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5. A Novel Cell-based Luciferase Reporter Platform for the Development and Characterization of T-Cell Redirecting Therapies and Vaccine Development

Author

Grailer, Jamison, Cheng, Zhijie Jey, Hartnett, Jim, Slater, Michael, Fan, Frank, and Cong, Mei

Abstract

T-cell immunotherapies are promising strategies to generate T-cell responses towards tumor-derived or pathogen-derived antigens. Adoptive transfer of T cells genetically modified to express antigen receptor transgenes has shown promise for the treatment of cancer. However, the development of T-cell redirecting therapies relies on the use of primary immune cells and is hampered by the lack of easy-to-use model systems and sensitive readouts to facilitate candidate screening and development. Particularly, testing T-cell receptor (TCR)-specific responses in primary T cells and immortalized T cells is confounded by the presence of endogenous TCR expression which results in mixed alpha/beta TCR pairings and compresses assay readouts. Herein, we describe the development of a novel cell-based TCR knockout (TCR-KO) reporter assay platform for the development and characterization of T-cell redirecting therapies. CRISPR/Cas9 was used to knockout the endogenous TCR chains in Jurkat cells stably expressing a human interleukin-2 promoter-driven luciferase reporter gene to measure TCR signaling. Reintroduction of a transgenic TCR into the TCR-KO reporter cells results in robust antigen-specific reporter activation compared with parental reporter cells. The further development of CD4/CD8 double-positive and double-negative versions enabled low-avidity and high-avidity TCR screening with or without major histocompatibility complex bias. Furthermore, stable TCR-expressing reporter cells generated from TCR-KO reporter cells exhibit sufficient sensitivity to probe in vitro T-cell immunogenicity of protein and nucleic acid-based vaccines. Therefore, our data demonstrated that TCR-KO reporter cells can be a useful tool for the discovery, characterization, and deployment of T-cell immunotherapy.

Published
2023
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8. The effect of tolerance to noninherited maternal HLA antigens on the survival of renal transplants from sibling donors

Author

Burlingham, William J., Grailer, Alan P., Heisey, Dennis M., Claas, Frans H.J., Norman, Douglas, Mohanakumar, Thalachallour, Brennan, Daniel C., Fijter, Hans de, Gelder, Teun van, Pirsch, John D., Sollinger, Hans W., and Bean, Michael A.

Subjects
Kidneys -- Transplantation, Biocompatibility -- Health aspects, Organ transplant recipients -- Health aspects
Abstract

People who were exposed to certain maternal immune characteristics in the uterus may be able to tolerate an organ transplant from a sibling who inherited those characteristics. Researchers evaluated transplant survival in 205 patients who received a kidney transplant from a sibling. Transplant survival was highest in patients who received a kidney from a sibling who inherited maternal immune characteristics. Those who received a transplant from a sibling who inherited paternal immune characteristics did not do as well.

Published
1998

10. Selective Biological Responses of Phagocytes and Lungs to Purified Histones

Author

Fattahi, Fatemeh, Grailer, Jamison J., Lu, Hope, Dick, Rachel S., Parlett, Michella, Zetoune, Firas S., Nuñez, Gabriel, and Ward, Peter A.

Abstract

Histones invoke strong proinflammatory responses in many different organs and cells. We assessed biological responses to purified or recombinant histones, using human and murine phagocytes and mouse lungs. H1 had the strongest ability in vitro to induce cell swelling independent of requirements for toll-like receptors (TLRs) 2 or 4. These responses were also associated with lactate dehydrogenase release. H3 and H2B were the strongest inducers of [Ca2+]i elevations in phagocytes. Cytokine and chemokine release from mouse and human phagocytes was predominately a function of H2A and H2B. Double TLR2 and TLR4 knockout (KO) mice had dramatically reduced cytokine release induced in macrophages exposed to individual histones. In contrast, macrophages from single TLR-KO mice showed few inhibitory effects on cytokine production. Using the NLRP3 inflammasome protocol, release of mature IL-1β was predominantly a feature of H1. Acute lung injury following the airway delivery of histones suggested that H1, H2A, and H2B were linked to alveolar leak of albumin and the buildup of polymorphonuclear neutrophils as well as the release of chemokines and cytokines into bronchoalveolar fluids. These results demonstrate distinct biological roles for individual histones in the context of inflammation biology and the requirement of both TLR2 and TLR4.

Published
2017
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11. L-selectin-mediated leukocyte adhesion and migration.

Author

Parnham, Michael J., Ley, Klaus, Steeber, Douglas A., Subramanian, Hariharan, Grailer, Jamison J., Conway, Rochelle M., and Storey, Traci J.

Abstract

L-selectin, which is expressed by the majority of leukocytes, plays a pivotal role in the generation of rapid and efficient immune responses by mediating the interaction of circulating leukocytes with the vascular endothelium. Specifically, L-selectin functions to mediate the attachment of leukocytes to the vascular wall at sites of inflammation and the attachment of lymphocytes to specialized post-capillary venules termed "high endothelial venules" (HEV) located within secondary lymphoid tissues. This initial adhesive event termed "capture" or "tethering" occurs through selective interaction of L-selectin with its appropriately displayed ligand(s). While this adhesive function has largely defined L-selectin, it is now clear that L-selectin functions in a highly complex manner during leukocyte recruitment. For example, L-selectin has been demonstrated to function cooperatively and synergistically with other adhesion molecules under in vivo inflammatory conditions to mediate optimal leukocyte recruitment [1, 2]. In addition, L-selectin function can be positively and negatively regulated following leukocyte activation, both of which significantly impact leukocyte recruitment. Specifically, L-selectin ligand binding activity is transiently increased following leukocyte activation [3] followed by its rapid endoproteolytic cleavage or "shedding" from the leukocyte surface [4]. Interestingly, the generation of this soluble form of L-selectin (sL-selectin) that retains functional activity may serve to dampen inflammatory responses by competing with cell-surface L-selectin for ligand binding [5, 6]. [ABSTRACT FROM AUTHOR]

Published
2007
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13. The Effect of Tolerance to Noninherited Maternal HLA Antigens on the Survival of Renal Transplants From Sibling Donors

Author

Burlingham, W. J., primary, Grailer, A. P., additional, Heisey, D. M., additional, Claas, F. H. J., additional, Norman, D., additional, Mohanakumar, T., additional, Brennan, D. C., additional, de Fijter, H., additional, van Gelder, T., additional, Pirsch, J. D., additional, Sollinger, H. W., additional, and Bean, M. A., additional

Published
1999
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20. Biodegradable hydrogels based on novel photopolymerizable guar gum–methacrylate macromonomers for in situ fabrication of tissue engineering scaffolds.

Author

Tiwari, Ashutosh, Grailer, Jamison J., Pilla, Srikanth, Steeber, Douglas A., and Gong, Shaoqin

Subjects
HYDROGELS, BIODEGRADABLE products, PHOTOPOLYMERS, METHYL methacrylate, MONOMERS, TISSUE engineering, FIBERS, STRUCTURAL frames
Abstract

Abstract: Guar gum (GG) is a non-ionic polysaccharide that is found abundantly in nature and has many properties desirable for biomedical applications. In the present work GG with molecular weights ranging from 74 to 210kDa was modified with glycidyl methacrylate (GMA) to produce a series of water-soluble photopolymerizable guar gum–methacrylate (GG–MA) macromonomers of different molecular weights. We investigated the effects of molecular weight of GG–MA macromonomers from 102 to 216kDa and with percent degree of methacrylation (%DM) ranging from 14% to 56% on the properties of GG–MA hydrogels. GG–MA hydrogels exhibited a three-dimensional open cell microstructure with an average pore size ranging from ∼10 to 55μm and an average pore density of from ∼2.4×106 to 8.6×107 porescm−3. The hydrogels exhibited equilibrium swelling ratios ranging from ∼22% to 63%. The degree of in vitro enzymatic biodegradation of the hydrogels decreased linearly with increasing gel content and the degree of methacrylation of the respective macromonomers. The human endothelial cell line EA.hy926 was photo-encapsulated in the GG–MA hydrogels. Cells remained viable at low macromonomer concentrations, but cell viability decreased sequentially as the macromonomer concentration increased. GG–MA hydrogels with a 0.05wt.% GG–MA macromonomer concentration revealed excellent endothelial cell proliferation, similar to that of the Matrigel™ control. [Copyright &y& Elsevier]

Published
2009
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22. Persistent Neutrophil Dysfunction and Suppression of Acute Lung Injury in Mice following Cecal Ligation and Puncture Sepsis

Author

Grailer, Jamison J., Kalbitz, Miriam, Zetoune, Firas S., and Ward, Peter A.

Abstract

AbstractSepsis, both in humans and in rodents, is associated with persistent immunosuppression accompanied by defects in innate immunity during the acute phase of sepsis. Mice were rendered septic by cecal ligation and puncture (CLP) followed by the induction of acute lung injury, employing distal airway deposition of IgG immune complexes, in order to quantitatively evaluate innate immune responses following the induction of sepsis. Suppression of innate immune responses in the lung occurred as early as 12 h after CLP and up to 21 days thereafter. The mechanism of innate immune defects included a reduced leak of albumin into the lungs together with reduced levels of tumor necrosis factor in bronchoalveolar lavage fluids and increased levels of interleukin-10 that were persistent. Bone marrow-derived neutrophils (polymorphonuclear neutrophils; PMNs) from CLP mice also had reduced levels of the activation marker CD11b and a depressed respiratory burst following stimulation in vitro. These results were not observed in mice with endotoxemia, where the innate inflammatory response was preserved. However, sustained lymphopenia was present in both models, suggesting differential regulation of innate and adaptive immunity in the two sepsis models. These data indicate that CLP induced a prolonged suppression of inflammatory responses both in the lung and systemically, as defined by bone marrow-derived PMN dysfunction.© 2014 S. Karger AG, Basel

Published
2014
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23. Induction of M2 Regulatory Macrophages through the β2-Adrenergic Receptor with Protection during Endotoxemia and Acute Lung Injury

Author

Grailer, Jamison J., Haggadone, Mikel D., Sarma, J. Vidya, Zetoune, Firas S., and Ward, Peter A.

Abstract

AbstractThe main drivers of acute inflammation are macrophages, which are known to have receptors for catecholamines. Based on their function, macrophages are broadly categorized as having either M1 (proinflammatory) or M2 phenotypes (anti-inflammatory). In this study, we investigated catecholamine-induced alterations in the phenotype of activated macrophages. In the presence of lipopolysaccharide (LPS), mouse peritoneal macrophages acquired an M1 phenotype. However, the copresence of LPS and either epinephrine or norepinephrine resulted in a strong M2 phenotype including high levels of arginase-1 and interleukin-10, and a reduced expression of M1 markers. Furthermore, epinephrine enhanced macrophage phagocytosis and promoted type 2 T-cell responses in vitro, which are known features of M2 macrophages. Analysis of M2 subtype-specific markers indicated that LPS and catecholamine-cotreated macrophages were not alternatively activated but were rather of the regulatory macrophage subtype. Interestingly, catecholamines signaled through the β2-adrenergic receptor but not the canonical cAMP/protein kinase A signaling pathway. Instead, the M2 pathway required an intact phosphoinositol 3-kinase pathway. Blockade of the β2-adrenergic receptor reduced survival and enhanced injury in mouse models of endotoxemia and LPS-induced acute lung injury, respectively. These results demonstrate a role for the β2-adrenergic receptor in promoting the M2 macrophage phenotype.© 2014 S. Karger AG, Basel

Published
2014
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24. Tyrosine kinase 2 promotes sepsis‐associated lethality by facilitating production of interleukin‐27

Author

Bosmann, Markus, Strobl, Birgit, Kichler, Nadia, Rigler, Doris, Grailer, Jamison J., Pache, Florence, Murray, Peter J., Müller, Mathias, and Ward, Peter A.

Abstract

Tyrosine kinase 2 is required for release of IL‐27(p28) by TLR4‐activated macrophages; disruption of this pathway is protective during in vivo models of sepsis. The aim of this study was to test the hypothesis that gene expression and release of IL‐27 may be modulated by Tyk2. Macrophages derived from the peritoneum or bone marrow of C57BL/10SnJ (WT) mice produced abundant amounts of IL‐27(p28) following TLR4 activation by LPS. In contrast, production of IL‐27(p28), but not EBI3, was reduced by ∼50% in TLR4‐activated macrophages derived from mice with genetic deficiency of Tyk2 compared with WT macrophages. Frequencies of IL‐27(p28)+F4/80+CD11b+ cells were lower in TLR4‐activated macrophages derived from Tyk2−/− mice. Mechanistically, Tyk2−/− resulted in disruption of a type I IFN‐dependent mechanism for production of IL‐27(p28), which was induced by type I IFNs, and release of IL‐27 was defective in macrophages from IFN‐β−/− and IFNAR1−/− mice. In contrast, Tyk2 was not required to mediate the effects of IL‐27 on target gene expression in CD4+T cells. In vivo, we observed that Tyk2−/− mice have improved survival following endotoxic shock or polymicrobial sepsis induced by CLP. Plasma levels of IL‐27(p28) during endotoxic shock or polymicrobial sepsis were markedly reduced in Tyk2−/− mice compared with WT mice. Disruption of IL‐27 signaling using IL‐27RA−/− mice was protective against sepsis‐associated mortality. These data suggest that Tyk2 may mediate adverse outcomes of SIRS by promoting the production of IL‐27. In conclusion, this report identifies Tyk2 as a prerequisite factor in the molecular networks that are involved in generation of IL‐27.

Published
2014
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25. 31st Annual Meeting and Associated Programs of the Society for Immunotherapy of Cancer (SITC 2016): part one: National Harbor, MD, USA. 9-13 November 2016

Author

Lundqvist, Andreas, van Hoef, Vincent, Zhang, Xiaonan, Wennerberg, Erik, Lorent, Julie, Witt, Kristina, Sanz, Laia Masvidal, Liang, Shuo, Murray, Shannon, Larsson, Ola, Kiessling, Rolf, Mao, Yumeng, Sidhom, John-William, Bessell, Catherine A., Havel, Jonathan, Schneck, Jonathan, Chan, Timothy A., Sachsenmeier, Eliot, Woods, David, Berglund, Anders, Ramakrishnan, Rupal, Sodre, Andressa, Weber, Jeffrey, Zappasodi, Roberta, Li, Yanyun, Qi, Jingjing, Wong, Philip, Sirard, Cynthia, Postow, Michael, Newman, Walter, Koon, Henry, Velcheti, Vamsidhar, Callahan, Margaret K., Wolchok, Jedd D., Merghoub, Taha, Lum, Lawrence G., Choi, Minsig, Thakur, Archana, Deol, Abhinav, Dyson, Gregory, Shields, Anthony, Haymaker, Cara, Uemura, Marc, Murthy, Ravi, James, Marihella, Wang, Daqing, Brevard, Julie, Monaghan, Catherine, Swann, Suzanne, Geib, James, Cornfeld, Mark, Chunduru, Srinivas, Agrawal, Sudhir, Yee, Cassian, Wargo, Jennifer, Patel, Sapna P., Amaria, Rodabe, Tawbi, Hussein, Glitza, Isabella, Woodman, Scott, Hwu, Wen-Jen, Davies, Michael A., Hwu, Patrick, Overwijk, Willem W., Bernatchez, Chantale, Diab, Adi, Massarelli, Erminia, Segal, Neil H., Ribrag, Vincent, Melero, Ignacio, Gangadhar, Tara C., Urba, Walter, Schadendorf, Dirk, Ferris, Robert L., Houot, Roch, Morschhauser, Franck, Logan, Theodore, Luke, Jason J., Sharfman, William, Barlesi, Fabrice, Ott, Patrick A., Mansi, Laura, Kummar, Shivaani, Salles, Gilles, Carpio, Cecilia, Meier, Roland, Krishnan, Suba, McDonald, Dan, Maurer, Matthew, Gu, Xuemin, Neely, Jaclyn, Suryawanshi, Satyendra, Levy, Ronald, Khushalani, Nikhil, Wu, Jennifer, Zhang, Jinyu, Basher, Fahmin, Rubinstein, Mark, Bucsek, Mark, Qiao, Guanxi, MacDonald, Cameron, Hylander, Bonnie, Repasky, Elizabeth, Chatterjee, Shilpak, Daenthanasanmak, Anusara, Chakraborty, Paramita, Toth, Kyle, Meek, Megan, Garrett-Mayer, Elizabeth, Nishimura, Michael, Paulos, Chrystal, Beeson, Craig, Yu, Xuezhong, Mehrotra, Shikhar, Zhao, Fei, Evans, Kathy, Xiao, Christine, Holtzhausen, Alisha, Hanks, Brent A., Scharping, Nicole, Menk, Ashley V., Moreci, Rebecca, Whetstone, Ryan, Dadey, Rebekah, Watkins, Simon, Ferris, Robert, Delgoffe, Greg M., Peled, Jonathan, Devlin, Sean, Staffas, Anna, Lumish, Melissa, Rodriguez, Kori Porosnicu, Ahr, Katya, Perales, Miguel, Giralt, Sergio, Taur, Ying, Pamer, Eric, van den Brink, Marcel R. M., Jenq, Robert, Annels, Nicola, Pandha, Hardev, Simpson, Guy, Mostafid, Hugh, Harrington, Kevin, Melcher, Alan, Grose, Mark, Davies, Bronwyn, Au, Gough, Karpathy, Roberta, Shafren, Darren, Ricca, Jacob, Zamarin, Dmitriy, Batista, Luciana, Marliot, Florence, Vasaturo, Angela, Carpentier, Sabrina, Poggionovo, Cécile, Frayssinet, Véronique, Fieschi, Jacques, Van den Eynde, Marc, Pagès, Franck, Galon, Jérôme, Hermitte, Fabienne, Smith, Sean G., Nguyen, Khue, Ravindranathan, Sruthi, Koppolu, Bhanu, Zaharoff, David, Schvartsman, Gustavo, Bassett, Roland, McQuade, Jennifer L., Haydu, Lauren E., Kline, Douglas, Chen, Xiufen, Fosco, Dominick, Kline, Justin, Overacre, Abigail, Chikina, Maria, Brunazzi, Erin, Shayan, Gulidanna, Horne, William, Kolls, Jay, Bruno, Tullia C., Workman, Creg, Vignali, Dario, Adusumilli, Prasad S., Ansa-Addo, Ephraim A, Li, Zihai, Gerry, Andrew, Sanderson, Joseph P., Howe, Karen, Docta, Roslin, Gao, Qian, Bagg, Eleanor A. L., Tribble, Nicholas, Maroto, Miguel, Betts, Gareth, Bath, Natalie, Melchiori, Luca, Lowther, Daniel E., Ramachandran, Indu, Kari, Gabor, Basu, Samik, Binder-Scholl, Gwendolyn, Chagin, Karen, Pandite, Lini, Holdich, Tom, Amado, Rafael, Zhang, Hua, Glod, John, Bernstein, Donna, Jakobsen, Bent, Mackall, Crystal, Wong, Ryan, Silk, Jonathan D., Adams, Katherine, Hamilton, Garth, Bennett, Alan D., Brett, Sara, Jing, Junping, Quattrini, Adriano, Saini, Manoj, Wiedermann, Guy, Brewer, Joanna, Duong, MyLinh, Lu, An, Chang, Peter, Mahendravada, Aruna, Shinners, Nicholas, Slawin, Kevin, Spencer, David M., Foster, Aaron E., Bayle, J. Henri, Bergamaschi, Cristina, Ng, Sinnie Sin Man, Nagy, Bethany, Jensen, Shawn, Hu, Xintao, Alicea, Candido, Fox, Bernard, Felber, Barbara, Pavlakis, George, Chacon, Jessica, Yamamoto, Tori, Garrabrant, Thomas, Cortina, Luis, Powell, Daniel J., Donia, Marco, Kjeldsen, Julie Westerlin, Andersen, Rikke, Westergaard, Marie Christine Wulff, Bianchi, Valentina, Legut, Mateusz, Attaf, Meriem, Dolton, Garry, Szomolay, Barbara, Ott, Sascha, Lyngaa, Rikke, Hadrup, Sine Reker, Sewell, Andrew Kelvin, Svane, Inge Marie, Fan, Aaron, Kumai, Takumi, Celis, Esteban, Frank, Ian, Stramer, Amanda, Blaskovich, Michelle A., Wardell, Seth, Fardis, Maria, Bender, James, Lotze, Michael T., Goff, Stephanie L., Zacharakis, Nikolaos, Assadipour, Yasmine, Prickett, Todd D., Gartner, Jared J., Somerville, Robert, Black, Mary, Xu, Hui, Chinnasamy, Harshini, Kriley, Isaac, Lu, Lily, Wunderlich, John, Robbins, Paul F., Rosenberg, Steven, Feldman, Steven A., Trebska-McGowan, Kasia, Malekzadeh, Parisa, Payabyab, Eden, Sherry, Richard, Gokuldass, Aishwarya, Kopits, Charlene, Rabinovich, Brian, Green, Daniel S., Kamenyeva, Olena, Zoon, Kathryn C., Annunziata, Christina M., Hammill, Joanne, Helsen, Christopher, Aarts, Craig, Bramson, Jonathan, Harada, Yui, Yonemitsu, Yoshikazu, Mwawasi, Kenneth, Denisova, Galina, Giri, Rajanish, Jin, Benjamin, Campbell, Tracy, Draper, Lindsey M., Stevanovic, Sanja, Yu, Zhiya, Weissbrich, Bianca, Restifo, Nicholas P., Trimble, Cornelia L., Hinrichs, Christian S., Tsang, Kwong, Fantini, Massimo, Hodge, James W., Fujii, Rika, Fernando, Ingrid, Jochems, Caroline, Heery, Christopher, Gulley, James, Soon-Shiong, Patrick, Schlom, Jeffrey, Jing, Weiqing, Gershan, Jill, Blitzer, Grace, Weber, James, McOlash, Laura, Johnson, Bryon D., Kiany, Simin, Gangxiong, Huang, Kleinerman, Eugenie S., Klichinsky, Michael, Ruella, Marco, Shestova, Olga, Kenderian, Saad, Kim, Miriam, Scholler, John, June, Carl H., Gill, Saar, Moogk, Duane, Zhong, Shi, Liadi, Ivan, Rittase, William, Fang, Victoria, Dougherty, Janna, Perez-Garcia, Arianne, Osman, Iman, Zhu, Cheng, Varadarajan, Navin, Frey, Alan, Krogsgaard, Michelle, Landi, Daniel, Fousek, Kristen, Mukherjee, Malini, Shree, Ankita, Joseph, Sujith, Bielamowicz, Kevin, Byrd, Tiara, Ahmed, Nabil, Hegde, Meenakshi, Lee, Sylvia, Byrd, David, Thompson, John, Bhatia, Shailender, Tykodi, Scott, Delismon, Judy, Chu, Liz, Abdul-Alim, Siddiq, Ohanian, Arpy, DeVito, Anna Marie, Riddell, Stanley, Margolin, Kim, Magalhaes, Isabelle, Mattsson, Jonas, Uhlin, Michael, Nemoto, Satoshi, Villarroel, Patricio Pérez, Nakagawa, Ryosuke, Mule, James J., Mailloux, Adam W., Mata, Melinda, Nguyen, Phuong, Gerken, Claudia, DeRenzo, Christopher, Gottschalk, Stephen, Mathieu, Mélissa, Pelletier, Sandy, Stagg, John, Turcotte, Simon, Minutolo, Nicholas, Sharma, Prannda, Tsourkas, Andrew, Mockel-Tenbrinck, Nadine, Mauer, Daniela, Drechsel, Katharina, Barth, Carola, Freese, Katharina, Kolrep, Ulrike, Schult, Silke, Assenmacher, Mario, Kaiser, Andrew, Mullinax, John, Hall, MacLean, Le, Julie, Kodumudi, Krithika, Royster, Erica, Richards, Allison, Gonzalez, Ricardo, Sarnaik, Amod, Pilon-Thomas, Shari, Nielsen, Morten, Krarup-Hansen, Anders, Hovgaard, Dorrit, Petersen, Michael Mørk, Loya, Anand Chainsukh, Junker, Niels, Rivas, Charlotte, Parihar, Robin, Rooney, Cliona M., Qin, Haiying, Nguyen, Sang, Su, Paul, Burk, Chad, Duncan, Brynn, Kim, Bong-Hyun, Kohler, M. Eric, Fry, Terry, Rao, Arjun A., Teyssier, Noam, Pfeil, Jacob, Sgourakis, Nikolaos, Salama, Sofie, Haussler, David, Richman, Sarah A., Nunez-Cruz, Selene, Gershenson, Zack, Mourelatos, Zissimos, Barrett, David, Grupp, Stephan, Milone, Michael, Rodriguez-Garcia, Alba, Robinson, Matthew K., Adams, Gregory P., Santos, João, Havunen, Riikka, Siurala, Mikko, Cervera-Carrascón, Víctor, Parviainen, Suvi, Antilla, Marjukka, Hemminki, Akseli, Sethuraman, Jyothi, Santiago, Laurelis, Chen, Jie Qing, Dai, Zhimin, Sha, Huizi, Su, Shu, Ding, Naiqing, Liu, Baorui, Pasetto, Anna, Helman, Sarah R., Rosenberg, Steven A., Burgess, Melissa, Zhang, Hui, Lee, Tien, Klingemann, Hans, Nghiem, Paul, Kirkwood, John M., Rossi, John M., Sherman, Marika, Xue, Allen, Shen, Yueh-wei, Navale, Lynn, Kochenderfer, James N., Bot, Adrian, Veerapathran, Anandaraman, Wiener, Doris, Waller, Edmund K., Li, Jian-Ming, Petersen, Christopher, Blazar, Bruce R., Li, Jingxia, Giver, Cynthia R., Wang, Ziming, Grossenbacher, Steven K., Sturgill, Ian, Canter, Robert J., Murphy, William J., Zhang, Congcong, Burger, Michael C., Jennewein, Lukas, Waldmann, Anja, Mittelbronn, Michel, Tonn, Torsten, Steinbach, Joachim P., Wels, Winfried S., Williams, Jason B., Zha, Yuanyuan, Gajewski, Thomas F., Williams, LaTerrica C., Krenciute, Giedre, Kalra, Mamta, Louis, Chrystal, Xin, Gang, Schauder, David, Jiang, Aimin, Joshi, Nikhil, Cui, Weiguo, Zeng, Xue, Zhao, Zeguo, Hamieh, Mohamad, Eyquem, Justin, Gunset, Gertrude, Bander, Neil, Sadelain, Michel, Askmyr, David, Abolhalaj, Milad, Lundberg, Kristina, Greiff, Lennart, Lindstedt, Malin, Angell, Helen K., Kim, Kyoung-Mee, Kim, Seung-Tae, Kim, Sung, Sharpe, Alan D., Ogden, Julia, Davenport, Anna, Hodgson, Darren R., Barrett, Carl, Lee, Jeeyun, Kilgour, Elaine, Hanson, Jodi, Caspell, Richard, Karulin, Alexey, Lehmann, Paul, Ansari, Tameem, Schiller, Annemarie, Sundararaman, Srividya, Roen, Diana, Ayers, Mark, Levitan, Diane, Arreaza, Gladys, Liu, Fang, Mogg, Robin, Bang, Yung-Jue, O’Neil, Bert, Cristescu, Razvan, Friedlander, Philip, Wassman, Karl, Kyi, Chrisann, Oh, William, Bhardwaj, Nina, Bornschlegl, Svetlana, Gustafson, Michael P., Gastineau, Dennis A., Parney, Ian F., Dietz, Allan B., Carvajal-Hausdorf, Daniel, Mani, Nikita, Schalper, Kurt, Rimm, David, Chang, Serena, Kurland, John, Ahlers, Christoph Matthias, Jure-Kunkel, Maria, Cohen, Lewis, Maecker, Holden, Kohrt, Holbrook, Chen, Shuming, Crabill, George, Pritchard, Theresa, McMiller, Tracee, Pardoll, Drew, Pan, Fan, Topalian, Suzanne, Danaher, Patrick, Warren, Sarah, Dennis, Lucas, White, Andrew M., D’Amico, Leonard, Geller, Melissa, Disis, Mary L., Beechem, Joseph, Odunsi, Kunle, Fling, Steven, Derakhshandeh, Roshanak, Webb, Tonya J., Dubois, Sigrid, Conlon, Kevin, Bryant, Bonita, Hsu, Jennifer, Beltran, Nancy, Müller, Jürgen, Waldmann, Thomas, Duhen, Rebekka, Duhen, Thomas, Thompson, Lucas, Montler, Ryan, Weinberg, Andrew, Kates, Max, Early, Brandon, Yusko, Erik, Schreiber, Taylor H., Bivalacqua, Trinity J., Lunceford, Jared, Nebozhyn, Michael, Murphy, Erin, Loboda, Andrey, Kaufman, David R., Albright, Andrew, Cheng, Jonathan, Kang, S. Peter, Shankaran, Veena, Piha-Paul, Sarina A., Yearley, Jennifer, Seiwert, Tanguy, Ribas, Antoni, McClanahan, Terrill K., Sher, Xinwei, Liu, Xiao Qiao, Joe, Andrew, Plimack, Elizabeth, Forrest-Hay, Alex, Guyre, Cheryl A., Narumiya, Kohei, Delcommenne, Marc, Hirsch, Heather A., Deshpande, Amit, Reeves, Jason, Shu, Jenny, Zi, Tong, Michaelson, Jennifer, Law, Debbie, Trehu, Elizabeth, Sathyanaryanan, Sriram, Hodkinson, Brendan P., Hutnick, Natalie A., Schaffer, Michael E., Gormley, Michael, Hulett, Tyler, Ballesteros-Merino, Carmen, Dubay, Christopher, Afentoulis, Michael, Reddy, Ashok, David, Larry, Jayant, Kumar, Agrawal, Swati, Agrawal, Rajendra, Jeyakumar, Ghayathri, Kim, Seongho, Kim, Heejin, Silski, Cynthia, Suisham, Stacey, Heath, Elisabeth, Vaishampayan, Ulka, Vandeven, Natalie, Viller, Natasja Nielsen, O’Connor, Alison, Chen, Hui, Bossen, Bolette, Sievers, Eric, Uger, Robert, Johnson, Lisa, Kao, Hsiang-Fong, Hsiao, Chin-Fu, Lai, Shu-Chuan, Wang, Chun-Wei, Ko, Jenq-Yuh, Lou, Pei-Jen, Lee, Tsai-Jan, Liu, Tsang-Wu, Hong, Ruey-Long, Kearney, Staci J., Black, Joshua C., Landis, Benjamin J., Koegler, Sally, Hirsch, Brooke, Gianani, Roberto, Kim, Jeffrey, He, Ming-Xiao, Zhang, Bingqing, Su, Nan, Luo, Yuling, Ma, Xiao-Jun, Park, Emily, Kim, Dae Won, Copploa, Domenico, Kothari, Nishi, doo Chang, Young, Kim, Richard, Kim, Namyong, Lye, Melvin, Wan, Ee, Knaus, Hanna A., Berglund, Sofia, Hackl, Hubert, Karp, Judith E., Gojo, Ivana, Luznik, Leo, Hong, Henoch S., Koch, Sven D., Scheel, Birgit, Gnad-Vogt, Ulrike, Kallen, Karl-Josef, Wiegand, Volker, Backert, Linus, Kohlbacher, Oliver, Hoerr, Ingmar, Fotin-Mleczek, Mariola, Billingsley, James M., Koguchi, Yoshinobu, Conrad, Valerie, Miller, William, Gonzalez, Iliana, Poplonski, Tomasz, Meeuwsen, Tanisha, Howells-Ferreira, Ana, Rattray, Rogan, Campbell, Mary, Bifulco, Carlo, Bahjat, Keith, Curti, Brendan, Vetsika, E-K, Kallergi, G., Aggouraki, Despoina, Lyristi, Z., Katsarlinos, P., Koinis, Filippos, Georgoulias, V., Kotsakis, Athanasios, Martin, Nathan T., Aeffner, Famke, Cerkovnik, Logan, Pratte, Luke, Kim, Rebecca, Krueger, Joseph, Martínez-Usatorre, Amaia, Jandus, Camilla, Donda, Alena, Carretero-Iglesia, Laura, Speiser, Daniel E., Zehn, Dietmar, Rufer, Nathalie, Romero, Pedro, Panda, Anshuman, Mehnert, Janice, Hirshfield, Kim M., Riedlinger, Greg, Damare, Sherri, Saunders, Tracie, Sokol, Levi, Stein, Mark, Poplin, Elizabeth, Rodriguez-Rodriguez, Lorna, Silk, Ann, Chan, Nancy, Frankel, Melissa, Kane, Michael, Malhotra, Jyoti, Aisner, Joseph, Kaufman, Howard L., Ali, Siraj, Ross, Jeffrey, White, Eileen, Bhanot, Gyan, Ganesan, Shridar, Monette, Anne, Bergeron, Derek, Amor, Amira Ben, Meunier, Liliane, Caron, Christine, Morou, Antigoni, Kaufmann, Daniel, Liberman, Moishe, Jurisica, Igor, Mes-Masson, Anne-Marie, Hamzaoui, Kamel, Lapointe, Rejean, Mongan, Ann, Ku, Yuan-Chieh, Tom, Warren, Sun, Yongming, Pankov, Alex, Looney, Tim, Au-Young, Janice, Hyland, Fiona, Conroy, Jeff, Morrison, Carl, Glenn, Sean, Burgher, Blake, Ji, He, Gardner, Mark, Omilian, Angela R., Bshara, Wiam, Angela, Omilian, Obeid, Joseph M., Erdag, Gulsun, Smolkin, Mark E., Deacon, Donna H., Patterson, James W., Chen, Lieping, Bullock, Timothy N., Slingluff, Craig L., Loffredo, John T., Vuyyuru, Raja, Beyer, Sophie, Spires, Vanessa M., Fox, Maxine, Ehrmann, Jon M., Taylor, Katrina A., Korman, Alan J., Graziano, Robert F., Page, David, Sanchez, Katherine, Martel, Maritza, De Macedo, Mariana Petaccia, Qin, Yong, Reuben, Alex, Spencer, Christine, Guindani, Michele, Racolta, Adriana, Kelly, Brian, Jones, Tobin, Polaske, Nathan, Theiss, Noah, Robida, Mark, Meridew, Jeffrey, Habensus, Iva, Zhang, Liping, Pestic-Dragovich, Lidija, Tang, Lei, Olencki, Thomas, Hutson, Thomas, Roder, Joanna, Blackmon, Shauna, Roder, Heinrich, Stewart, John, Amin, Asim, Ernstoff, Marc S., Clark, Joseph I., Atkins, Michael B., Sosman, Jeffrey, Kluger, Harriet, Halaban, Ruth, Snzol, Mario, Asmellash, Senait, Steingrimsson, Arni, Wang, Chichung, Roman, Kristin, Clement, Amanda, Downing, Sean, Hoyt, Clifford, Harder, Nathalie, Schmidt, Guenter, Schoenmeyer, Ralf, Brieu, Nicolas, Yigitsoy, Mehmet, Madonna, Gabriele, Botti, Gerardo, Grimaldi, Antonio, Ascierto, Paolo A., Huss, Ralf, Athelogou, Maria, Hessel, Harald, Buchner, Alexander, Stief, Christian, Binnig, Gerd, Kirchner, Thomas, Sellappan, Shankar, Thyparambil, Sheeno, Schwartz, Sarit, Cecchi, Fabiola, Nguyen, Andrew, Vaske, Charles, Hembrough, Todd, Spacek, Jan, Vocka, Michal, Zavadova, Eva, Skalova, Helena, Dundr, Pavel, Petruzelka, Lubos, Francis, Nicole, Tilman, Rau T., Hartmann, Arndt, Netikova, Irena, Stump, Julia, Tufman, Amanda, Berger, Frank, Neuberger, Michael, Hatz, Rudolf, Lindner, Michael, Sanborn, Rachel E., Handy, John, Huber, Rudolf M., Winter, Hauke, Reu, Simone, Sun, Cheng, Xiao, Weihua, Tian, Zhigang, Ting, David, Tsai, Katy, Nosrati, Adi, Goldinger, Simone, Hamid, Omid, Algazi, Alain, Tumeh, Paul, Hwang, Jimmy, Liu, Jacqueline, Chen, Lawrence, Dummer, Reinhard, Rosenblum, Michael, Daud, Adil, Tsao, Tsu-Shuen, Ashworth-Sharpe, Julia, Johnson, Donald, Bhaumik, Srabani, Bieniarz, Christopher, Couto, Joseph, Farrell, Michael, Ghaffari, Mahsa, Hubbard, Antony, Kosmeder, Jerome, Lee, Cleo, Marner, Erin, Uribe, Diana, Zhang, Hongjun, Zhang, Jian, Zhang, Wenjun, Zhu, Yifei, Morrison, Larry, Tsujikawa, Takahiro, Borkar, Rohan N., Azimi, Vahid, Kumar, Sushil, Thibault, Guillaume, Mori, Motomi, El Rassi, Edward, Clayburgh, Daniel R., Kulesz-Martin, Molly F., Flint, Paul W., Coussens, Lisa M., Villabona, Lisa, Masucci, Giuseppe V., Geiss, Gary, Birditt, Brian, Mei, Qian, Huang, Alan, Eagan, Maribeth A., Ignacio, Eduardo, Elliott, Nathan, Dunaway, Dwayne, Jung, Jaemyeong, Merritt, Chris, Sprague, Isaac, Webster, Philippa, Liang, Yan, Wenthe, Jessica, Enblad, Gunilla, Karlsson, Hannah, Essand, Magnus, Savoldo, Barbara, Dotti, Gianpietro, Höglund, Martin, Brenner, Malcolm K., Hagberg, Hans, Loskog, Angelica, Bernett, Matthew J., Moore, Gregory L., Hedvat, Michael, Bonzon, Christine, Chu, Seung, Rashid, Rumana, Avery, Kendra N., Muchhal, Umesh, Desjarlais, John, Kraman, Matthew, Kmiecik, Katarzyna, Allen, Natalie, Faroudi, Mustapha, Zimarino, Carlo, Wydro, Mateusz, Doody, Jacqueline, Srinivasa, Sreesha P., Govindappa, Nagaraja, Reddy, Praveen, Dubey, Aparajita, Periyasamy, Sankar, Adekandi, Madhukara, Dey, Chaitali, Joy, Mary, van Loo, Pieter Fokko, Veninga, Henrike, Shamsili, Setareh, Throsby, Mark, Dolstra, Harry, Bakker, Lex, Alva, Ajjai, Gschwendt, Juergen, Loriot, Yohann, Feng, Dai, Poehlein, Christian, Powles, Thomas, Antonarakis, Emmanuel S., Drake, Charles G., Wu, Haiyan, De Bono, Johann, Bannerji, Rajat, Byrd, John, Gregory, Gareth, Opat, Stephen, Shortt, Jake, Thompson, Seth, Balakumaran, Arun, Kumar, Shaji, Rini, Brian I., Mariani, Mariangela, Albiges, Laurence, Haanen, John B., Larkin, James, Schmidinger, Manuela, Magazzù, Domenico, di Pietro, Alessandra, Motzer, Robert J., Borch, Troels Holz, Kongsted, Per, Pedersen, Magnus, Met, Özcan, Boudadi, Karim, Wang, Hao, Vasselli, James, Baughman, Jan E., Wigginton, Jon, Abdallah, Rehab, Ross, Ashley, Park, Jiwon, Grossenbacher, Steven, Luna, Jesus I., Withers, Sita, Culp, William, Chen, Mingyi, Monjazeb, Arta, Kent, Michael S., Chandran, Smita, Danforth, David, Yang, James, Klebanoff, Christopher, Goff, Stephanie, Paria, Biman, Sabesan, Arvind, Srivastava, Abhishek, Kammula, Udai, Richards, Jon, Faries, Mark, Andtbacka, Robert H. I., Diaz, Luis A., Le, Dung T., Yoshino, Takayuki, André, Thierry, Bendell, Johanna, Koshiji, Minori, Zhang, Yayan, Kang, S Peter, Lam, Bao, Jäger, Dirk, Bauer, Todd M., Wang, Judy S., Lee, Jean K., Manji, Gulam A., Kudchadkar, Ragini, Kauh, John S., Tang, Shande, Laing, Naomi, Falchook, Gerald, Garon, Edward B., Halmos, Balazs, Rina, Hui, Leighl, Natasha, Lee, Sung Sook, Walsh, William, Dragnev, Konstanin, Piperdi, Bilal, Rodriguez, Luis Paz-Ares, Shinwari, Nabeegha, Wei, Ziewn, Maas, Mary L, Deeds, Michael, Armstrong, Adam, Peterson, Tim, Steinmetz, Sue, Herzog, Thomas, Backes, Floor J., Copeland, Larry, Del Pilar Estevez Diz, Maria, Hare, Thomas W., Huh, Warner, Kim, Byoung-Gie, Moore, Kathleen M., Oaknin, Ana, Small, William, Tewari, Krishnansu S., Monk, Bradley J., Kamat, Ashish M., Nam, Kijoeng, De Santis, Maria, Dreicer, Robert, Hahn, Noah M., Perini, Rodolfo, Siefker-Radtke, Arlene, Sonpavde, Guru, de Wit, Ronald, Witjes, J. Alfred, Keefe, Stephen, Bajorin, Dean, Armand, Philippe, Kuruvilla, John, Moskowitz, Craig, Hamadani, Mehdi, Zinzani, Pier Luigi, Chlosta, Sabine, Bartlett, Nancy, Sabado, Rachel, Saenger, Yvonne, William, Loging, Donovan, Michael Joseph, Sacris, Erlinda, Mandeli, John, Salazar, Andres M., Powderly, John, Brody, Joshua, Nemunaitis, John, Emens, Leisha, Patnaik, Amita, McCaffery, Ian, Miller, Richard, Laport, Ginna, Coveler, Andrew L., Smith, David C., Grilley-Olson, Juneko E., Goel, Sanjay, Gardai, Shyra J., Law, Che-Leung, Means, Gary, Manley, Thomas, Marrone, Kristen A., Rosner, Gary, Anagnostou, Valsamo, Riemer, Joanne, Wakefield, Jessica, Zanhow, Cynthia, Baylin, Stephen, Gitlitz, Barbara, Brahmer, Julie, Li, Wenting, Schloss, Charles, Michot, Jean-Marie, Ding, Wei, Christian, Beth, Marinello, Patricia, Shipp, Margaret, Najjar, Yana G., Lin, Butterfield, Lisa H., Tarhini, Ahmad A., Davar, Diwakar, Zarour, Hassane, Rush, Elizabeth, Sander, Cindy, Fu, Siqing, Bauer, Todd, Molineaux, Chris, Bennett, Mark K., Orford, Keith W., Papadopoulos, Kyriakos P., Padda, Sukhmani K., Shah, Sumit A., Colevas, A Dimitrios, Narayanan, Sujata, Fisher, George A., Supan, Dana, Wakelee, Heather A., Aoki, Rhonda, Pegram, Mark D., Villalobos, Victor M., Liu, Jie, Takimoto, Chris H., Chao, Mark, Volkmer, Jens-Peter, Majeti, Ravindra, Weissman, Irving L., Sikic, Branimir I., Yu, Wendy, Conlin, Alison, Ruzich, Janet, Lewis, Stacy, Acheson, Anupama, Kemmer, Kathleen, Perlewitz, Kelly, Moxon, Nicole M., Mellinger, Staci, McArthur, Heather, Juhler-Nøttrup, Trine, Desai, Jayesh, Markman, Ben, Sandhu, Shahneen, Gan, Hui, Friedlander, Michael L., Tran, Ben, Meniawy, Tarek, Lundy, Joanne, Colyer, Duncan, Ameratunga, Malaka, Norris, Christie, Yang, Jason, Li, Kang, Wang, Lai, Luo, Lusong, Qin, Zhen, Mu, Song, Tan, Xuemei, Song, James, Millward, Michael, Katz, Matthew H. G., Bauer, Todd W., Varadhachary, Gauri R., Acquavella, Nicolas, Merchant, Nipun, Petroni, Gina, Rahma, Osama E., Chen, Mei, Song, Yang, Puhlmann, Markus, Khattri, Arun, Brisson, Ryan, Harvey, Christopher, Shah, Jatin, Mateos, Maria Victoria, Matsumoto, Morio, Blacklock, Hilary, Rocafiguera, Albert Oriol, Goldschmidt, Hartmut, Iida, Shinsuke, Yehuda, Dina Ben, Ocio, Enrique, Rodríguez-Otero, Paula, Jagannath, Sundar, Lonial, Sagar, Kher, Uma, San-Miguel, Jesus, de Oliveira, Moacyr Ribeiro, Yimer, Habte, Rifkin, Robert, Schjesvold, Fredrik, Ghori, Razi, Spreafico, Anna, Lee, Victor, Ngan, Roger K. C., To, Ka Fai, Ahn, Myung Ju, Ng, Quan Sing, Lin, Jin-Ching, Swaby, Ramona F., Gause, Christine, Saraf, Sanatan, Chan, Anthony T. C., Lam, Elaine, Tannir, Nizar M., Meric-Bernstam, Funda, Gross, Matt, MacKinnon, Andy, Whiting, Sam, Voss, Martin, Yu, Evan Y., Albertini, Mark R., Ranheim, Erik A., Hank, Jacquelyn A., Zuleger, Cindy, McFarland, Thomas, Collins, Jennifer, Clements, Erin, Weber, Sharon, Weigel, Tracey, Neuman, Heather, Hartig, Greg, Mahvi, David, Henry, MaryBeth, Gan, Jacek, Yang, Richard, Carmichael, Lakeesha, Kim, KyungMann, Gillies, Stephen D., Sondel, Paul M., Subbiah, Vivek, Noffsinger, Lori, Hendricks, Kyle, Bosch, Marnix, Lee, Jay M., Lee, Mi-Heon, Goldman, Jonathan W., Baratelli, Felicita E., Schaue, Dorthe, Wang, Gerald, Rosen, Frances, Yanagawa, Jane, Walser, Tonya C., Lin, Ying Q., Adams, Sharon, Marincola, Franco M., Tumeh, Paul C., Abtin, Fereidoun, Suh, Robert, Reckamp, Karen, Wallace, William D., Zeng, Gang, Elashoff, David A., Sharma, Sherven, Dubinett, Steven M., Pavlick, Anna C., Gastman, Brian, Hanks, Brent, Keler, Tibor, Davis, Tom, Vitale, Laura A., Sharon, Elad, Morishima, Chihiro, Cheever, Martin, Heery, Christopher R., Kim, Joseph W., Lamping, Elizabeth, Marte, Jennifer, McMahon, Sheri, Cordes, Lisa, Fakhrejahani, Farhad, Madan, Ravi, Salazar, Rachel, Zhang, Maggie, Helwig, Christoph, Gulley, James L, Li, Roger, Amrhein, John, Cohen, Zvi, Champagne, Monique, Kamat, Ashish, Aznar, M. Angela, Labiano, Sara, Diaz-Lagares, Angel, Esteller, Manel, Sandoval, Juan, Barbee, Susannah D., Bellovin, David I., Timmer, John C., Wondyfraw, Nebiyu, Johnson, Susan, Park, Johanna, Chen, Amanda, Mkrtichyan, Mikayel, Razai, Amir S., Jones, Kyle S., Hata, Chelsie Y., Gonzalez, Denise, Deveraux, Quinn, Eckelman, Brendan P., Borges, Luis, Bhardwaj, Rukmini, Puri, Raj K., Suzuki, Akiko, Leland, Pamela, Joshi, Bharat H., Bartkowiak, Todd, Jaiswal, Ashvin, Ager, Casey, Ai, Midan, Budhani, Pratha, Chin, Renee, Hong, David, Curran, Michael, Hastings, William D., Pinzon-Ortiz, Maria, Murakami, Masato, Dobson, Jason R., Quinn, David, Wagner, Joel P., Rong, Xianhui, Shaw, Pamela, Dammassa, Ernesta, Guan, Wei, Dranoff, Glenn, Cao, Alexander, Fulton, Ross B., Leonardo, Steven, Fraser, Kathryn, Kangas, Takashi O., Ottoson, Nadine, Bose, Nandita, Huhn, Richard D., Graff, Jeremy, Lowe, Jamie, Gorden, Keith, Uhlik, Mark, O’Neill, Thomas, Widger, Jenifer, Crocker, Andrea, He, Li-Zhen, Weidlick, Jeffrey, Sundarapandiyan, Karuna, Ramakrishna, Venky, Storey, James, Thomas, Lawrence J., Goldstein, Joel, Marsh, Henry C., Grailer, Jamison, Gilden, Julia, Stecha, Pete, Garvin, Denise, Hartnett, Jim, Fan, Frank, Cong, Mei, Cheng, Zhi-jie Jey, Hinner, Marlon J., Aiba, Rachida-Siham Bel, Schlosser, Corinna, Jaquin, Thomas, Allersdorfer, Andrea, Berger, Sven, Wiedenmann, Alexander, Matschiner, Gabriele, Schüler, Julia, Moebius, Ulrich, Rothe, Christine, Shane, Olwill A., Horton, Brendan, Spranger, Stefani, Moreira, Dayson, Adamus, Tomasz, Zhao, Xingli, Swiderski, Piotr, Pal, Sumanta, Kortylewski, Marcin, Kosmides, Alyssa, Necochea, Kevin, Shukla, Sachet A., Patsoukis, Nikolaos, Chaudhri, Apoorvi, Pham, Hung, Hua, Ping, Bu, Xia, Zhu, Baogong, Hacohen, Nir, Wu, Catherine J., Fritsch, Edward, Freeman, Gordon J., Moran, Amy E., Polesso, Fanny, Lukaesko, Lisa, Rådestad, Emelie, Egevad, Lars, Sundberg, Berit, Henningsohn, Lars, Levitsky, Victor, Rafelson, William, Reagan, John L., Fast, Loren, Sasikumar, Pottayil, Sudarshan, Naremaddepalli, Ramachandra, Raghuveer, Gowda, Nagesh, Samiulla, Dodheri, Chandrasekhar, Talapaneni, Adurthi, Sreenivas, Mani, Jiju, Nair, Rashmi, Dhudashia, Amit, Gowda, Nagaraj, Ramachandra, Murali, Sankin, Alexander, Gartrell, Benjamin, Cumberbatch, Kerwin, Huang, Hongying, Stern, Joshua, Schoenberg, Mark, Zang, Xingxing, Swanson, Ryan, Kornacker, Michael, Evans, Lawrence, Rickel, Erika, Wolfson, Martin, Valsesia-Wittmann, Sandrine, Shekarian, Tala, Simard, François, Nailo, Rodrigo, Dutour, Aurélie, Jallas, Anne-Catherine, Caux, Christophe, Marabelle, Aurélien, Sullivan, Ryan, McDermott, David, Arora, Kshitij S., Desai, Niyati, Kulkarni, Anupriya, Rajurkar, Mihir, Rivera, Miguel, Deshpande, Vikram, Bellmunt, Joaquim, Yee, Andrew, Raje, Noopur, Choueiri, Toni, Signoretti, Sabina, Mahoney, Kathleen, and Boussiotis, Vassiliki

Abstract

Version of Record

Published
2016
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26. CD11cAlveolar Macrophages are a Source of IL-23 During Lipopolysaccharide-Induced Acute Lung Injury

Author

Bosmann, Markus, Grailer, Jamison J., Russkamp, Norman F., Ruemmler, Robert, Zetoune, Firas S., Sarma, J. Vidya, and Ward, Peter A.

Abstract

Acute lung injury (ALI) is a severe pulmonary disease causing high numbers of fatalities worldwide. Innate immune responses are an integral part of the pathophysiologic events during ALI. Interleukin 23 (IL-23) is a proinflammatory mediator known to direct the inflammatory responses in various settings of infection, autoimmunity, and cancer. Interleukin 23 has been associated with proliferation and effector functions in TH17 cells. Surprisingly, little is known about production of IL-23 during ALI. In this study, we found expression of mRNA for IL-23p19 to be 10-fold elevated in lung homogenates of C57BL6 mice after lipopolysaccharide (LPS)–induced ALI. Likewise, concentrations of IL-23 significantly increased in bronchoalveolar lavage fluids. Experiments with IL-23–deficient mice showed that endogenous IL-23 was required for production of IL-17A during LPS-ALI. CD11c-diphtheria toxin receptor transgenic mice were used to selectively deplete CD11ccells, the data suggesting that IL-23 production is dependent at least in part on CD11ccells during ALI. No alterations of IL-23 levels were observed in Rag-1–deficient mice as compared with wild-type C57BL6 mice following ALI. The mouse alveolar macrophage cell line, MH-S, as well as primary alveolar macrophages displayed abundant surface expression of CD11c. Activation of these macrophages by LPS resulted in release of IL-23 in vitro. Our findings identify CD11cmacrophages in the lung are likely an important source of IL-23 during ALI, which may be helpful for better understanding of this disease.

Published
2013
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28. Multifunctional Stable and pH-Responsive Polymer Vesicles Formed by Heterofunctional Triblock Copolymer for Targeted Anticancer Drug Delivery and Ultrasensitive MR Imaging

Author

Yang, Xiaoqiang, Grailer, Jamison J., Rowland, Ian J., Javadi, Alireza, Hurley, Samuel A., Matson, Vyara Z., Steeber, Douglas A., and Gong, Shaoqin

Abstract

A multifunctional stable and pH-responsive polymer vesicle nanocarrier system was developed for combined tumor-targeted delivery of an anticancer drug and superparamagnetic iron oxide (SPIO) nanoparticles (NPs). These multifunctional polymer vesicles were formed by heterofunctional amphiphilic triblock copolymers, that is, R (folate (FA) or methoxy)-poly(ethylene glycol)(Mw:5000)-poly(glutamate hydrozone doxorubicin)-poly(ethylene glycol) (Mw:2000)-acrylate (i.e., R (FA or methoxy)-PEG114-P(Glu-Hyd-DOX)-PEG46-acrylate). The amphiphilic triblock copolymers can self-assemble into stable vesicles in aqueous solution. It was found that the long PEG segments were mostly segregated into the outer hydrophilic PEG layers of the vesicles, thereby providing active tumor targeting viaFA, while the short PEG segments were mostly segregated into the inner hydrophilic PEG layer of the vesicles, thereby making it possible to cross-link the inner PEG layer viathe acrylate groups for enhanced in vivostability. The therapeutic drug, DOX, was conjugated onto the polyglutamate segment, which formed the hydrophobic membrane of the vesicles using a pH-sensitive hydrazone bond to achieve pH-responsive drug release, while the hydrophilic SPIO NPs were encapsulated into the aqueous core of the stable vesicles, allowing for ultrasensitive magnetic resonance imaging (MRI) detection. The SPIO/DOX-loaded vesicles demonstrated a much higher r2relaxivity value than Feridex, a commercially available SPIO-based T2contrast agent, which was attributed to the high SPIO NPs loading level and the SPIO clustering effect in the aqueous core of the vesicles. Results from flow cytometry and confocal laser scanning microscopy (CLSM) analysis showed that FA-conjugated vesicles exhibited higher cellular uptake than FA-free vesicles which also led to higher cytotoxicity. Thus, these tumor-targeting multifunctional SPIO/DOX-loaded vesicles will provide excellent in vivostability, pH-controlled drug release, as well as enhanced MRI contrast, thereby making targeted cancer therapy and diagnosis possible.

Published
2010
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29. IMPROVED RENAL ALLOGRAFT SURVIVAL FOLLOWING DONORSPECIFIC TRANSFUSIONS

Author

BURLINGHAM, W. J., GRAILER, A., SPARKS-MACKETY, E. M. F., SONDEL, P. M., and SOLLINGER, H. W.

Abstract

Early graft rejection crises in renal transplant patients pretreated with donor-specific transfusions (DST) have been attributed to an antibody-mediated reaction, or an in situ primed lymphocyte test (PLT) reaction in the grafted kidney resulting from priming of recipient T cells. To test these hypotheses, we analyzed the mixed lymphocyte culture (MLC) response to donor stimulator cells in 18 DST + azathioprine (AZA)-treated patients, including 7 with living-nonrelated donors (2 HLA-hap-lotype mismatch) and 11 with living-related donors (1 HLA-haplotype mismatch). Studies of the kinetics of anti-donor MLC responses of PBL obtained from patients before and after DST + AZA treatment revealed shifts in the magnitude and timing of antidonor MLC response. We found an increased peak MLC response to donor and/or third-party in 6/18 patients, 4 of whom had early rejection crises; the other 2 patients had blocking factors in their post-DST plasma that strongly (57− 71) inhibited their MLC response. Plasma factors were implicated in the mechanism of early graft crisis, in that patients with an enhanced MLC response in the presence of post-DST plasma showed a significantly (P<.02) shorter time to first rejection episodes as compared with patients with plasma blocking factors. Finally, we confirmed the findings of others that a significant proportion (7/18) of DST + AZA-treated patients had a decreased MLC response. Although such patients experienced classic (2nd week or later) rejection episodes, none had a DST-type (<3 day) crisis. Our data supports the concept of T cell priming by DST, and suggests that patients who fail to develop concomitant suppressor cells or humoral blocking factors will develop a rapid onset cellular rejection crisis in the transplanted kidney.

Published
1987

30. DONORSPECIFIC CYTOTOXIC T LYMPHOCYTE HYPORESPONSIVENESS FOLLOWING RENAL TRANSPLANTATION IN PATIENTS PRETREATED WITH DONORSPECIFIC TRANSFUSIONS

Author

GRAILER, ALAN P., SOLLINGER, HANS W., KAWAMURA, TAKENORI, and BURLINGHAM, WILLIAM J.

Abstract

Our purpose was to investigate the mechanism of the continuing beneficial effect of donor-specific transfusions in the cyclosporine era. We describe the development of donor-specific cytotoxic T lymphocyte hypore-sponsiveness in peripheral blood lymphocytes obtained up to 2 years posttransplant in patients preconditioned with 3 DST plus azathioprine. In a group of 12 such patients, hyporesponsiveness developed gradually, becoming detectable in some patients as early as 1 month posttransplant and becoming statistically significant for the entire group at 9–12 months posttransplant. A complete specificity for donor alloantigens was seen in the hyporesponsiveness of some patients; in others, partial suppression of the response to a third party HLA-mismatched control was also seen. Although slight suppression of the mixed lymphocyte culture response was seen in some patients, overall there were no statistically significant differences in MLC responses to control or donor stimulators at any time point posttransplant as compared with pretransplant, pre-DST.

Published
1991

33. Evidence for a possible Th2 bias in human renal transplant tolerance.

Author

Kusaka S, Grailer AP, Fechner JH Jr, and Burlingham WJ

Subjects
Adult, CD4-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Clone Cells, Female, Flow Cytometry, Follow-Up Studies, Humans, Interleukin-2 pharmacology, Lymphocyte Culture Test, Mixed, Male, Recombinant Proteins pharmacology, T-Lymphocytes drug effects, Time Factors, Immune Tolerance, Kidney Transplantation immunology, Lymphocytes immunology, T-Lymphocytes immunology
Published
1995

34. HLA-A2-specific antibody production in severe combined immunodeficient mice reconstituted with human peripheral blood leukocytes from HLA-presensitized donors.

Author

Niguma T, DeVito LD, Grailer AP, Fechner JH Jr, Sollinger HW, and Burlingham WJ

Subjects
Animals, Female, Histocompatibility Testing, Humans, Immunotherapy, Adoptive, Isoantigens immunology, Lymphocyte Activation, Mice, Mice, SCID, Antibody Formation, B-Lymphocytes immunology, HLA-A2 Antigen immunology, Immunoglobulin G biosynthesis, Skin Transplantation immunology
Published
1993

35. Inhibition of both MLC and in vitro IgG memory response to tetanus toxoid by RS-61443.

Author

Burlingham WJ, Grailer AP, Hullett DA, and Sollinger HW

Subjects
Dose-Response Relationship, Drug, Humans, Immunoglobulin G biosynthesis, Immunosuppressive Agents, In Vitro Techniques, Lymphocyte Culture Test, Mixed, Mycophenolic Acid pharmacology, T-Lymphocytes immunology, Tetanus Toxoid immunology, Immunologic Memory drug effects, Lymphocyte Activation drug effects, Mycophenolic Acid analogs & derivatives
Published
1991

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