Your search keyword '"Kenkel, Justin A."' showing total 48 results

1. Lymph node colonization induces tumor-immune tolerance to promote distant metastasis

Author

Reticker-Flynn, Nathan E., Zhang, Weiruo, Belk, Julia A., Basto, Pamela A., Escalante, Nichole K., Pilarowski, Genay O.W., Bejnood, Alborz, Martins, Maria M., Kenkel, Justin A., Linde, Ian L., Bagchi, Sreya, Yuan, Robert, Chang, Serena, Spitzer, Matthew H., Carmi, Yaron, Cheng, Jiahan, Tolentino, Lorna L., Choi, Okmi, Wu, Nancy, Kong, Christina S., Gentles, Andrew J., Sunwoo, John B., Satpathy, Ansuman T., Plevritis, Sylvia K., and Engleman, Edgar G.

Published

2022

2. Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, Prestwood, Tyler R, Bhattacharya, Nupur, Sun, Fionna, Kenkel, Justin A, Davidson, Matthew G, Shen, Lei, Zuniga, Luis A, Seeley, E Scott, Pai, Reetesh, Choi, Okmi, Tolentino, Lorna, Wang, Jinshan, Napoli, Joseph L, and Engleman, Edgar G

Subjects

Biomedical and Clinical Sciences, Immunology, Colo-Rectal Cancer, Nutrition, Digestive Diseases, Cancer, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Inflammatory and immune system, Adenoma, Adenomatous Polyposis Coli, Animals, Antineoplastic Agents, Cell Transformation, Neoplastic, Colorectal Neoplasms, Dendritic Cells, Enterocolitis, Genes, APC, Humans, Mice, Phenotype, Th17 Cells, Tretinoin, Tumor Burden, Vitamin A, Vitamin A Deficiency, Oncology and Carcinogenesis, Pharmacology and Pharmaceutical Sciences, Oncology and carcinogenesis

Abstract

Chronic intestinal inflammation accompanies familial adenomatous polyposis (FAP) and is a major risk factor for colorectal cancer in patients with this disease, but the cause of such inflammation is unknown. Because retinoic acid (RA) plays a critical role in maintaining immune homeostasis in the intestine, we hypothesized that altered RA metabolism contributes to inflammation and tumorigenesis in FAP. To assess this hypothesis, we analyzed RA metabolism in the intestines of patients with FAP as well as APCMin/+ mice, a model that recapitulates FAP in most respects. We also investigated the impact of intestinal RA repletion and depletion on tumorigenesis and inflammation in APCMin/+ mice. Tumors from both FAP patients and APCMin/+ mice displayed striking alterations in RA metabolism that resulted in reduced intestinal RA. APCMin/+ mice placed on a vitamin A-deficient diet exhibited further reductions in intestinal RA with concomitant increases in inflammation and tumor burden. Conversely, restoration of RA by pharmacologic blockade of the RA-catabolizing enzyme CYP26A1 attenuated inflammation and diminished tumor burden. To investigate the effect of RA deficiency on the gut immune system, we studied lamina propria dendritic cells (LPDC) because these cells play a central role in promoting tolerance. APCMin/+ LPDCs preferentially induced Th17 cells, but reverted to inducing Tregs following restoration of intestinal RA in vivo or direct treatment of LPDCs with RA in vitro These findings demonstrate the importance of intestinal RA deficiency in tumorigenesis and suggest that pharmacologic repletion of RA could reduce tumorigenesis in FAP patients. Cancer Immunol Res; 4(11); 917-26. ©2016 AACR.

Published

2016

3. Normalizing Microbiota-Induced Retinoic Acid Deficiency Stimulates Protective CD8+ T Cell-Mediated Immunity in Colorectal Cancer

Author

Bhattacharya, Nupur, Yuan, Robert, Prestwood, Tyler R, Penny, Hweixian Leong, DiMaio, Michael A, Reticker-Flynn, Nathan E, Krois, Charles R, Kenkel, Justin A, Pham, Tho D, Carmi, Yaron, Tolentino, Lorna, Choi, Okmi, Hulett, Reyna, Wang, Jinshan, Winer, Daniel A, Napoli, Joseph L, and Engleman, Edgar G

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Prevention, Colo-Rectal Cancer, Autoimmune Disease, Nutrition, Digestive Diseases, Inflammatory Bowel Disease, Cancer, 2.1 Biological and endogenous factors, Aetiology, Animals, CD8-Positive T-Lymphocytes, Carcinogenesis, Colon, Colorectal Neoplasms, Female, Humans, Mice, Mice, Inbred C57BL, Microbiota, Retinoic Acid 4-Hydroxylase, Signal Transduction, Tretinoin, Up-Regulation

Abstract

Although all-trans-retinoic acid (atRA) is a key regulator of intestinal immunity, its role in colorectal cancer (CRC) is unknown. We found that mice with colitis-associated CRC had a marked deficiency in colonic atRA due to alterations in atRA metabolism mediated by microbiota-induced intestinal inflammation. Human ulcerative colitis (UC), UC-associated CRC, and sporadic CRC specimens have similar alterations in atRA metabolic enzymes, consistent with reduced colonic atRA. Inhibition of atRA signaling promoted tumorigenesis, whereas atRA supplementation reduced tumor burden. The benefit of atRA treatment was mediated by cytotoxic CD8(+) T cells, which were activated due to MHCI upregulation on tumor cells. Consistent with these findings, increased colonic expression of the atRA-catabolizing enzyme, CYP26A1, correlated with reduced frequencies of tumoral cytotoxic CD8(+) T cells and with worse disease prognosis in human CRC. These results reveal a mechanism by which microbiota drive colon carcinogenesis and highlight atRA metabolism as a therapeutic target for CRC.

Published

2016

4. Immune-stimulating antibody conjugates elicit robust myeloid activation and durable antitumor immunity

Author

Ackerman, Shelley E., Pearson, Cecelia I., Gregorio, Joshua D., Gonzalez, Joseph C., Kenkel, Justin A., Hartmann, Felix J., Luo, Angela, Ho, Po Y., LeBlanc, Heidi, Blum, Lisa K., Kimmey, Samuel C., Luo, Andrew, Nguyen, Murray L., Paik, Jason C., Sheu, Lauren Y., Ackerman, Benjamin, Lee, Arthur, Li, Hai, Melrose, Jennifer, Laura, Richard P., Ramani, Vishnu C., Henning, Karla A., Jackson, David Y., Safina, Brian S., Yonehiro, Grant, Devens, Bruce H., Carmi, Yaron, Chapin, Steven J., Bendall, Sean C., Kowanetz, Marcin, Dornan, David, Engleman, Edgar G., and Alonso, Michael N.

Published

2021

5. Allogeneic IgG combined with dendritic cell stimuli induce antitumour T-cell immunity

Author

Carmi, Yaron, Spitzer, Matthew H, Linde, Ian L, Burt, Bryan M, Prestwood, Tyler R, Perlman, Nicola, Davidson, Matthew G, Kenkel, Justin A, Segal, Ehud, Pusapati, Ganesh V, Bhattacharya, Nupur, and Engleman, Edgar G

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, 5.2 Cellular and gene therapies, Cancer, Animals, Antibodies, Neoplasm, Antigens, Neoplasm, CD40 Antigens, Dendritic Cells, Disease Models, Animal, Female, Immunoglobulin G, Isoantibodies, Lymphocyte Activation, Male, Mice, Neoplasm Metastasis, Neoplasm Transplantation, Neoplasms, Receptors, IgG, T-Lymphocytes, Tumor Necrosis Factor-alpha, General Science & Technology

Abstract

Whereas cancers grow within host tissues and evade host immunity through immune-editing and immunosuppression, tumours are rarely transmissible between individuals. Much like transplanted allogeneic organs, allogeneic tumours are reliably rejected by host T cells, even when the tumour and host share the same major histocompatibility complex alleles, the most potent determinants of transplant rejection. How such tumour-eradicating immunity is initiated remains unknown, although elucidating this process could provide the basis for inducing similar responses against naturally arising tumours. Here we find that allogeneic tumour rejection is initiated in mice by naturally occurring tumour-binding IgG antibodies, which enable dendritic cells (DCs) to internalize tumour antigens and subsequently activate tumour-reactive T cells. We exploited this mechanism to treat autologous and autochthonous tumours successfully. Either systemic administration of DCs loaded with allogeneic-IgG-coated tumour cells or intratumoral injection of allogeneic IgG in combination with DC stimuli induced potent T-cell-mediated antitumour immune responses, resulting in tumour eradication in mouse models of melanoma, pancreas, lung and breast cancer. Moreover, this strategy led to eradication of distant tumours and metastases, as well as the injected primary tumours. To assess the clinical relevance of these findings, we studied antibodies and cells from patients with lung cancer. T cells from these patients responded vigorously to autologous tumour antigens after culture with allogeneic-IgG-loaded DCs, recapitulating our findings in mice. These results reveal that tumour-binding allogeneic IgG can induce powerful antitumour immunity that can be exploited for cancer immunotherapy.

Published

2015

6. A Macrophage Colony-Stimulating-Factor-Producing γδ T Cell Subset Prevents Malarial Parasitemic Recurrence

Author

Mamedov, Murad R., Scholzen, Anja, Nair, Ramesh V., Cumnock, Katherine, Kenkel, Justin A., Oliveira, Jose Henrique M., Trujillo, Damian L., Saligrama, Naresha, Zhang, Yue, Rubelt, Florian, Schneider, David S., Chien, Yueh-hsiu, Sauerwein, Robert W., and Davis, Mark M.

Published

2018

7. 720 A phase 1/2 study of BDC-3042, a novel Dectin-2 agonistic antibody, in patients with advanced cancers

Author

Giordano, Antonio, primary, Dumbrava, Ecaterina, additional, Parikh, Aparna R, additional, Kenkel, Justin, additional, Cai, Danlin, additional, Demady, Damon, additional, Xu, Lu, additional, Alonso, Michael N, additional, Ackerman, Shelley E, additional, Perez, Edith A, additional, and Wilks, Sharon, additional

Published

2023

8. Nucleic Acid-Targeting Pathways Promote Inflammation in Obesity-Related Insulin Resistance

Author

Revelo, Xavier S., Ghazarian, Magar, Chng, Melissa Hui Yen, Luck, Helen, Kim, Justin H., Zeng, Kejing, Shi, Sally Y., Tsai, Sue, Lei, Helena, Kenkel, Justin, Liu, Chih Long, Tangsombatvisit, Stephanie, Tsui, Hubert, Sima, Corneliu, Xiao, Changting, Shen, Lei, Li, Xiaoying, Jin, Tianru, Lewis, Gary F., Woo, Minna, Utz, Paul J., Glogauer, Michael, Engleman, Edgar, Winer, Shawn, and Winer, Daniel A.

Published

2016

9. Abstract 2964: Targeting tumor-associated macrophages to enhance anti-tumor immunity with the Dectin-2 agonistic antibody BDC-3042

Author

Kenkel, Justin A., primary, Xiao, Fang, additional, Ho, Po Y., additional, Nolin, Jess L., additional, Gadkari, Rishali K., additional, Torrez, Laughing Bear, additional, Omstead, David T., additional, McEachin, Katelynn A., additional, Ptacek, Jason, additional, Grgich, Rachel, additional, Pearson, Cecelia I., additional, Chun, Stefan, additional, Kreder, Cindy L., additional, Henning, Karla A., additional, Kim, Han K., additional, Xu, Lu, additional, Chapin, Steven J., additional, Alonso, Michael N., additional, and Ackerman, Shelley E., additional

Published

2023

10. Supplementary Figure 5 from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

11. Supplementary Figure 1 from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

12. Data from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

13. Supplementary Figure 2 from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

14. Supplementary Figure Legends from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

15. Supplementary Figure 4 from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

16. Supplementary Figure 3 from Restoring Retinoic Acid Attenuates Intestinal Inflammation and Tumorigenesis in APCMin/+ Mice

Author

Penny, Hweixian Leong, primary, Prestwood, Tyler R., primary, Bhattacharya, Nupur, primary, Sun, Fionna, primary, Kenkel, Justin A., primary, Davidson, Matthew G., primary, Shen, Lei, primary, Zuniga, Luis A., primary, Seeley, E. Scott, primary, Pai, Reetesh, primary, Choi, Okmi, primary, Tolentino, Lorna, primary, Wang, Jinshan, primary, Napoli, Joseph L., primary, and Engleman, Edgar G., primary

Published

2023

17. Supplementary Materials and Methods from An Immunosuppressive Dendritic Cell Subset Accumulates at Secondary Sites and Promotes Metastasis in Pancreatic Cancer

Author

Kenkel, Justin A., primary, Tseng, William W., primary, Davidson, Matthew G., primary, Tolentino, Lorna L., primary, Choi, Okmi, primary, Bhattacharya, Nupur, primary, Seeley, E. Scott, primary, Winer, Daniel A., primary, Reticker-Flynn, Nathan E., primary, and Engleman, Edgar G., primary

Published

2023

18. Supplementary Figures 1-4 from Ablative Tumor Radiation Can Change the Tumor Immune Cell Microenvironment to Induce Durable Complete Remissions

Author

Filatenkov, Alexander, primary, Baker, Jeanette, primary, Mueller, Antonia M.S., primary, Kenkel, Justin, primary, Ahn, G-One, primary, Dutt, Suparna, primary, Zhang, Nigel, primary, Kohrt, Holbrook, primary, Jensen, Kent, primary, Dejbakhsh-Jones, Sussan, primary, Shizuru, Judith A., primary, Negrin, Robert N., primary, Engleman, Edgar G., primary, and Strober, Samuel, primary

Published

2023

19. Supplementary Figure Legends from An Immunosuppressive Dendritic Cell Subset Accumulates at Secondary Sites and Promotes Metastasis in Pancreatic Cancer

Author

Kenkel, Justin A., primary, Tseng, William W., primary, Davidson, Matthew G., primary, Tolentino, Lorna L., primary, Choi, Okmi, primary, Bhattacharya, Nupur, primary, Seeley, E. Scott, primary, Winer, Daniel A., primary, Reticker-Flynn, Nathan E., primary, and Engleman, Edgar G., primary

Published

2023

20. Data from An Immunosuppressive Dendritic Cell Subset Accumulates at Secondary Sites and Promotes Metastasis in Pancreatic Cancer

Author

Kenkel, Justin A., primary, Tseng, William W., primary, Davidson, Matthew G., primary, Tolentino, Lorna L., primary, Choi, Okmi, primary, Bhattacharya, Nupur, primary, Seeley, E. Scott, primary, Winer, Daniel A., primary, Reticker-Flynn, Nathan E., primary, and Engleman, Edgar G., primary

Published

2023

21. Supplementary Figures S1-8 from An Immunosuppressive Dendritic Cell Subset Accumulates at Secondary Sites and Promotes Metastasis in Pancreatic Cancer

Author

Kenkel, Justin A., primary, Tseng, William W., primary, Davidson, Matthew G., primary, Tolentino, Lorna L., primary, Choi, Okmi, primary, Bhattacharya, Nupur, primary, Seeley, E. Scott, primary, Winer, Daniel A., primary, Reticker-Flynn, Nathan E., primary, and Engleman, Edgar G., primary

Published

2023

22. 1348 BDC-3042: A Dectin-2 agonistic antibody for tumor-associated macrophage-directed immunotherapy

Author

Kenkel, Justin, primary, Gadkari, Rishali, additional, Nolin, Jess, additional, Xiao, Fang, additional, Ho, Po, additional, Kreder, Cindy, additional, Torrez, Laughing Bear, additional, Omstead, David, additional, McEachin, Katelynn, additional, Ptacek, Jason, additional, Xu, Lu, additional, Nguyen, Duy, additional, Henning, Karla, additional, Chapin, Steven, additional, Dornan, David, additional, Alonso, Michael, additional, and Ackerman, Shelley, additional

Published

2022

23. Abstract 2883: Dectin-2 agonist antibodies reprogram tumor-associated macrophages to drive anti-tumor immunity

Author

Kenkel, Justin A., primary, Ho, Po Y., additional, Henning, Karla A., additional, Kreder, Cindy L., additional, Nolin, Jess L., additional, Kongara, Sameera, additional, Chapin, Steven J., additional, Husain, Amreen, additional, Kowanetz, Marcin, additional, Engleman, Edgar G., additional, Alonso, Michael N., additional, Dornan, David, additional, and Ackerman, Shelley E., additional

Published

2022

24. Abstract 4252: PD-L1-targeted ISAC combines myeloid cell activation, immune-checkpoint inhibition and ADCP to improve anti-tumor efficacy over anti-PD-L1 antibodies in preclinical models

Author

Kenkel, Justin A., primary, Gadkari, Rishali, additional, Ho, Po Y., additional, Blum, Lisa K., additional, Kudirka, Romas, additional, Henning, Karla A., additional, Mallet, William G., additional, Melrose, Jennifer E., additional, Sarma, Ganapathy, additional, Chapin, Steven J., additional, Zhou, Matthew, additional, Deol, Suprit, additional, Kreder, Cindy, additional, Shen, Yuyi, additional, Hug, Bruce, additional, Anand, Puneet, additional, Lee, Arthur, additional, Li, Hai, additional, Ackerman, Shelley E., additional, Safina, Brian S., additional, Dornan, David, additional, Alonso, Michael N., additional, and Kowanetz, Marcin, additional

Published

2022

25. 782 PD-L1-targeted ISAC combines myeloid cell activation, immune-checkpoint inhibition and ADCP to improve anti-tumor efficacy over anti-PD-L1 antibodies in preclinical models

Author

Kenkel, Justin, primary, Gadkari, Rishali, additional, Henning, Karla, additional, Kudirka, Romas, additional, Mallet, William, additional, Ho, Po, additional, Sarma, Ganapathy, additional, Chapin, Steven, additional, Bogaert, Liz, additional, Melrose, Jennifer, additional, Zhou, Matthew, additional, Deol, Suprit, additional, Kreder, Cindy, additional, Shen, Yuyi, additional, Anand, Puneet, additional, Lee, Arthur, additional, Li, Hai, additional, Ackerman, Shelley, additional, Safina, Brian, additional, Dornan, David, additional, Alonso, Michael, additional, and Kowanetz, Marcin, additional

Published

2021

26. 862 Dectin-2, a novel target for tumor macrophage reprogramming in cancer immunotherapy

Author

Kenkel, Justin, primary, Ho, Po, additional, Kongara, Sameera, additional, Henning, Karla, additional, Kreder, Cindy, additional, Nolin, Jess, additional, Chapin, Steven, additional, Kowanetz, Marcin, additional, Alonso, Michael, additional, Ackerman, Shelley, additional, Engleman, Edgar, additional, and Dornan, David, additional

Published

2021

27. B cells promote insulin resistance through modulation of T cells and production of pathogenic IgG antibodies

Author

Winer, Daniel A., Winer, Shawn, Shen, Lei, Wadia, Persis P., Yantha, Jason, Paltser, Geoffrey, Tsui, Hubert, Wu, Ping, Davidson, Matthew G., Alonso, Michael N., Leong, Hwei X., Glassford, Alec, Caimol, Maria, Kenkel, Justin A., Tedder, Thomas F., McLaughlin, Tracey, Miklos, David B., Dosch, H.-Michael, and Engleman, Edgar G.

Subjects

Physiological aspects, Development and progression, Properties, B cells -- Properties -- Physiological aspects, Glucose metabolism -- Physiological aspects, Insulin resistance -- Development and progression -- Physiological aspects, Immunoglobulin G -- Properties -- Physiological aspects, T cells -- Properties -- Physiological aspects

Abstract

Obesity and its associated metabolic abnormalities, including insulin resistance and type 2 diabetes, have reached epidemic proportions, adversely affecting health and global mortality rates (1). Multiple factors contribute to reduced [...], Chronic inflammation characterized by T cell and macrophage infiltration of visceral adipose tissue (VAT) is a hallmark of obesity-associated insulin resistance and glucose intolerance. Here we show a fundamental pathogenic role for B cells in the development of these metabolic abnormalities. B cells accumulate in VAT in diet-induced obese (DIO) mice, and DIO mice lacking B cells are protected from disease despite weight gain. B cell effects on glucose metabolism are mechanistically linked to the activation of proinflammatory macrophages and T cells and to the production of pathogenic IgG antibodies. Treatment with a B cell-depleting CD20 antibody attenuates disease, whereas transfer of IgG from DIO mice rapidly induces insulin resistance and glucose intolerance. Moreover, insulin resistance in obese humans is associated with a unique profile of IgG autoantibodies. These results establish the importance of B cells and adaptive immunity in insulin resistance and suggest new diagnostic and therapeutic modalities for managing the disease.

Published

2011

28. Targeting Glycolysis in Macrophages Confers Protection Against Pancreatic Ductal Adenocarcinoma

Author

Penny, Hweixian Leong, primary, Sieow, Je Lin, additional, Gun, Sin Yee, additional, Lau, Mai Chan, additional, Lee, Bernett, additional, Tan, Jasmine, additional, Phua, Cindy, additional, Toh, Florida, additional, Nga, Yvonne, additional, Yeap, Wei Hseun, additional, Janela, Baptiste, additional, Kumar, Dilip, additional, Chen, Hao, additional, Yeong, Joe, additional, Kenkel, Justin A., additional, Pang, Angela, additional, Lim, Diana, additional, Toh, Han Chong, additional, Hon, Tony Lim Kiat, additional, Johnson, Christopher I., additional, Khameneh, Hanif Javanmard, additional, Mortellaro, Alessandra, additional, Engleman, Edgar G., additional, Rotzschke, Olaf, additional, Ginhoux, Florent, additional, Abastado, Jean-Pierre, additional, Chen, Jinmiao, additional, and Wong, Siew Cheng, additional

Published

2021

29. Innate and adaptive immune response to apoptotic cells

Author

Peng, YuFeng, Martin, David A., Kenkel, Justin, Zhang, Kang, Ogden, Carol Anne, and Elkon, Keith B.

Published

2007

30. Immune-stimulating antibody conjugates elicit robust myeloid activation and durable antitumor immunity

Author

Ackerman, Shelley E., primary, Pearson, Cecelia I., additional, Gregorio, Joshua D., additional, Gonzalez, Joseph C., additional, Kenkel, Justin A., additional, Hartmann, Felix J., additional, Luo, Angela, additional, Ho, Po Y., additional, LeBlanc, Heidi, additional, Blum, Lisa K., additional, Kimmey, Samuel C., additional, Luo, Andrew, additional, Nguyen, Murray L., additional, Paik, Jason C., additional, Sheu, Lauren Y., additional, Ackerman, Benjamin, additional, Lee, Arthur, additional, Li, Hai, additional, Melrose, Jennifer, additional, Laura, Richard P., additional, Ramani, Vishnu C., additional, Henning, Karla A., additional, Jackson, David Y., additional, Safina, Brian S., additional, Yonehiro, Grant, additional, Devens, Bruce H., additional, Carmi, Yaron, additional, Chapin, Steven J., additional, Bendall, Sean C., additional, Kowanetz, Marcin, additional, Dornan, David, additional, Engleman, Edgar G., additional, and Alonso, Michael N., additional

Published

2020

31. Enteric Glia Play a Critical Role in Promoting the Development of Colorectal Cancer

Author

Yuan, Robert, primary, Bhattacharya, Nupur, additional, Kenkel, Justin A., additional, Shen, Jeanne, additional, DiMaio, Michael A., additional, Bagchi, Sreya, additional, Prestwood, Tyler R., additional, Habtezion, Aida, additional, and Engleman, Edgar G., additional

Published

2020

32. 605 Systemically administered HER2-targeted ISACs provoke a rapid, local response that engages the innate and adaptive arms of the immune system to eradicate tumors in preclinical models

Author

LeBlanc, Heidi, primary, Pearson, Cecelia, additional, Kenkel, Justin, additional, Blum, LIsa, additional, Ho, Po, additional, Luo, Angela, additional, Laura, Richard, additional, Zhou, Matthew, additional, Gregorio, Joshua, additional, Luo, Andrew, additional, Ackerman, Shelley, additional, Safina, Brian, additional, Dornan, David, additional, Alonso, Michael, additional, and Kowanetz, Marcin, additional

Published

2020

33. Abstract PR04: Lymph node colonization promotes distant tumor metastasis through the induction of tumor-specific immunosuppression

Author

Reticker-Flynn, Nathan E., primary, Basto, Pamela A., additional, Zhang, Weiruo, additional, Bejnood, Alborz, additional, Kenkel, Justin A., additional, Martins, Maria M., additional, Chang, Serena, additional, Gentles, Andrew J., additional, Sunwoo, John B., additional, Plevritis, Sylvia K., additional, and Engleman, Edgar G., additional

Published

2020

34. Lymph Node Colonization Alters the Systemic Immune Response to Enable Metastasis to Distant Tissues

Author

Reticker-Flynn, Nathan Edward, primary, Zhang, Weiruo, additional, Basto, Pamela Antonia, additional, Bejnood, Alborz, additional, Martins, Maria M., additional, Kenkel, Justin A., additional, Linde, Ian L., additional, Bagchi, Sreya, additional, Yuan, Robert, additional, Cheng, Jiahan, additional, Tolentino, Lorna L., additional, Choi, Okmi, additional, Wu, Nancy, additional, Chang, Serena, additional, Kong, Christina, additional, Gentles, Andrew J., additional, Sunwoo, John B., additional, Plevritis, Sylvia K., additional, and Engleman, Edgar G., additional

Published

2020

35. Abstract 1559: TLR7/8 immune-stimulating antibody conjugates elicit robust myeloid activation leading to enhanced effector function and anti-tumor immunity in pre-clinical models

Author

Ackerman, Shelley E., primary, Gonzalez, Joseph C., additional, Gregorio, Josh D., additional, Paik, Jason C., additional, Hartmann, Felix J., additional, Kenkel, Justin A., additional, Lee, Arthur, additional, Luo, Angela, additional, Pearson, Cecelia I., additional, Nguyen, Murray L., additional, Ackerman, Benjamin, additional, Sheu, Lauren Y., additional, Laura, Richard P., additional, Chapin, Steven J., additional, Safina, Brian S., additional, Bendall, Sean C., additional, Dornan, David, additional, Engleman, Edgar G., additional, and Alonso, Michael N., additional

Published

2019

36. Novel M-CSF-producing γδ T cells protect against recurrent malaria

Author

Mamedov, Murad R., primary, Scholzen, Anja, additional, Nair, Ramesh V., additional, Cumnock, Katherine, additional, Kenkel, Justin A., additional, Oliveira, Jose H. M., additional, Trujillo, Damian L., additional, Saligrama, Naresha, additional, Zhang, Yue, additional, Rubelt, Florian, additional, Schneider, David S., additional, Chien, Yueh-hsiu, additional, Sauerwein, Robert, additional, and Davis, Mark M., additional

Published

2018

37. A Macrophage Colony-Stimulating-Factor-Producing gamma delta T Cell Subset Prevents Malarial Parasitemic Recurrence

Author

Mamedov, Murad R., Scholzen, A., Nair, Ramesh V., Cumnock, Katherine, Kenkel, Justin A., Oliveira, Jose Henrique M., Sauerwein, R.W., Davis, Mark M., Mamedov, Murad R., Scholzen, A., Nair, Ramesh V., Cumnock, Katherine, Kenkel, Justin A., Oliveira, Jose Henrique M., Sauerwein, R.W., and Davis, Mark M.

Abstract

Contains fulltext : 187844.pdf (publisher's version ) (Closed access)

Published

2018

38. N‐Carboxyanhydride Polymerization of Glycopolypeptides That Activate Antigen‐Presenting Cells through Dectin‐1 and Dectin‐2

Author

Zhou, Matthew N., primary, Delaveris, Corleone S., additional, Kramer, Jessica R., additional, Kenkel, Justin A., additional, Engleman, Edgar G., additional, and Bertozzi, Carolyn R., additional

Published

2018

39. An Immunosuppressive Dendritic Cell Subset Accumulates at Secondary Sites and Promotes Metastasis in Pancreatic Cancer

Author

Kenkel, Justin A., primary, Tseng, William W., additional, Davidson, Matthew G., additional, Tolentino, Lorna L., additional, Choi, Okmi, additional, Bhattacharya, Nupur, additional, Seeley, E. Scott, additional, Winer, Daniel A., additional, Reticker-Flynn, Nathan E., additional, and Engleman, Edgar G., additional

Published

2017

40. Normalizing Microbiota-Induced Retinoic Acid Deficiency Stimulates Protective CD8 + T Cell-Mediated Immunity in Colorectal Cancer

Author

Bhattacharya, Nupur, primary, Yuan, Robert, additional, Prestwood, Tyler R., additional, Penny, Hweixian Leong, additional, DiMaio, Michael A., additional, Reticker-Flynn, Nathan E., additional, Krois, Charles R., additional, Kenkel, Justin A., additional, Pham, Tho D., additional, Carmi, Yaron, additional, Tolentino, Lorna, additional, Choi, Okmi, additional, Hulett, Reyna, additional, Wang, Jinshan, additional, Winer, Daniel A., additional, Napoli, Joseph L., additional, and Engleman, Edgar G., additional

Published

2016

41. <italic>N</italic>‐Carboxyanhydride Polymerization of Glycopolypeptides That Activate Antigen‐Presenting Cells through Dectin‐1 and Dectin‐2.

Author

Zhou, Matthew N., Delaveris, Corleone S., Kramer, Jessica R., Kenkel, Justin A., Engleman, Edgar G., and Bertozzi, Carolyn R.

Subjects

GLYCAN structure, MOLECULAR weights, POLYMERIZATION, GLYCOCONJUGATES, LECTINS, CANCER vaccines

Abstract

Abstract: The C‐type lectins dectin‐1 and dectin‐2 contribute to innate immunity against microbial pathogens by recognizing their foreign glycan structures. These receptors are promising targets for vaccine development and cancer immunotherapy. However, currently available agonists are heterogeneous glycoconjugates and polysaccharides from natural sources. Herein, we designed and synthesized the first chemically defined ligands for dectin‐1 and dectin‐2. They comprised glycopolypeptides bearing mono‐, di‐, and trisaccharides and were built through polymerization of glycosylated N‐carboxyanhydrides. Through this approach, we achieved glycopolypeptides with high molecular weights and low dispersities. We identified structures that elicit a pro‐inflammatory response through dectin‐1 or dectin‐2 in antigen‐presenting cells. With their native proteinaceous backbones and natural glycosidic linkages, these agonists are attractive for translational applications. [ABSTRACT FROM AUTHOR]

Published

2018

42. Ablative Tumor Radiation Can Change the Tumor Immune Cell Microenvironment to Induce Durable Complete Remissions

Author

Filatenkov, Alexander, primary, Baker, Jeanette, additional, Mueller, Antonia M.S., additional, Kenkel, Justin, additional, Ahn, G-One, additional, Dutt, Suparna, additional, Zhang, Nigel, additional, Kohrt, Holbrook, additional, Jensen, Kent, additional, Dejbakhsh-Jones, Sussan, additional, Shizuru, Judith A., additional, Negrin, Robert N., additional, Engleman, Edgar G., additional, and Strober, Samuel, additional

Published

2015

43. In Vivo T Cell Activation Induces the Formation of CD209+ PDL-2+ Dendritic Cells

Author

Davidson, Matthew G., primary, Alonso, Michael N., additional, Kenkel, Justin A., additional, Suhoski, Megan M., additional, González, Joseph C., additional, Yuan, Robert, additional, and Engleman, Edgar G., additional

Published

2013

44. Th17 Cells Induce Th1-Polarizing Monocyte-Derived Dendritic Cells

Author

Davidson, Matthew G., primary, Alonso, Michael N., additional, Yuan, Robert, additional, Axtell, Robert C., additional, Kenkel, Justin A., additional, Suhoski, Megan M., additional, González, Joseph C., additional, Steinman, Lawrence, additional, and Engleman, Edgar G., additional

Published

2013

45. Development of an Orthotopic Model of Invasive Pancreatic Cancer in an Immunocompetent Murine Host

Author

Tseng, William W., primary, Winer, Daniel, additional, Kenkel, Justin A., additional, Choi, Okmi, additional, Shain, Alan H., additional, Pollack, Jonathan R., additional, French, Randy, additional, Lowy, Andrew M., additional, and Engleman, Edgar G., additional

Published

2010

46. Autoimmunity Stimulated by Adoptively Transferred Dendritic Cells Is Initiated by Both αβ and γδ T Cells but Does Not Require MyD88 Signaling

Author

Martin, David A., primary, Zhang, Kang, additional, Kenkel, Justin, additional, Hughes, Grant, additional, Clark, Edward, additional, Davidson, Anne, additional, and Elkon, Keith B., additional

Published

2007

47. Targeting glycolysis in macrophages confers protection against pancreatic ductal adenocarcinoma

Author

Penny, Hweixian Leong, Sieow, Je Lin, Gun, Sin Yee, Lau, Mai Chan, Lee, Bernett, Tan, Jasmine, Phua, Cindy, Toh, Florida, Nga, Yvonne, Yeap, Wei Hseun, Janela, Baptiste, Kumar, Dilip, Chen, Hao, Yeong, Joe, Kenkel, Justin A., Pang, Angela, Lim, Diana, Toh, Han Chong, Hon, Tony Lim Kiat, Johnson, Christopher I., Khameneh, Hanif Javanmard, Mortellaro, Alessandra, Engleman, Edgar G., Rotzschke, Olaf, Ginhoux, Florent, Abastado, Jean-Pierre, Chen, Jinmiao, Wong, Siew Cheng, Penny, Hweixian Leong, Sieow, Je Lin, Gun, Sin Yee, Lau, Mai Chan, Lee, Bernett, Tan, Jasmine, Phua, Cindy, Toh, Florida, Nga, Yvonne, Yeap, Wei Hseun, Janela, Baptiste, Kumar, Dilip, Chen, Hao, Yeong, Joe, Kenkel, Justin A., Pang, Angela, Lim, Diana, Toh, Han Chong, Hon, Tony Lim Kiat, Johnson, Christopher I., Khameneh, Hanif Javanmard, Mortellaro, Alessandra, Engleman, Edgar G., Rotzschke, Olaf, Ginhoux, Florent, Abastado, Jean-Pierre, Chen, Jinmiao, and Wong, Siew Cheng

48. In Vivo T Cell Activation Induces the Formation of CD209+ PDL-2+ Dendritic Cells.

Author

Davidson, Matthew G., Alonso, Michael N., Kenkel, Justin A., Suhoski, Megan M., González, Joseph C., Yuan, Robert, and Engleman, Edgar G.

Subjects

T cells, DENDRITIC cells, DEVELOPMENTAL biology, CELL growth, CD3 antigen, CYTOKINES, CELL differentiation, PHYSIOLOGY

Abstract

Two critical functions of dendritic cells (DC) are to activate and functionally polarize T cells. Activated T cells can, in turn, influence DC maturation, although their effect on de novo DC development is poorly understood. Here we report that activation of T cells in mice, with either an anti-CD3 antibody or super antigen, drives the rapid formation of CD209+CD11b+CD11c+ MHC II+ DC from monocytic precursors (Mo-DC). GM-CSF is produced by T cells following activation, but surprisingly, it is not required for the formation of CD209+ Mo-DC. CD40L, however, is critical for the full induction of Mo-DC following T cell activation. T cell induced CD209+ Mo-DC are comparable to conventional CD209- DC in their ability to stimulate T cell proliferation. However, in contrast to conventional CD209- DC, CD209+ Mo-DC fail to effectively polarize T cells, as indicated by a paucity of T cell cytokine production. The inability of CD209+ Mo-DC to polarize T cells is partly explained by increased expression of PDL-2, since blockade of this molecule restores some polarizing capacity to the Mo-DC. These findings expand the range of signals capable of driving Mo-DC differentiation in vivo beyond exogenous microbial factors to include endogenous factors produced following T cell activation. [ABSTRACT FROM AUTHOR]

Published

2013