islets before transplantation is crucial for predicting the success in treating Type 1 diabetes. The current gold standard involves time-intensive in vivo transplantation into diabetic immunodeficient mice. Given the susceptibility of isolated islets to hypoxia, we hypothesized that hypoxia present in islets before transplantation could indicate compromised islet quality, potentially leading to unfavorable outcomes. To test this hypothesis, we analyzed expression of 39 hypoxia-related genes in human islets from 85 deceased donors. We correlated gene expression profiles with transplantation outcomes in 327 diabetic mice, each receiving 1200 islet equivalents grafted into the kidney capsule. Transplantation outcome was post-transplant glycemic control based on area under the curve of blood glucose over 4 weeks. In linear regression analysis, DDIT4 (R = 0.4971, P < 0.0001), SLC2A8 (R = 0.3531, P = 0.0009) and HK1 (R = 0.3444, P = 0.0012) had the highest correlation with transplantation outcome. A multiple regression model of 11 genes increased the correlation (R = 0.6117, P < 0.0001). We conclude that assessing pre-transplant hypoxia in human islets via gene expression analysis is a rapid, viable alternative to conventional in vivo assessments. This approach also underscores the importance of mitigating pre-transplant hypoxia in isolated islets to improve the success rate of islet transplantation., (© 2024. The Author(s).)
Published: 2024
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13. Reversal of diabetes by an oral Salmonella-based vaccine in acute and progressive diabetes in NOD mice.

Author: Cobb J, Rawson J, Gonzalez N, Orr C, Kandeel F, and Husseiny MI
Subjects: Animals, Female, Mice, Administration, Oral, Salmonella Vaccines immunology, Salmonella Vaccines administration & dosage, Salmonella immunology, Insulin immunology, Disease Progression, Acute Disease, Protein Precursors, Mice, Inbred NOD, Diabetes Mellitus, Type 1 immunology, Diabetes Mellitus, Type 1 microbiology, Blood Glucose metabolism
Abstract: Type 1 diabetes (T1D)-associated hyperglycemia develops, in part, from loss of insulin-secreting beta cells. The degree of glycemic dysregulation and the age at onset of disease can serve as indicators of the aggressiveness of the disease. Tracking blood glucose levels in prediabetic mice may demonstrate the onset of diabetes and, along with animal age, also presage disease severity. In this study, an analysis of blood glucose levels obtained from female NOD mice starting at 4 weeks until diabetes onset was undertaken. New onset diabetic mice were orally vaccinated with a Salmonella-based vaccine towards T1D-associated preproinsulin combined with TGFβ and IL10 along with anti-CD3 antibody. Blood glucose levels were obtained before and after development of disease and vaccination. Animals were classified as acute disease if hyperglycemia was confirmed at a young age, while other animals were classified as progressive disease. The effectiveness of the oral T1D vaccine was greater in mice with progressive disease that had less glucose excursion compared to acute disease mice. Overall, the Salmonella-based vaccine reversed disease in 60% of the diabetic mice due, in part, to lessening of islet inflammation, improving residual beta cell health, and promoting tolerance. In summary, the age of disease onset and severity of glucose dysregulation in NOD mice predicted response to vaccine therapy. This suggests a similar disease categorization in the clinic may predict therapeutic response., Competing Interests: M.I.H. is an inventor on patent # 10206984 which describes methods for a Salmonella based vaccine. The other authors declare that they have no conflicts of interests. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2024 Cobb et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)
Published: 2024
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14. A novel approach to determine the critical survival threshold of cellular oxygen within spheroids via integrating live/dead cell imaging with oxygen modeling.

Author: Shang KM, Kato H, Gonzalez N, Kandeel F, Tai YC, and Komatsu H
Subjects: Humans, Hypoxia metabolism, Spheroids, Cellular metabolism, Cell Hypoxia, Cell Survival, Oxygen metabolism, Islets of Langerhans metabolism
Abstract: Defining the oxygen level that induces cell death within 3-D tissues is vital for understanding tissue hypoxia; however, obtaining accurate measurements has been technically challenging. In this study, we introduce a noninvasive, high-throughput methodology to quantify critical survival partial oxygen pressure (pO 2 ) with high spatial resolution within spheroids by using a combination of controlled hypoxic conditions, semiautomated live/dead cell imaging, and computational oxygen modeling. The oxygen-permeable, micropyramid patterned culture plates created a precisely controlled oxygen condition around the individual spheroid. Live/dead cell imaging provided the geometric information of the live/dead boundary within spheroids. Finally, computational oxygen modeling calculated the pO 2 at the live/dead boundary within spheroids. As proof of concept, we determined the critical survival pO 2 in two types of spheroids: isolated primary pancreatic islets and tumor-derived pseudoislets (2.43 ± 0.08 vs. 0.84 ± 0.04 mmHg), indicating higher hypoxia tolerance in pseudoislets due to their tumorigenic origin. We also applied this method for evaluating graft survival in cell transplantations for diabetes therapy, where hypoxia is a critical barrier to successful transplantation outcomes; thus, designing oxygenation strategies is required. Based on the elucidated critical survival pO 2 , 100% viability could be maintained in a typically sized primary islet under the tissue pO 2 above 14.5 mmHg. This work presents a valuable tool that is potentially instrumental for fundamental hypoxia research. It offers insights into physiological responses to hypoxia among different cell types and may refine translational research in cell therapies. NEW & NOTEWORTHY Our study introduces an innovative combinatory approach for noninvasively determining the critical survival oxygen level of cells within small cell spheroids, which replicates a 3-D tissue environment, by seamlessly integrating three pivotal techniques: cell death induction under controlled oxygen conditions, semiautomated imaging that precisely identifies live/dead cells, and computational modeling of oxygen distribution. Notably, our method ensures high-throughput analysis applicable to various cell types, offering a versatile solution for researchers in diverse fields.
Published: 2024
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15. Mechanism of Action of Oral Salmonella -Based Vaccine to Prevent and Reverse Type 1 Diabetes in NOD Mice.

Author: Cobb J, Rawson J, Gonzalez N, Singer M, Kandeel F, and Husseiny MI
Abstract: A combination therapy of preproinsulin (PPI) and immunomodulators (TGFβ+IL10) orally delivered via genetically modified Salmonella and anti-CD3 promoted glucose balance in in NOD mice with recent onset diabetes. The Salmonella bacteria were modified to express the diabetes-associated antigen PPI controlled by a bacterial promoter in conjunction with over-expressed immunomodulating molecules. The possible mechanisms of action of this vaccine to limit autoimmune diabetes remained undefined. In mice, the vaccine prevented and reversed ongoing diabetes. The vaccine-mediated beneficial effects were associated with increased numbers of antigen-specific CD4 + CD25 + Foxp3 + Tregs, CD4 + CD49b + LAG3 + Tr1-cells, and tolerogenic dendritic-cells (tol-DCs) in the spleens and lymphatic organs of treated mice. Despite this, the immune response to Salmonella infection was not altered. Furthermore, the vaccine effects were associated with a reduction in islet-infiltrating lymphocytes and an increase in the islet beta-cell mass. This was associated with increased serum levels of the tolerogenic cytokines (IL10, IL2, and IL13) and chemokine ligand 2 (CCL2) and decreased levels of inflammatory cytokines (IFNγ, GM-CSF, IL6, IL12, and TNFα) and chemokines (CXCL1, CXCL2, and CXCL5). Overall, the data suggest that the Salmonella -based vaccine modulates the immune response, reduces inflammation, and promotes tolerance specifically to an antigen involved in autoimmune diabetes.
Published: 2024
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16. Activation of ductal progenitor-like cells from adult human pancreas requires extracellular matrix protein signaling.

Author: Zook HN, Quijano JC, Ortiz JA, Donohue C, Lopez K, Li W, Erdem N, Jou K, Crook CJ, Garcia I Jr, Kandeel F, Montero E, and Ku HT
Abstract: Ductal progenitor-like cells are a sub-population of ductal cells in the adult human pancreas that have the potential to contribute to regenerative medicine. However, the microenvironmental cues that regulate their activation are poorly understood. Here, we establish a 3-dimensional suspension culture system containing six defined soluble factors in which primary human ductal progenitor-like and ductal non-progenitor cells survive but do not proliferate. Expansion and polarization occur when suspension cells are provided with a low concentration (5% v/v) of Matrigel, a sarcoma cell product enriched in many extracellular matrix (ECM) proteins. Screening of ECM proteins identified that collagen IV can partially recapitulate the effects of Matrigel. Inhibition of integrin α1β1, a major collagen IV receptor, negates collagen IV- and Matrigel-stimulated effects. These results demonstrate that collagen IV is a key ECM protein that stimulates the expansion and polarization of human ductal progenitor-like and ductal non-progenitor cells via integrin α1β1 receptor signaling., Competing Interests: H.T.K. is an inventor of a patent no. 9,783,784, titled “Methods for establishing and improving the survival of a population of pancreatic progenitor or stem cells.”, (© 2024 The Authors.)
Published: 2024
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17. A scalable human islet 3D-culture platform maintains cell mass and function long-term for transplantation.

Author: Omori K, Qi M, Salgado M, Gonzalez N, Hui LT, Chen KT, Rawson J, Miao L, Komatsu H, Isenberg JS, Al-Abdullah IH, Mullen Y, and Kandeel F
Subjects: Humans, Mice, Animals, Cell Culture Techniques, Hydrogels, Insulin, Cell Survival, Islets of Langerhans, Diabetes Mellitus, Experimental, Islets of Langerhans Transplantation
Abstract: Present-day islet culture methods provide short-term maintenance of cell viability and function, limiting access to islet transplantation. Attempts to lengthen culture intervals remain unsuccessful. A new method was developed to permit the long-term culture of islets. Human islets were embedded in polysaccharide 3D-hydrogel in cell culture inserts or gas-permeable chambers with serum-free CMRL 1066 supplemented media for up to 8 weeks. The long-term cultured islets maintained better morphology, cell mass, and viability at 4 weeks than islets in conventional suspension culture. In fact, islets cultured in the 3D-hydrogel retained β cell mass and function on par with freshly isolated islets in vitro and, when transplanted into diabetic mice, restored glucose balance similar to fresh islets. Using gas-permeable chambers, the 3D-hydrogel culture method was scaled up over 10-fold and maintained islet viability and function, although the cell mass recovery rate was 50%. Additional optimization of scale-up methods continues. If successful, this technology could afford flexibility and expand access to islet transplantation, especially single-donor islet-after-kidney transplantation., Competing Interests: Declaration of competing interest The authors of this manuscript have conflicts of interest to disclose as described by the American Journal of Transplantation. K. Omori, M. Qi, and F. Kandeel are inventors on a provisional patent application related to methods of long-term islet culture., (Copyright © 2023 American Society of Transplantation & American Society of Transplant Surgeons. Published by Elsevier Inc. All rights reserved.)
Published: 2024
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18. Physiomimetic Fluidic Culture Platform on Microwell-Patterned Porous Collagen Scaffold for Human Pancreatic Islets.

Author: Kato H, Chen H, Shang KM, Izumi K, Koba N, Tsuchiya T, Kawazoe N, Quijano J, Omori K, Orr C, Qi M, Ku HT, Kandeel F, Tai YC, Chen G, and Komatsu H
Subjects: Humans, Porosity, Cell Culture Techniques methods, Cell Culture Techniques instrumentation, Islets of Langerhans Transplantation methods, Islets of Langerhans cytology, Islets of Langerhans metabolism, Tissue Scaffolds chemistry, Collagen
Abstract: Pancreatic islet transplantation is one of the clinical options for certain types of diabetes. However, difficulty in maintaining islets prior to transplantation limits the clinical expansion of islet transplantations. Our study introduces a dynamic culture platform developed specifically for primary human islets by mimicking the physiological microenvironment, including tissue fluidics and extracellular matrix support. We engineered the dynamic culture system by incorporating our distinctive microwell-patterned porous collagen scaffolds for loading isolated human islets, enabling vertical medium flow through the scaffolds. The dynamic culture system featured four 12 mm diameter islet culture chambers, each capable of accommodating 500 islet equivalents (IEQ) per chamber. This configuration calculates > five-fold higher seeding density than the conventional islet culture in flasks prior to the clinical transplantations (442 vs 86 IEQ/cm 2 ). We tested our culture platform with three separate batches of human islets isolated from deceased donors for an extended period of 2 weeks, exceeding the limits of conventional culture methods for preserving islet quality. Static cultures served as controls. The computational simulation revealed that the dynamic culture reduced the islet volume exposed to the lethal hypoxia (< 10 mmHg) to ~1/3 of the static culture. Dynamic culture ameliorated the morphological islet degradation in long-term culture and maintained islet viability, with reduced expressions of hypoxia markers. Furthermore, dynamic culture maintained the islet metabolism and insulin-secreting function over static culture in a long-term culture. Collectively, the physiological microenvironment-mimetic culture platform supported the viability and quality of isolated human islets at high-seeding density. Such a platform has a high potential for broad applications in cell therapies and tissue engineering, including extended islet culture prior to clinical islet transplantations and extended culture of stem cell-derived islets for maturation., Competing Interests: Declaration of Conflicting InterestsThe author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: This study was performed as a collaborative study between Tokai Hit and Arthur Riggs Diabetes & Metabolism Research Institute of City of Hope. KI, NK, and TT are the employees at Tokai Hit. The remaining authors declare no competing interests.
Published: 2024
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19. One-Step Automatic Radiosynthesis and Evaluation of [ 18 F]TM-30089 as GPR44 Radiotracer.

Author: Peng J, Tang W, Rawson J, Miao L, Gonzalez N, Yin R, Chen J, Ji M, Li Z, Gao A, Wu AZ, Shively JE, Kandeel F, and Li J
Abstract: Recently, a G-protein coupled receptor 44 (GPR44) was discovered to play a significant role in the process of inflammation-related diseases, including cancer and diabetes. However, the precise role of GPR44 has yet to be fully elucidated. Currently, there is a strong and urgent need for the development of GPR44 radiotracers as a non-invasive methodology to explore the exact mechanism of GPR44 on inflammation-related diseases and monitor the progress of therapy. TM-30089 is a potent GPR44 antagonist that exhibits a high specificity and selectivity for GPR44. Its structure contains a fluorine nuclide, which could potentially be replaced with 18 F. In the present study, we successfully took a highly effective synthesis strategy that pretreated the unprotected carboxylic acid group of the precursor and developed a feasible one-step automatic radiosynthesis strategy for [ 18 F]TM-30089 with a high radiochemical purity and a good radiochemical yield. We further evaluated this radiotracer using mice models implanted with 1.1 B4 cell lines (GPR44-enriched cell lines) and human islets (high GPR44 expression), respectively. The results revealed the persistent and specific uptake of [ 18 F]TM-30089 in GPR44 region, indicating that [ 18 F]TM-30089 is a promising candidate for targeting GPR44. Further evaluation is ongoing.
Published: 2023
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20. Indole-Based and Cyclopentenylindole-Based Analogues Containing Fluorine Group as Potential 18 F-Labeled Positron Emission Tomography (PET) G-Protein Coupled Receptor 44 (GPR44) Tracers.

Author: Yin R, Huang KX, Huang LA, Ji M, Zhao H, Li K, Gao A, Chen J, Li Z, Liu T, Shively JE, Kandeel F, and Li J
Abstract: Recently, growing evidence of the relationship between G-protein coupled receptor 44 (GPR44) and the inflammation-cancer system has garnered tremendous interest, while the exact role of GPR44 has not been fully elucidated. Currently, there is a strong and urgent need for the development of non-invasive in vivo GPR44 positron emission tomography (PET) radiotracers that can be used to aid the exploration of the relationship between inflammation and tumor biologic behavior. Accordingly, the choosing and radiolabeling of existing GPR44 antagonists containing a fluorine group could serve as a viable method to accelerate PET tracers development for in vivo imaging to this purpose. The present study aims to evaluate published (2000-present) indole-based and cyclopentenyl-indole-based analogues of the GPR44 antagonist to guide the development of fluorine-18 labeled PET tracers that can accurately detect inflammatory processes. The selected analogues contained a crucial fluorine nuclide and were characterized for various properties including binding affinity, selectivity, and pharmacokinetic and metabolic profile. Overall, 26 compounds with favorable to strong binding properties were identified. This review highlights the potential of GPR44 analogues for the development of PET tracers to study inflammation and cancer development and ultimately guide the development of targeted clinical therapies.
Published: 2023
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21. Design, Synthesis, Computational and Biological Evaluation of Novel Structure Fragments Based on Lithocholic Acid (LCA).

Author: Peng J, Fan M, Huang KX, Huang LA, Wang Y, Yin R, Zhao H, Xu S, Li H, Agua A, Xie J, Horne DA, Kandeel F, Huang W, and Li J
Subjects: Lithocholic Acid pharmacology, Bile Acids and Salts pharmacology
Abstract: The regulation of bile acid pathways has become a particularly promising therapeutic strategy for a variety of metabolic disorders, cancers, and diseases. However, the hydrophobicity of bile acids has been an obstacle to clinical efficacy due to off-target effects from rapid drug absorption. In this report, we explored a novel strategy to design new structure fragments based on lithocholic acid (LCA) with improved hydrophilicity by introducing a polar "oxygen atom" into the side chain of LCA, then (i) either retaining the carboxylic acid group or replacing the carboxylic acid group with (ii) a diol group or (iii) a vinyl group. These novel fragments were evaluated using luciferase-based reporter assays and the MTS assay. Compared to LCA, the result revealed that the two lead compounds 1a - 1b were well tolerated in vitro, maintaining similar potency and efficacy to LCA. The MTS assay results indicated that cell viability was not affected by dose dependence (under 25 µM). Additionally, computational model analysis demonstrated that compounds 1a - 1b formed more extensive hydrogen bond networks with Takeda G protein-coupled receptor 5 (TGR5) than LCA. This strategy displayed a potential approach to explore the development of novel endogenous bile acids fragments. Further evaluation on the biological activities of the two lead compounds is ongoing.
Published: 2023
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22. Changes in the gut microbiota of NOD mice in response to an oral Salmonella-based vaccine against type 1 diabetes.

Author: Cobb J, Soliman SSM, Retuerto M, Quijano JC, Orr C, Ghannoum M, Kandeel F, and Husseiny MI
Subjects: Animals, Mice, Mice, Inbred NOD, Insulin, Regular, Human, Salmonella, Diabetes Mellitus, Type 1 prevention & control, Gastrointestinal Microbiome
Abstract: We developed an oral Salmonella-based vaccine that prevents and reverses diabetes in non-obese diabetic (NOD) mice. Related to this, the gastrointestinal tract harbors a complex dynamic population of microorganisms, the gut microbiome, that influences host homeostasis and metabolism. Changes in the gut microbiome are associated with insulin dysfunction and type 1 diabetes (T1D). Oral administration of diabetic autoantigens as a vaccine can restore immune balance. However, it was not known if a Salmonella-based vaccine would impact the gut microbiome. We administered a Salmonella-based vaccine to prediabetic NOD mice. Changes in the gut microbiota and associated metabolome were assessed using next-generation sequencing and gas chromatography-mass spectrometry (GC-MS). The Salmonella-based vaccine did not cause significant changes in the gut microbiota composition immediately after vaccination although at 30 days post-vaccination changes were seen. Additionally, no changes were noted in the fecal mycobiome between vaccine- and control/vehicle-treated mice. Significant changes in metabolic pathways related to inflammation and proliferation were found after vaccine administration. The results from this study suggest that an oral Salmonella-based vaccine alters the gut microbiome and metabolome towards a more tolerant composition. These results support the use of orally administered Salmonella-based vaccines that induced tolerance after administration., Competing Interests: M.I.H. is an inventor on patent # 10206984 which describes methods for a Salmonella-based vaccine. The other authors declare that they have no conflicts of interests., (Copyright: © 2023 Cobb et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)
Published: 2023
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23. Thrombospondin-1, CD47, and SIRPα display cell-specific molecular signatures in human islets and pancreata.

Author: Erdem N, Chen KT, Qi M, Zhao Y, Wu X, Garcia I, Ku HT, Montero E, Al-Abdullah IH, Kandeel F, Roep BO, and Isenberg JS
Subjects: Humans, Macrophages metabolism, Receptors, Cell Surface metabolism, Thrombospondins metabolism, Thrombospondins therapeutic use, Thrombospondin 1 genetics, Thrombospondin 1 metabolism, CD47 Antigen genetics, CD47 Antigen metabolism, Neoplasms metabolism
Abstract: Thrombospondin-1 (TSP1) is a secreted protein minimally expressed in health but increased in disease and age. TSP1 binds to the cell membrane receptor CD47, which itself engages signal regulatory protein α (SIRPα), and the latter creates a checkpoint for immune activation. Individuals with cancer administered checkpoint-blocking molecules developed insulin-dependent diabetes. Relevant to this, CD47 blocking antibodies and SIRPα fusion proteins are in clinical trials. We characterized the molecular signature of TSP1, CD47, and SIRPα in human islets and pancreata. Fresh islets and pancreatic tissue from nondiabetic individuals were obtained. The expression of THBS1, CD47 , and SIRPA was determined using single-cell mRNA sequencing, immunofluorescence microscopy, Western blot, and flow cytometry. Islets were exposed to diabetes-affiliated inflammatory cytokines and changes in protein expression were determined. CD47 mRNA was expressed in all islet cell types. THBS1 mRNA was restricted primarily to endothelial and mesenchymal cells, whereas SIRPA mRNA was found mostly in macrophages. Immunofluorescence staining showed CD47 protein expressed by β cells and present in the exocrine pancreas. TSP1 and SIRPα proteins were not seen in islets or the exocrine pancreas. Western blot and flow cytometry confirmed immunofluorescent expression patterns. Importantly, human islets produced substantial quantities of secreted TSP1. Human pancreatic exocrine and endocrine tissue expressed CD47, whereas fresh islets displayed cell surface CD47 and secreted TSP1 at baseline and in inflammation. These findings suggest unexpected effects on islets from agents that intersect TSP1-CD47-SIRPα. NEW & NOTEWORTHY CD47 is a cell surface receptor with two primary ligands, soluble thrombospondin-1 (TSP1) and cell surface signal regulatory protein alpha (SIRPα). Both interactions provide checkpoints for immune cell activity. We determined that fresh human islets display CD47 and secrete TSP1. However, human islet endocrine cells lack SIRPα. These gene signatures are likely important given the increasing use of CD47 and SIRPα blocking molecules in individuals with cancer.
Published: 2023
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24. Methylcellulose colony assay and single-cell micro-manipulation reveal progenitor-like cells in adult human pancreatic ducts.

Author: Quijano JC, Wedeken L, Ortiz JA, Zook HN, LeBon JM, Luo A, Rawson J, Tremblay JR, Mares JM, Lopez K, Chen MH, Jou K, Mendez-Dorantes C, Al-Abdullah IH, Thurmond DC, Kandeel F, Riggs AD, and Ku HT
Subjects: Humans, Adult, Mice, Animals, Pancreas, Pancreatic Ducts, Stem Cells, Methylcellulose, Diabetes Mellitus, Experimental
Abstract: Progenitor cells capable of self-renewal and differentiation in the adult human pancreas are an under-explored resource for regenerative medicine. Using micro-manipulation and three-dimensional colony assays we identify cells within the adult human exocrine pancreas that resemble progenitor cells. Exocrine tissues were dissociated into single cells and plated into a colony assay containing methylcellulose and 5% Matrigel. A subpopulation of ductal cells formed colonies containing differentiated ductal, acinar, and endocrine lineage cells, and expanded up to 300-fold with a ROCK inhibitor. When transplanted into diabetic mice, colonies pre-treated with a NOTCH inhibitor gave rise to insulin-expressing cells. Both colonies and primary human ducts contained cells that simultaneously express progenitor transcription factors SOX9, NKX6.1, and PDX1. In addition, in silico analysis identified progenitor-like cells within ductal clusters in a single-cell RNA sequencing dataset. Therefore, progenitor-like cells capable of self-renewal and tri-lineage differentiation either pre-exist in the adult human exocrine pancreas, or readily adapt in culture., Competing Interests: Conflict of interests H.T.K. maintains a patent no. 9,783,784 titled “Methods for establishing and improving the survival of a population of pancreatic progenitor or stem cells.” The other authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)
Published: 2023
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25. Factors associated with favourable 5 year outcomes in islet transplant alone recipients with type 1 diabetes complicated by severe hypoglycaemia in the Collaborative Islet Transplant Registry.

Author: Hering BJ, Ballou CM, Bellin MD, Payne EH, Kandeel F, Witkowski P, Alejandro R, Rickels MR, and Barton FB
Subjects: Humans, Adult, Diabetes Mellitus, Type 1, Islets of Langerhans Transplantation adverse effects
Abstract: Aims/hypothesis: Islet transplantation has been studied in small cohorts of recipients with type 1 diabetes complicated by severe hypoglycaemic events (SHEs). We determined factors associated with favourable outcomes in a large cohort of recipients reported to the Collaborative Islet Transplant Registry (CITR)., Methods: In 398 non-uraemic islet transplant alone (ITA) recipients with type 1 diabetes and SHEs, transplanted between 1999 and 2015 and with at least 1 year follow-up, we analysed specified favourable outcomes against each of all available characteristics of pancreas donors, islet grafts, recipients and immunosuppressive regimens, as well as immunosuppression and procedure-related serious adverse events (SAEs)., Results: Four factors were associated with the highest rates of favourable outcomes: recipient age ≥35 years; total infused islets ≥325,000 islet equivalents; induction immunosuppression with T cell depletion and/or TNF-α inhibition; and maintenance with both mechanistic target of rapamycin (mTOR) and calcineurin inhibitors. At 5 years after the last islet infusion, of the recipients meeting these four common favourable factors (4CFF; N=126), 95% were free of SHEs, 76% had HbA 1c <53 mmol/mol (7.0%), 73% had HbA 1c <53 mmol/mol (7.0%) and absence of SHEs, and 53% were insulin independent, significantly higher rates than in the remaining recipients (<4CFF; N=272). The incidence of procedural and immunosuppression-related SAEs per recipient that resulted in sequelae, disability or death was low in both the 4CFF (0.056 per person) and <4CFF (0.074 per person) groups., Conclusions/interpretation: In recipients with type 1 diabetes complicated by SHEs, islet transplantation meeting 4CFF protected 95% from SHEs at 5 years after the last islet infusion and exerted a large and significant benefit on glycaemic control, with an acceptable safety profile for this subgroup of type 1 diabetes., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)
Published: 2023
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26. Ubiquitous Luciferase Expression in "Firefly Rats" Does Not Alter the Pancreatic Islet Morphology, Metabolism, and Function.

Author: Gonzalez N, Kato H, Tixi W, Ortiz J, Orr C, Shih HP, Ku HT, Yee JK, Kandeel F, Mullen Y, Kobayashi E, and Komatsu H
Subjects: Rats, Animals, Fireflies metabolism, Rats, Inbred Lew, Insulin metabolism, Glucose pharmacology, Glucose metabolism, Luciferases, Blood Glucose metabolism, Islets of Langerhans metabolism, Islets of Langerhans Transplantation
Abstract: "Firefly rats" ubiquitously express the luciferase reporter gene under the control of constitutively active ROSA26 promoter in inbred Lewis rats. Due to the minimal immunogenicity of luciferase, wide applications of Firefly rats have been reported in solid organ/cell transplantation studies for in vivo imaging, permitting quantitative and non-invasive tracking of the transplanted graft. ROSA26 is a non-coding gene and generally does not affect the expression of other endogenous genes. However, the effect of ubiquitous luciferase expression on islet morphology and function has not been thoroughly investigated, which is critical for the use of Firefly rats as islet donors in islet transplantation studies. Accordingly, in vivo glucose homeostasis (i.e., islet function in the native pancreas) was compared between age-matched luciferase-expressing Firefly rats and non-luciferase-expressing rats. In vivo assessments demonstrated no statistical difference between these rats in non-fasting blood glucose levels, intraperitoneal glucose tolerance tests, and glucose-stimulated serum C-peptide levels. Furthermore, islets were isolated from both rats to compare the morphology, function, and metabolism in vitro . Isolated islets from both rats exhibited similar in vitro characteristics in post-isolation islet yield, islet size, beta cell populations, insulin content per islet, oxygen consumption rate, and glucose-stimulated insulin secretion. In conclusion, ubiquitous luciferase expression in Firefly rats does not affect their islet morphology, metabolism, and function; this finding is critical and enables the use of isolated islets from Firefly rats for the dual assessment of islet graft function and bioluminescence imaging of islet grafts.
Published: 2023
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27. Micropyramid-patterned, oxygen-permeable bottomed dish for high density culture of pancreatic islets.

Author: Myrick RJ, Shang KM, Betts JF, Gonzalez N, Rawson J, Izumi K, Koba N, Tsuchiya T, Kato H, Omori K, Kandeel F, Mullen Y, Tai YC, Botvinick E, and Komatsu H
Subjects: Mice, Animals, Oxygen metabolism, Hypoxia metabolism, Diabetes Mellitus, Experimental metabolism, Islets of Langerhans, Islets of Langerhans Transplantation methods
Abstract: The need for maintaining cell-spheroid viability and function within high-density cultures is unmet for various clinical and experimental applications, including cell therapies. One immediate application is for transplantation of pancreatic islets, a clinically recognized treatment option to cure type 1 diabetes; islets are isolated from a donor for subsequent culture prior to transplantation. However, high seeding conditions cause unsolicited fusion of multiple spheroids, thereby limiting oxygen diffusion to induce hypoxic cell death. Here we introduce a culture dish incorporating a micropyramid-patterned surface to prevent the unsolicited fusion and oxygen-permeable bottom for optimal oxygen environment. A 400 µ m-thick, oxygen-permeable polydimethylsiloxane sheet topped with micropyramid pattern of 400 µ m-base and 200 µ m-height was fabricated to apply to the 24-well plate format. The micropyramid pattern separated the individual pancreatic islets to prevent the fusion of multiple islets. This platform supported the high oxygen demand of islets at high seeding density at 260 islet equivalents cm -2 , a 2-3-fold higher seeding density compared to the conventional islet culture used in a preparation for the clinical islet transplantations, demonstrating improved islet morphology, metabolism and function in a 4 d-culture. Transplantation of these islets into immunodeficient diabetic mice exhibited significantly improved engraftment to achieve euglycemia compared to islets cultured in the conventional culture wells. Collectively, this simple design modification allows for high-density cultures of three-dimensional cell spheroids to improve the viability and function for an array of investigational and clinical replacement tissues., (© 2022 IOP Publishing Ltd.)
Published: 2022
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28. Heart Uptake of [ 18 F]Fluoro-4-Thia-Oleate in a Non-Alcoholic Fatty Liver Disease Mouse Model.

Author: Li J, Hu W, Peng J, Wong P, Kandeel F, Olafsen T, and Shively JE
Abstract: The world-wide high incidence of non-alcoholic fatty liver disease (NAFLD) is of concern for its progression to insulin resistance, steatohepatitis and cardiovascular disease (CVD). The increased uptake of fatty acids in critical organs plays a major role in NAFLD progression. Male Ceacam1−/− mice that develop NAFLD, insulin resistance and CVD on normal chow are a potential model for studying the dysregulation of fatty acid uptake. [18F]fluoro-4-thia-oleate ([18F]FTO) was chosen as a fatty acid reporter because of its higher uptake and retention in the heart in an animal model of CVD. Male wild-type (WT) or Ceacam1−/− mice fasted 4−6 h were administered [18F]FTO i.v., and dynamic PET scans were conducted in an MR/PET small animal imaging system along with terminal tissue biodistributions. Quantitative heart image analysis revealed significantly higher uptake at 35 min in Ceacam1−/− (6.0 ± 1.0% ID/cc) vs. WT (3.9 ± 0.6% ID/cc) mice (p = 0.006). Ex vivo heart uptake/retention (% ID/organ) was 2.82 ± 0.45 for Ceacam1−/− mice vs. 1.66 ± 0.45 for WT mice (p < 0.01). Higher kidney and pancreas uptake/retention in Ceacam1−/− was also evident, and the excretion of [18F]FTO into the duodenum was observed for both WT and Ceacam1−/− mice starting at 10 min. This study suggests that the administration of [18F]FTO as a marker of fatty acid uptake and retention may be an important tool in analyzing the effect of NAFLD on lipid dysregulation in the heart.
Published: 2022
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29. Microwell culture platform maintains viability and mass of human pancreatic islets.

Author: Kato H, Miwa T, Quijano J, Medrano L, Ortiz J, Desantis A, Omori K, Wada A, Tatsukoshi K, Kandeel F, Mullen Y, Ku HT, and Komatsu H
Subjects: Humans, Insulin, Glycemic Control, Hypoxia, Oxygen Consumption, Islets of Langerhans
Abstract: Background: Transplantation of the human pancreatic islets is a promising approach for specific types of diabetes to improve glycemic control. Although effective, there are several issues that limit the clinical expansion of this treatment, including difficulty in maintaining the quality and quantity of isolated human islets prior to transplantation. During the culture, we frequently observe the multiple islets fusing together into large constructs, in which hypoxia-induced cell damage significantly reduces their viability and mass. In this study, we introduce the microwell platform optimized for the human islets to prevent unsolicited fusion, thus maintaining their viability and mass in long-term cultures., Method: Human islets are heterogeneous in size; therefore, two different-sized microwells were prepared in a 35 mm-dish format: 140 µm × 300 µm-microwells for <160 µm-islets and 200 µm × 370 µm-microwells for >160 µm-islets. Human islets (2,000 islet equivalent) were filtered through a 160 µm-mesh to prepare two size categories for subsequent two week-cultures in each microwell dish. Conventional flat-bottomed 35 mm-dishes were used for non-filtered islets (2,000 islet equivalent/2 dishes). Post-cultured islets are collected to combine in each condition (microwells and flat) for the comparisons in viability, islet mass, morphology, function and metabolism. Islets from three donors were independently tested., Results: The microwell platform prevented islet fusion during culture compared to conventional flat bottom dishes, which improved human islet viability and mass. Islet viability and mass on the microwells were well-maintained and comparable to those in pre-culture, while flat bottom dishes significantly reduced islet viability and mass in two weeks. Morphology assessed by histology, insulin-secreting function and metabolism by oxygen consumption did not exhibit the statistical significance among the three different conditions., Conclusion: Microwell-bottomed dishes maintained viability and mass of human islets for two weeks, which is significantly improved when compared to the conventional flat-bottomed dishes., Competing Interests: This study was performed as a collaborative study between AGC Techno Glass and Arthur Riggs Diabetes & Metabolism Research Institute of City of Hope. TM, AW, and KT are the employees at AGC Techno Glass. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Kato, Miwa, Quijano, Medrano, Ortiz, Desantis, Omori, Wada, Tatsukoshi, Kandeel, Mullen, Ku and Komatsu.)
Published: 2022
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30. Thyroid Carcinoma, Version 2.2022, NCCN Clinical Practice Guidelines in Oncology.

Author: Haddad RI, Bischoff L, Ball D, Bernet V, Blomain E, Busaidy NL, Campbell M, Dickson P, Duh QY, Ehya H, Goldner WS, Guo T, Haymart M, Holt S, Hunt JP, Iagaru A, Kandeel F, Lamonica DM, Mandel S, Markovina S, McIver B, Raeburn CD, Rezaee R, Ridge JA, Roth MY, Scheri RP, Shah JP, Sipos JA, Sippel R, Sturgeon C, Wang TN, Wirth LJ, Wong RJ, Yeh M, Cassara CJ, and Darlow S
Subjects: Carcinoma, Neuroendocrine, Humans, Iodine Radioisotopes therapeutic use, Adenocarcinoma drug therapy, Iodine therapeutic use, Thyroid Carcinoma, Anaplastic, Thyroid Neoplasms diagnosis, Thyroid Neoplasms pathology, Thyroid Neoplasms therapy
Abstract: Differentiated thyroid carcinomas is associated with an excellent prognosis. The treatment of choice for differentiated thyroid carcinoma is surgery, followed by radioactive iodine ablation (iodine-131) in select patients and thyroxine therapy in most patients. Surgery is also the main treatment for medullary thyroid carcinoma, and kinase inhibitors may be appropriate for select patients with recurrent or persistent disease that is not resectable. Anaplastic thyroid carcinoma is almost uniformly lethal, and iodine-131 imaging and radioactive iodine cannot be used. When systemic therapy is indicated, targeted therapy options are preferred. This article describes NCCN recommendations regarding management of medullary thyroid carcinoma and anaplastic thyroid carcinoma, and surgical management of differentiated thyroid carcinoma (papillary, follicular, Hürthle cell carcinoma).
Published: 2022
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31. Critical Considerations in Bioluminescence Imaging of Transplanted Islets: Dynamic Signal Change in Early Posttransplant Phase and Signal Absorption by Tissues.

Author: Komatsu H, Kobayashi E, Gonzalez N, Rawson J, Ortiz J, Donohue C, Ku HT, Kandeel F, and Mullen Y
Subjects: Animals, Diagnostic Imaging, Graft Survival, Humans, Luminescent Measurements methods, Mice, Rats, Rats, Inbred Lew, Islets of Langerhans diagnostic imaging, Islets of Langerhans Transplantation methods
Abstract: Objectives: In pancreatic islet transplantation studies, bioluminescence imaging enables quantitative and noninvasive tracking of graft survival. Amid the recent heightened interest in extrahepatic sites for islet and stem cell-derived beta-like cell transplantations, proper understanding the nature of bioluminescence imaging in these sites is important., Methods: Islets isolated from Firefly rats ubiquitously expressing luciferase reporter gene in Lewis rats were transplanted into subcutaneous or kidney capsule sites of wild-type Lewis rats or immunodeficient mice. Posttransplant changes of bioluminescence signal curves and absorption of bioluminescence signal in transplantation sites were examined., Results: The bioluminescence signal curve dynamically changed in the early posttransplantation phase; the signal was low within the first 5 days after transplantation. A substantial amount of bioluminescence signal was absorbed by tissues surrounding islet grafts, correlating to the depth of the transplanted site from the skin surface. Grafts in kidney capsules were harder to image than those in the subcutaneous site. Within the kidney capsule, locations that minimized depth from the skin surface improved the graft detectability., Conclusions: Posttransplant phase and graft location/depth critically impact the bioluminescence images captured in islet transplantation studies. Understanding these parameters is critical for reducing experimental biases and proper interpretation of data., Competing Interests: This study was supported by a grant from the Nora Eccles Treadwell Foundation (grant period: July 1, 2016–June 30, 2020; principal investigator: Y.M. [July 1, 2020–June 30, 2024]; principal investigator: H.K.). The authors declare no conflict of interest., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)
Published: 2022
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32. Islets Transplantation at a Crossroads - Need for Urgent Regulatory Update in the United States: Perspective Presented During the Scientific Sessions 2021 at the American Diabetes Association Congress.

Author: Witkowski P, Philipson LH, Buse JB, Robertson RP, Alejandro R, Bellin MD, Kandeel F, Baidal D, Gaglia JL, Posselt AM, Anteby R, Bachul PJ, Al-Salmay Y, Jayant K, Perez-Gutierrez A, Barth RN, Fung JJ, and Ricordi C
Subjects: Humans, Islets of Langerhans Transplantation standards, Organ Transplantation standards, Tissue and Organ Procurement standards, United States, United States Food and Drug Administration, Islets of Langerhans Transplantation legislation & jurisprudence, Organ Transplantation legislation & jurisprudence, Tissue and Organ Procurement legislation & jurisprudence
Abstract: Clinical islet allotransplantation has been successfully regulated as tissue/organ for transplantation in number of countries and is recognized as a safe and efficacious therapy for selected patients with type 1 diabetes mellitus. However, in the United States, the FDA considers pancreatic islets as a biologic drug, and islet transplantation has not yet shifted from the experimental to the clinical arena for last 20 years. In order to transplant islets, the FDA requires a valid Biological License Application (BLA) in place. The BLA process is costly and lengthy. However, despite the application of drug manufacturing technology and regulations, the final islet product sterility and potency cannot be confirmed, even when islets meet all the predetermined release criteria. Therefore, further regulation of islets as drugs is obsolete and will continue to hinder clinical application of islet transplantation in the US. The Organ Procurement and Transplantation Network together with the United Network for Organ Sharing have developed separately from the FDA and BLA regulatory framework for human organs under the Human Resources & Services Administration to assure safety and efficacy of transplantation. Based on similar biologic characteristics of islets and human organs, we propose inclusion of islets into the existing regulatory framework for organs for transplantation, along with continued FDA oversight for islet processing, as it is for other cell/tissue products exempt from BLA. This approach would reassure islet quality, efficacy and access for Americans with diabetes to this effective procedure., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Witkowski, Philipson, Buse, Robertson, Alejandro, Bellin, Kandeel, Baidal, Gaglia, Posselt, Anteby, Bachul, Al-Salmay, Jayant, Perez-Gutierrez, Barth, Fung and Ricordi.)
Published: 2022
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33. Chronic marijuana usage by human pancreas donors is associated with impaired islet function.

Author: Qi M, Kaddis JS, Chen KT, Rawson J, Omori K, Chen ZB, Dhawan S, Isenberg JS, Kandeel F, Roep BO, and Al-Abdullah IH
Subjects: Humans, Male, Animals, Female, Mice, Adult, Islets of Langerhans Transplantation, Receptor, Cannabinoid, CB1 metabolism, Insulin Secretion drug effects, Middle Aged, Tissue Donors, Diabetes Mellitus, Experimental metabolism, Glucose metabolism, Pancreas metabolism, Pancreas drug effects, Pancreas pathology, Marijuana Use metabolism, Marijuana Use adverse effects, Islets of Langerhans metabolism, Islets of Langerhans drug effects, Insulin metabolism
Abstract: We investigated the effect of chronic marijuana use, defined as 4 times weekly for more than 3 years, on human pancreatic islets. Pancreata from deceased donors who chronically used marijuana were compared to those from age, sex and ethnicity matched non-users. The islets from marijuana-users displayed reduced insulin secretion as compared to islets from non-users upon stimulation with high glucose (AUC, 3.41 ± 0.62 versus 5.14 ±0.47, p<0.05) and high glucose plus KCl (AUC, 4.48 ± 0.41 versus 7.69 ± 0.58, p<0.001). When human islets from chronic marijuana-users were transplanted into diabetic mice, the mean reversal rate of diabetes was 35% versus 77% in animals receiving islets from non-users (p<0.01). Immunofluorescent staining for cannabinoid receptor type 1 (CB1R) was shown to be colocalized with insulin and enhanced significantly in beta cells from marijuana-users vs. non-users (CB1R intensity/islet area, 14.95 ± 2.71 vs. 3.23 ± 0.87, p<0.001). In contrast, CB1R expression was not co-localized with glucagon or somatostatin. Furthermore, isolated islets from chronic marijuana-users appeared hypertrophic. In conclusion, excessive marijuana use affects islet endocrine phenotype and function in vitro and in vivo. Given the increasing use of marijuana, our results underline the importance of including lifestyle when evaluating human islets for transplantation or research., Competing Interests: The authors have declared that no competing interests exist.
Published: 2021
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34. Cryo-EM structures of hIAPP fibrils seeded by patient-extracted fibrils reveal new polymorphs and conserved fibril cores.

Author: Cao Q, Boyer DR, Sawaya MR, Abskharon R, Saelices L, Nguyen BA, Lu J, Murray KA, Kandeel F, and Eisenberg DS
Subjects: Amino Acid Sequence, Amyloid isolation & purification, Congo Red, Diabetes Mellitus, Type 2 metabolism, Genotype, Humans, Islet Amyloid Polypeptide genetics, Islets of Langerhans chemistry, Models, Molecular, Polymerase Chain Reaction, Protein Aggregates, Protein Conformation, Recombinant Proteins chemistry, Sequence Analysis, DNA, Staining and Labeling, Amyloid chemistry, Cryoelectron Microscopy, Islet Amyloid Polypeptide chemistry
Abstract: Amyloidosis of human islet amyloid polypeptide (hIAPP) is a pathological hallmark of type II diabetes (T2D), an epidemic afflicting nearly 10% of the world's population. To visualize disease-relevant hIAPP fibrils, we extracted amyloid fibrils from islet cells of a T2D donor and amplified their quantity by seeding synthetic hIAPP. Cryo-EM studies revealed four fibril polymorphic atomic structures. Their resemblance to four unseeded hIAPP fibrils varies from nearly identical (TW3) to non-existent (TW2). The diverse repertoire of hIAPP polymorphs appears to arise from three distinct protofilament cores entwined in different combinations. The structural distinctiveness of TW1, TW2 and TW4 suggests they may be faithful replications of the pathogenic seeds. If so, the structures determined here provide the most direct view yet of hIAPP amyloid fibrils formed during T2D., (© 2021. The Author(s), under exclusive licence to Springer Nature America, Inc.)
Published: 2021
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35. Neuroendocrine and Adrenal Tumors, Version 2.2021, NCCN Clinical Practice Guidelines in Oncology.

Author: Shah MH, Goldner WS, Benson AB, Bergsland E, Blaszkowsky LS, Brock P, Chan J, Das S, Dickson PV, Fanta P, Giordano T, Halfdanarson TR, Halperin D, He J, Heaney A, Heslin MJ, Kandeel F, Kardan A, Khan SA, Kuvshinoff BW, Lieu C, Miller K, Pillarisetty VG, Reidy D, Salgado SA, Shaheen S, Soares HP, Soulen MC, Strosberg JR, Sussman CR, Trikalinos NA, Uboha NA, Vijayvergia N, Wong T, Lynn B, and Hochstetler C
Subjects: Humans, Medical Oncology, Adrenal Gland Neoplasms diagnosis, Adrenal Gland Neoplasms genetics, Adrenal Gland Neoplasms therapy, Neuroendocrine Tumors diagnosis, Neuroendocrine Tumors genetics, Neuroendocrine Tumors therapy
Abstract: The NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines) for Neuroendocrine and Adrenal Gland Tumors focus on the diagnosis, treatment, and management of patients with neuroendocrine tumors (NETs), adrenal tumors, pheochromocytomas, paragangliomas, and multiple endocrine neoplasia. NETs are generally subclassified by site of origin, stage, and histologic characteristics. Appropriate diagnosis and treatment of NETs often involves collaboration between specialists in multiple disciplines, using specific biochemical, radiologic, and surgical methods. Specialists include pathologists, endocrinologists, radiologists (including nuclear medicine specialists), and medical, radiation, and surgical oncologists. These guidelines discuss the diagnosis and management of both sporadic and hereditary neuroendocrine and adrenal tumors and are intended to assist with clinical decision-making. This article is focused on the 2021 NCCN Guidelines principles of genetic risk assessment and counseling and recommendations for well-differentiated grade 3 NETs, poorly differentiated neuroendocrine carcinomas, adrenal tumors, pheochromocytomas, and paragangliomas.
Published: 2021
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36. Arguments against the Requirement of a Biological License Application for Human Pancreatic Islets: The Position Statement of the Islets for US Collaborative Presented during the FDA Advisory Committee Meeting.

Author: Witkowski P, Odorico J, Pyda J, Anteby R, Stratta RJ, Schrope BA, Hardy MA, Buse J, Leventhal JR, Cui W, Hussein S, Niederhaus S, Gaglia J, Desai CS, Wijkstrom M, Kandeel F, Bachul PJ, Becker YT, Wang LJ, Robertson RP, Olaitan OK, Kozlowski T, Abrams PL, Josephson MA, Andreoni KA, Harland RC, Kandaswamy R, Posselt AM, Szot GL, Ricordi C, and On Behalf Of The Islets For Us Collaborative
Abstract: The Food and Drug Administration (FDA) has been regulating human islets for allotransplantation as a biologic drug in the US. Consequently, the requirement of a biological license application (BLA) approval before clinical use of islet transplantation as a standard of care procedure has stalled the development of the field for the last 20 years. Herein, we provide our commentary to the multiple FDA's position papers and guidance for industry arguing that BLA requirement has been inappropriately applied to allogeneic islets, which was delivered to the FDA Cellular, Tissue and Gene Therapies Advisory Committee on 15 April 2021. We provided evidence that BLA requirement and drug related regulations are inadequate in reassuring islet product quality and potency as well as patient safety and clinical outcomes. As leaders in the field of transplantation and endocrinology under the "Islets for US Collaborative" designation, we examined the current regulatory status of islet transplantation in the US and identified several anticipated negative consequences of the BLA approval. In our commentary we also offer an alternative pathway for islet transplantation under the regulatory framework for organ transplantation, which would address deficiencies of in current system.
Published: 2021
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37. Oral Salmonella msbB Mutant as a Carrier for a Salmonella -Based Vaccine for Prevention and Reversal of Type 1 Diabetes.

Author: Cobb J, Rawson J, Gonzalez N, Hensel M, Kandeel F, and Husseiny MI
Subjects: Administration, Oral, Animals, Antibodies, Monoclonal administration & dosage, Biomarkers blood, CD3 Complex antagonists & inhibitors, CD3 Complex immunology, Diabetes Mellitus, Type 1 blood, Diabetes Mellitus, Type 1 immunology, Disease Models, Animal, Female, Insulin administration & dosage, Insulin genetics, Interleukin-10 administration & dosage, Interleukin-10 genetics, Mice, Mice, Inbred NOD, Protein Precursors administration & dosage, Protein Precursors genetics, RAW 264.7 Cells, Salmonella immunology, Salmonella pathogenicity, Transforming Growth Factor beta1 administration & dosage, Transforming Growth Factor beta1 genetics, Vaccines, Attenuated administration & dosage, Vaccines, DNA genetics, Vaccines, DNA immunology, Acyltransferases genetics, Bacterial Proteins genetics, Blood Glucose metabolism, Diabetes Mellitus, Type 1 prevention & control, Genetic Vectors, Mutation, Salmonella genetics, Vaccines, DNA administration & dosage
Abstract: A therapy that includes an oral vaccine for type 1 diabetes (T1D) using live attenuated Salmonella MvP728 (Δ htrA/ Δ purD ), cytokines (IL10 and TGFβ) and preproinsulin (PPI) antigen in combination with a sub-therapeutic dose of anti-CD3 mAb was developed by our team. The vaccine combination therapy reduced insulitis and prevented and reversed diabetes in non-obese diabetic (NOD) mice. Here, we show the effectiveness of an alternative Salmonella mutant (Δ msbB ) as a carrier strain, which is anticipated to have lower risks of an inflammatory response and septicemia as a result of modification in the lipopolysaccharide (LPS) via detoxification of lipid A. This mutant strain proved to have highly reduced pathogenic side effects. Salmonella strain Δ msbB expressed autoantigens and in combination with cytokines and anti-CD3 mAb, successfully prevented and reversed T1D to levels comparable to the previously used carrier strain Δ htrA/ Δ purD . Additionally, the Salmonella msbB mutant resulted in higher rates of host cell infection. These results further demonstrate the potential of an oral Salmonella -based combined therapy in the treatment of early T1D., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Cobb, Rawson, Gonzalez, Hensel, Kandeel and Husseiny.)
Published: 2021
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38. The demise of islet allotransplantation in the United States: A call for an urgent regulatory update.

Author: Witkowski P, Philipson LH, Kaufman DB, Ratner LE, Abouljoud MS, Bellin MD, Buse JB, Kandeel F, Stock PG, Mulligan DC, Markmann JF, Kozlowski T, Andreoni KA, Alejandro R, Baidal DA, Hardy MA, Wickrema A, Mirmira RG, Fung J, Becker YT, Josephson MA, Bachul PJ, Pyda JS, Charlton M, Millis JM, Gaglia JL, Stratta RJ, Fridell JA, Niederhaus SV, Forbes RC, Jayant K, Robertson RP, Odorico JS, Levy MF, Harland RC, Abrams PL, Olaitan OK, Kandaswamy R, Wellen JR, Japour AJ, Desai CS, Naziruddin B, Balamurugan AN, Barth RN, and Ricordi C
Subjects: Costs and Cost Analysis, Humans, Transplantation, Heterologous, United States, Biological Products, Diabetes Mellitus, Type 1 surgery, Islets of Langerhans Transplantation
Abstract: Islet allotransplantation in the United States (US) is facing an imminent demise. Despite nearly three decades of progress in the field, an archaic regulatory framework has stymied US clinical practice. Current regulations do not reflect the state-of-the-art in clinical or technical practices. In the US, islets are considered biologic drugs and "more than minimally manipulated" human cell and tissue products (HCT/Ps). In contrast, across the world, human islets are appropriately defined as "minimally manipulated tissue" and not regulated as a drug, which has led to islet allotransplantation (allo-ITx) becoming a standard-of-care procedure for selected patients with type 1 diabetes mellitus. This regulatory distinction impedes patient access to islets for transplantation in the US. As a result only 11 patients underwent allo-ITx in the US between 2016 and 2019, and all as investigational procedures in the settings of a clinical trials. Herein, we describe the current regulations pertaining to islet transplantation in the United States. We explore the progress which has been made in the field and demonstrate why the regulatory framework must be updated to both better reflect our current clinical practice and to deal with upcoming challenges. We propose specific updates to current regulations which are required for the renaissance of ethical, safe, effective, and affordable allo-ITx in the United States., (© 2020 The American Society of Transplantation and the American Society of Transplant Surgeons.)
Published: 2021
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39. Early-Phase Luciferase Signals of Islet Grafts Predicts Successful Subcutaneous Site Transplantation in Rats.

Author: Komatsu H, Gonzalez N, Ortiz J, Rawson J, Omori K, Kandeel F, and Mullen Y
Subjects: Animals, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Experimental pathology, Diabetes Mellitus, Type 1 metabolism, Diabetes Mellitus, Type 1 pathology, Disease Models, Animal, Luminescent Measurements methods, Male, Rats, Rats, Inbred Lew, Retrospective Studies, Diabetes Mellitus, Experimental therapy, Diabetes Mellitus, Type 1 therapy, Glucose metabolism, Graft Survival physiology, Islets of Langerhans Transplantation methods, Luciferases metabolism, Subcutaneous Tissue transplantation
Abstract: Purpose: The transplantation of pancreatic islets is a promising cell replacement therapy for type 1 diabetes. Subcutaneous islet transplantation is currently under investigation as a means to circumvent problems associated with standard intra-hepatic islet transplantation. As modifications are being developed to improve the efficacy of subcutaneous islet transplantation, it is important to have robust methods to assess engraftment. Experimentally, ATP-dependent bioluminescence imaging using luciferase reporter genes has been effective for non-invasively tracking engraftment. However, it was heretofore unknown if the bioluminescence of subcutaneously transplanted luciferase-expressing islet grafts correlates with diabetes reversal, a primary outcome of transplantation., Procedures: A retrospective analysis was conducted using data obtained from subcutaneous islet transplantations in Lewis rats. The analysis included transplantations from our laboratory in which islet donors were transgenic rats ubiquitously expressing luciferase and recipients were wild type, streptozotocin-induced diabetic rats. Data from 79 bioluminescence scans were obtained from 27 islet transplantations during the post-transplant observation period (up to 6 weeks). The bioluminescence intensity of the subcutaneously transplanted grafts, captured after the intravenous administration of luciferin, was correlated with diabetes reversal., Results: After subcutaneous transplantation, islet bioluminescence decreased over time, dropping > 50 % from 1 to 3 weeks post-transplant. Bioluminescence intensity in the early post-transplant phase (1-2 weeks) correlated with the subsequent reversal of diabetes; based on optimized bioluminescence cutoff values, the bioluminescence intensity of islets at 1 and 2 weeks predicted successful transplantations. However, intensity in the late post-transplant phase (≥ 4 weeks) did not reflect transplantation outcomes., Conclusions: Early-phase bioluminescence imaging of luciferase-expressing islets could serve as a useful tool to predict the success of subcutaneous islet transplantations by preceding changes in glucose homeostasis.
Published: 2021
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40. Ramatroban-Based Analogues Containing Fluorine Group as Potential 18 F-Labeled Positron Emission Tomography (PET) G-Protein Coupled Receptor 44 (GPR44) Tracers.

Author: Huang LA, Huang KX, Tu J, Kandeel F, and Li J
Subjects: Humans, Insulin-Secreting Cells chemistry, Insulin-Secreting Cells cytology, Platelet Aggregation Inhibitors chemistry, Carbazoles chemistry, Fluorine Radioisotopes metabolism, Insulin-Secreting Cells metabolism, Positron-Emission Tomography methods, Radioactive Tracers, Radiopharmaceuticals metabolism, Receptors, Immunologic metabolism, Receptors, Prostaglandin metabolism, Sulfonamides chemistry
Abstract: Diabetes remains one of the fastest growing chronic diseases and is a leading source of morbidity and accelerated mortality in the world. Loss of beta cell mass (BCM) and decreased sensitivity to insulin underlie diabetes pathogenesis. Yet, the ability to safely and directly assess BCM in individuals with diabetes does not exist. Measures such as blood glucose provide only a crude indirect picture of beta cell health. PET imaging could, in theory, allow for safe, direct, and precise characterization of BCM. However, identification of beta cell-specific radiolabeled tracers remains elusive. G-protein coupled receptor 44 (GPR44) is a transmembrane protein that was characterized in 2012 as highly beta cell-specific within the insulin-positive islets of Langerhans. Accordingly, radiolabeling of existing GPR44 antagonists could be a viable method to accelerate PET tracer development. The present study aims to evaluate and summarize published analogues of the GPR44 antagonist ramatroban to develop 18 F-labeled PET tracers for BCM analysis. The 77 corresponding ramatroban analogues containing a fluorine nuclide were characterized for properties including binding affinity, selectivity, and pharmacokinetic and metabolic profile, and 32 compounds with favorable properties were identified. This review illustrates the potential of GPR44 analogues for the development of PET tracers.
Published: 2021
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41. A Multiparametric Assessment of Human Islets Predicts Transplant Outcomes in Diabetic Mice.

Author: Komatsu H, Qi M, Gonzalez N, Salgado M, Medrano L, Rawson J, Orr C, Omori K, Isenberg JS, Kandeel F, Mullen Y, and Al-Abdullah IH
Subjects: Animals, Humans, Mice, Mice, SCID, Retrospective Studies, Treatment Outcome, Diabetes Mellitus, Experimental physiopathology, Diabetes Mellitus, Type 1 physiopathology, Islets of Langerhans Transplantation methods
Abstract: Prior to transplantation into individuals with type 1 diabetes, in vitro assays are used to evaluate the quality, function and survival of isolated human islets. In addition to the assessments of these parameters in islet, they can be evaluated by multiparametric morphological scoring (0-10 points) and grading (A, B, C, D, and F) based on islet characteristics (shape, border, integrity, single cells, and diameter). However, correlation between the multiparametric assessment and transplantation outcome has not been fully elucidated. In this study, 55 human islet isolations were scored using this multiparametric assessment. The results were correlated with outcomes after transplantation into immunodeficient diabetic mice. In addition, the multiparametric assessment was compared with oxygen consumption rate of isolated islets as a potential prediction factor for successful transplantations. All islet batches were assessed and found to score: 9 points ( n = 18, Grade A), 8 points ( n = 19, Grade B), and 7 points ( n = 18, Grade B). Islets that scored 9 (Grade A), scored 8 (Grade B) and scored 7 (Grade B) were transplanted into NOD/SCID mice and reversed diabetes in 81.2%, 59.4%, and 33.3% of animals, respectively ( P < 0.0001). Islet scoring and grading correlated well with glycemic control post-transplantation ( P < 0.0001) and reversal rate of diabetes ( P < 0.05). Notably, islet scoring and grading showed stronger correlation with transplantation outcome compared to oxygen consumption rate. Taken together, a multiparametric assessment of isolated human islets was highly predictive of transplantation outcome in diabetic mice.
Published: 2021
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42. Towards a Rational Balanced Pancreatic and Islet Allocation Schema.

Author: Kandeel F, El-Shahawy M, Singh G, Dafoe DC, Isenberg JS, and Riggs AD
Subjects: Humans, Middle Aged, Islets of Langerhans Transplantation methods, Pancreas Transplantation methods
Abstract: Allocation of donated organs for transplantation is a complex process that considers numerous factors such as donor, organ and candidate characteristics and practical issues such as geography. Whole pancreas and isolated islet transplantation are lifesaving for certain individuals with diabetes. Herein, we suggest a revised allocation schema that matches donor characteristics with candidate medical condition while allowing for geographic considerations. It is hoped that adoption of this schema will shorten allocation time, decrease organ waste and optimize the parity between organ donor characteristics and candidate state of health.
Published: 2021
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43. Intermittent normobaric oxygen inhalation enhances subcutaneous prevascularization for cell transplantation.

Author: Komatsu H, Gonzalez N, Kandeel F, and Mullen Y
Subjects: Administration, Inhalation, Animals, Drug Administration Schedule, Rats, Inbred Lew, Time Factors, Graft Survival, Islets of Langerhans Transplantation, Neovascularization, Physiologic, Oxygen administration & dosage, Subcutaneous Tissue blood supply, Transplantation Conditioning methods
Abstract: Purpose: Subcutaneous tissue is a promising site for cell transplantation; advantages include minimally invasive procedures and easy post-transplant monitoring. However, limited vascularity is the major known challenge. To address this challenge, a prevascularized graft bed is prepared in recipients. We aimed to establish an improved, clinically applicable approach to promote prevascularization of the subcutaneous graft bed prior to cell transplantation., Methods: We applied a conventional prevascularization approach by subcutaneously implanting nylon discs into the backs of Lewis rats. After disc implantation, we treated rats with or without intermittent normobaric 100% oxygen inhalation (1 h, twice a day, for consecutive 7 days). We used histology to compare vascular density between the oxygen-treated or control groups. To assess the functional effects of prevascularization, we transplanted three hundred islets isolated from luciferase-transgenic Lewis rats into the oxygen-treated or control wild type Lewis recipients, then used bioluminescence imaging to track engraftment for 4 weeks., Results: Oxygen treatment significantly augmented prevascularization in the subcutaneous site compared to controls. Islet transplantation into prevascularized graft beds demonstrated significant improvement in engraftment efficiency in oxygen-treated recipients compared to controls at 2-4 weeks post-transplantation., Conclusion: Combining intermittent normobaric 100% oxygen inhalation with a conventional vascularization approach promotes a functional vasculature within a week. A simple approach using normobaric oxygen has the potential for translation into clinical application in subcutaneous site cell transplantations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)
Published: 2020
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44. A subcutaneous pancreatic islet transplantation platform using a clinically applicable, biodegradable Vicryl mesh scaffold - an experimental study.

Author: Komatsu H, Gonzalez N, Salgado M, Cook CA, Li J, Rawson J, Omori K, Tai YC, Kandeel F, and Mullen Y
Subjects: Animals, Blood Glucose, Graft Survival, Polyglactin 910, Rats, Surgical Mesh, Diabetes Mellitus, Experimental surgery, Islets of Langerhans, Islets of Langerhans Transplantation
Abstract: Pancreatic islet transplantation into the liver is an effective treatment for type 1 diabetes but has some critical limitations. The subcutaneous site is a potential alternative transplant site, requiring minimally invasive procedures and allowing frequent graft monitoring; however, hypoxia is a major drawback. Our previous study without scaffolding demonstrated post-transplant graft aggregation in the subcutaneous site, which theoretically exacerbates lethal intra-graft hypoxia. In this study, we introduce a clinically applicable subcutaneous islet transplantation platform using a biodegradable Vicryl mesh scaffold to prevent aggregation in a diabetic rat model. Islets were sandwiched between layers of clinically proven Vicryl mesh within thrombin-fibrin gel. In vitro, the mesh prevented islet aggregation and intra-islet hypoxia, which significantly improved islet viability. In vivo rat syngeneic islet transplantations into a prevascularized subcutaneous pocket demonstrated that the mesh significantly enhanced engraftment, as measured by assays for graft survival and function. Histological examination at 6 weeks showed well-vascularized grafts sandwiched in a flat shape between the mesh layers. The biodegradable mesh was fully absorbed by three months, which alleviated chronic foreign body reaction and fibrosis, and supported long-term graft maintenance. This simple graft shape modification approach is an effective and clinically applicable strategy for improved subcutaneous islet transplantation., (© 2020 Steunstichting ESOT. Published by John Wiley & Sons Ltd.)
Published: 2020
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45. A Feasible Method for Quantifying Living Pancreatic Human Islets in Murine Livers Posttransplantation by Confocal Laser Scanning Microscopy.

Author: Sui F, Tang W, Karunananthan J, Qi C, Li J, He N, Kandeel F, and Li J
Subjects: Animals, C-Peptide analysis, C-Peptide metabolism, Feasibility Studies, Graft Rejection etiology, Graft Survival, Humans, Insulin metabolism, Islets of Langerhans metabolism, Male, Mice, Models, Animal, Transplantation, Heterologous, Graft Rejection diagnosis, Intravital Microscopy methods, Islets of Langerhans diagnostic imaging, Islets of Langerhans Transplantation adverse effects, Microscopy, Confocal methods
Abstract: Background: Current histological methods cannot accurately determine the survival rate of human pancreatic islets following portal vein infusion. This is due, in part, to the low number of infused islets relative to the whole liver. In this study, we assessed the ability of confocal laser scanning microscopy (CLSM) to track human islets posttransplantation., Methods: Immunodeficient mice were transplanted with human islets. Following engraftment, animals were euthanized, livers procured, and human islet β cells immunofluorescently labeled with an insulin-specific antibody and evaluated by CLSM. A calibration curve comparing the area of insulin + hepatic islet β cells to the number of human islets collected was developed. Levels of human C-peptide were measured in transplant recipients to determine islet function., Results: The short-term survival rate of islet transplants was defined as y = 0.0422x + 2.7008, in which x is human islet number and y is liver islet β cell area. Employing CLSM, human islets were detected in immunofluorescent labeled murine liver tissue sections posttransplantation. The β cell-relative area of human islets in 500 islet equivalent (IEQ) specimens was 20.21 ± 1.16 mm and in 1000 IEQ specimens 39.4 ± 2.23 mm posttransplantation. Human islet posttransplant survival rates were 82.9 ± 5.50% (500 IEQ group) and 86.9 ± 5.28% (1000 IEQ group)., Conclusions: These data indicate that CLSM can be employed to quantify and characterize pancreatic human islets after transplantation to murine livers.
Published: 2020
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46. High Fractions of Large Islets in Human Islet Preparations Detrimentally Affect Posttransplant Outcomes in Streptozotocin-Induced Diabetic Immunodeficient Mice.

Author: Komatsu H, Salgado M, Gonzalez N, Medrano L, Rawson J, Omori K, Qi M, Al-Abdullah I, Kandeel F, and Mullen Y
Subjects: Animals, Humans, Mice, Inbred NOD, Mice, SCID, Outcome Assessment, Health Care, Retrospective Studies, Transplantation, Heterologous, Diabetes Mellitus, Experimental surgery, Graft Survival physiology, Islets of Langerhans physiology, Islets of Langerhans Transplantation methods
Abstract: Objectives: The aim of this study was to determine whether the size of islets isolated from human donors-measured pretransplant-impacts transplantation outcomes in diabetic mice., Methods: Human islets (1200 islet equivalents) were transplanted into the kidney capsules of streptozotocin-induced diabetic immunodeficient mice. Data from a total of 174 mice that received islets from 45 isolations were analyzed to evaluate the correlation between pretransplant islet size and posttransplant diabetes reversal. Fluorescent images of islet clusters were used to categorize individual islets by size (small, 50-150 μm; medium, 150-250 μm; large, >250 μm), and the fractions of islets in each category were calculated., Results: The fraction of large islets negatively correlated with diabetes reversal rates. Mice that received islet grafts containing 0% to 5%, 5% to 10%, and more than 10% large islets had diabetes reversal rates of 75%, 61%, and 45%, respectively (P = 0.0112). Furthermore, mice that exhibited diabetes reversal received smaller fractions of large islets than mice that did not (5.5% vs 8.0%, P = 0.0003). Intriguingly, the fractions of medium and small islets did not correlate with diabetes reversal outcomes., Conclusions: The fraction of large islets is a sensitive predictor of human islet transplantation outcomes in diabetic mice.
Published: 2020
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47. Synthesis and evaluation of 18 F-PTTCO-Cys 40 -Exendin-4 for PET imaging of ectopic insulinomas in rodents.

Author: Li J, Peng J, Tang W, Rawson J, Karunananthan J, Jung M, Ma Y, Shively JE, and Kandeel F
Subjects: Animals, Cell Line, Tumor, Contrast Media chemical synthesis, Dose-Response Relationship, Drug, Fluorine Radioisotopes, Mice, Mice, Inbred NOD, Mice, SCID, Molecular Structure, Neoplasms, Experimental diagnostic imaging, Rats, Structure-Activity Relationship, Contrast Media chemistry, Insulinoma diagnostic imaging, Pancreatic Neoplasms diagnostic imaging, Positron-Emission Tomography
Abstract: A major limitation in the development of radiolabeled Exendin-4 analogues (short half-life isotopes) is an inability to efficiently and rapidly separate final products from precursors. This is important as lack of purity in the final product decreases probe efficiency. The purpose of this study was to develop a method to prepare the high-purity imaging reagent [ 18 F] PTTCO-Cys 40 -Exendin-4. To accomplish this, magnetic TCO-beads were incubated with the crude product to remove unlabeled Exendin-4. In rodents pre-treatment with purified [ 18 F] PTTCO-Cys 40 -Exendin-4 (~1.85 MBq) allowed precise microPET imaging of ectopic insulinomas. Moreover, analogue uptake was successfully blocked by administering non-labelled "cold" Exendin-4. Biodistribution data revealed that [ 18 F] PTTCO-Cys 40 -Exendin-4 accumulated specifically in GLP-1R-enriched insulinomas in mice, confirming results obtained using miroPET. Investigation of [ 18 F] PTTCO-Cys 40 -Exendin-4 as a tracer to image portal vein-transplanted pancreatic islets is proceeding in animals., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)
Published: 2020
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48. Tracking of an Oral Salmonella -Based Vaccine for Type 1 Diabetes in Non-obese Diabetic Mice.

Author: Mbongue JC, Alhoshani A, Rawson J, Garcia PA, Gonzalez N, Ferreri K, Kandeel F, and Husseiny MI
Subjects: Administration, Oral, Animals, Autoantigens immunology, CD4-Positive T-Lymphocytes immunology, Dendritic Cells immunology, Dendritic Cells metabolism, Female, Luminescent Proteins genetics, Luminescent Proteins metabolism, Lymphocyte Activation, Mice, Mice, Inbred NOD, Plasmids genetics, RAW 264.7 Cells, Salmonella Infections microbiology, Red Fluorescent Protein, Diabetes Mellitus, Type 1 immunology, Diabetes Mellitus, Type 1 prevention & control, Salmonella Infections prevention & control, Salmonella Vaccines administration & dosage, Salmonella Vaccines metabolism, Salmonella typhimurium immunology, Vaccination methods, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated metabolism
Abstract: Type 1 diabetes (T1D) arises secondary to immune-driven destruction of pancreatic β-cells and manifests as insulin-deficient hyperglycemia. We showed that oral vaccination with live attenuated Salmonella , which simultaneously delivers autoantigens and a TGFβ expression vector to immune cells in the gut mucosa, provides protection against the progression of T1D in non-obese diabetic (NOD) mice. In this study we employed the Sleeping Beauty (SB) transposon system that is composed of a transposase and transposon encoding the td-Tomato to express red fluorescent protein (RFP) to permanently mark the cells that take up the Salmonella vaccine. After animal vaccination, the transposon labeled-dendritic cells (DCs) with red fluorescence appeared throughout the secondary lymphoid tissues. Furthermore, Sleeping Beauty containing tgf β 1 gene (SB-tgfβ1) co-expressed TGFβ and RFP. The labeled DCs were detected predominantly in Peyer's patches (PP) and mesenteric lymph nodes (MLN) and expressed CD103 surface marker. CD103 + DCs induced tolerogenic effects and gut homing. TGFβ significantly increased programmed death-ligand-1 (PDL-1 or CD274) expression in the DCs in the MLN and PP of treated mice. Also, TGFβ increased cytotoxic T-lymphocyte-associated protein-4 (CTLA-4) levels in CD4 + cells in MLN and PP. Interestingly, DCs increased in all lymphatic organs of mice vaccinated with oral live Salmonella -based vaccine expressing preproinsulin (PPI), in combination with TGFβ, IL10, and subtherapeutic-doses of anti-CD3 mAb compared with vehicle-treated mice. These DCs are mostly tolerogenic in MLN and PP. Furthermore the DCs obtained from vaccine-treated but not vehicle-treated mice suppressed in vitro T cell proliferation. These data suggest that the MLN and the PP are a central hub for the beneficial anti-diabetic effects of an oral Salmonella -based vaccine prevention of diabetes in rodents., (Copyright © 2020 Mbongue, Alhoshani, Rawson, Garcia, Gonzalez, Ferreri, Kandeel and Husseiny.)
Published: 2020
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49. Development of Quantitative Methylation-Specific Droplet Digital PCR (ddMSP) for Assessment of Natural Tregs.

Author: Husseiny MI, Fahmy A, Du W, Gu A, Garcia P, Ferreri K, and Kandeel F
Abstract: Regulatory T cells (Tregs) suppress immune responses in vivo in an antigen-specific manner. Of clinical relevance, Tregs can be isolated and expanded in vitro while maintaining immunoregulatory function. Tregs are classified as CD4 + CD25 high CD127 low FOXP3 + cells. Demethylation of the Treg-specific demethylation region (TSDR) of FOXP3 is found in natural Tregs (nTregs). We report a method for the characterization of the differential methylation pattern of the FOXP3 TSDR in patient-derived and expanded nTregs. Human TSDR sequences from nTregs (unmethylated sequence) and pancreatic (methylated sequence) cells were amplified and cloned into plasmids. A droplet digital TaqMan probe-based qPCR (ddPCR) assay using methylation-specific primers and probes was employed to quantify unmethylated and methylated sequences. The methylation-specific droplet digital PCR (ddMSP) assay was specific and selective for unmethylated DNA in mixtures with methylated DNA in the range of 5000 copies/μL to less than 1 copy/μL ( R 2 = 0.99) even in the presence of non-selective gDNAs. CD4 + CD25 high CD127 low FOXP3 + human nTregs, in the presence of Dynabeads or activators, were expanded for 21 days. There was a decrease in the unmethylated ratio of Tregs after expansion with essentially the same ratio at days 10, 14, and 17. However, the activator expanded group showed a significant decrease in unmethylated targets at day 21. The suppression activity of activator-expanded nTregs at day 21 was decreased compared to cells expanded with Dynabeads. These data suggest that the ddMSP can quantitatively monitor nTreg expansion in vitro . These data also indicate that the assay is sensitive and specific at differentiating nTregs from other cells and may be useful for rapid screening of nTregs in clinical protocols., (Copyright © 2020 Husseiny, Fahmy, Du, Gu, Garcia, Ferreri and Kandeel.)
Published: 2020
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50. A Small Molecule-Controlled Cas9 Repressible System.

Author: Wu Y, Yang L, Chang T, Kandeel F, and Yee JK
Abstract: CRISPR-Cas9 has been developed into a powerful molecular tool for genome engineering, and it has revolutionized the field of biomedical research. Despite the tremendous potential of CRISPR-Cas9 in biomedical research, precise control of CRISPR-Cas9 over the dose and exposure time is important to expand its applications. In this study, we fused Cas9 with a peptide termed small molecule-assisted shut-off (SMASh) consisting of a protease domain and a degron domain derived from hepatitis C virus (HCV). The presence of SMASh allows tight control of the Cas9 stability via a clinically approved HCV protease inhibitor asunaprevir (ASV). We showed that the engineered Cas9 responded to ASV administration and rapidly degraded in a dose- and time-dependent manner. Cas9 degradation was reversible upon ASV removal that restored the gene editing activity. We also showed that limiting the level of Cas9 in cells increased the specificity of gene editing. The SMASh tag therefore provides an effective tool to control Cas9 stability, allowing an improvement in the accuracy, safety, and versatility of the CRISPR-Cas9 system for genome editing and gene regulation studies., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)
Published: 2020
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