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198 results on '"Foster, Aaron E."'

1. Hypoimmune anti-CD19 chimeric antigen receptor T cells provide lasting tumor control in fully immunocompetent allogeneic humanized mice

Author

Hu, Xiaomeng, Manner, Karl, DeJesus, Rowena, White, Kathy, Gattis, Corie, Ngo, Priscilla, Bandoro, Christopher, Tham, Eleonore, Chu, Elaine Y, Young, Chi, Wells, Frank, Basco, Ronald, Friera, Annabelle, Kangeyan, Divy, Beauchesne, Pascal, Dowdle, William E, Deuse, Tobias, Fry, Terry J, Foster, Aaron E, and Schrepfer, Sonja

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Transplantation, Biotechnology, Cancer, Rare Diseases, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Humans, Mice, Animals, Receptors, Chimeric Antigen, CD47 Antigen, T-Lymphocytes, Neoplasms, Hematopoietic Stem Cell Transplantation, Receptors, Antigen, T-Cell
Abstract

Manufacturing autologous chimeric antigen receptor (CAR) T cell therapeutics is complex, and many patients experience treatment delays or cannot be treated at all. Although current allogeneic CAR products have the potential to overcome manufacturing bottlenecks, they are subject to immune rejection and failure to persist in the host, and thus do not provide the same level of efficacy as their autologous counterparts. Here, we aimed to develop universal allogeneic CAR T cells that evade the immune system and produce a durable response. We generated human hypoimmune (HIP) T cells with disrupted B2M, CIITA, and TRAC genes using CRISPR-Cas9 editing. In addition, CD47 and anti-CD19 CAR were expressed using lentiviral transduction. These allogeneic HIP CD19 CAR T cells were compared to allogeneic CD19 CAR T cells that only expressed the anti-CD19 CAR (allo CAR T). In vitro assays for cancer killing and exhaustion revealed no differences between allo CAR T and HIP CAR T cells, confirming that the HIP edits did not negatively affect T cell performance. Clearance of CD19+ tumors by HIP CAR T cells in immunodeficient NSG mice was comparable to that of allo CAR T cells. In fully immunocompetent humanized mice, HIP CAR T cells significantly outperformed allo CAR T cells, showed improved persistence and expansion, and provided lasting cancer clearance. Furthermore, CD47-targeting safety strategies reliably and specifically eliminated HIP CAR T cells. These findings suggest that universal allogeneic HIP CAR T cell-based therapeutics might overcome the limitations associated with poor persistence of allogeneic CAR T cells and exert durable anti-tumor responses.

Published
2023

5. Abstract 2734: Modulation of resting T cell status to enhance transduction and CAR T expansion following exposure to CD8-targeted fusosomes

Author

Dolinski, Brian, primary, Chaturvedi, Vandana, additional, Humes, Daryl, additional, Proano, Christina, additional, Ott, Mariliis, additional, Moreno, Jesus, additional, Zipp, Garrett, additional, Lampano, Aaron, additional, Aamer, Hadega, additional, Liang, Ouwen, additional, van Hoeven, Neal, additional, Elpek, Kutlu G., additional, Foster, Aaron E., additional, and Fry, Terry J., additional

Published
2023
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7. In Vivo Delivery of a CD20 CAR Using a CD8-Targeted Fusosome in Southern Pig-Tail Macaques (M. nemestrina) Results in B Cell Depletion

Author

Cunningham, Justine, primary, Chandra, Sundeep, additional, Emmanuel, Akinola, additional, Mazzarelli, Allyse, additional, Passaro, Carmela, additional, Baldwin, Paige, additional, Nguyen-McCarty, Michelle, additional, Rocca, Carrie, additional, Joyce, Shannon, additional, Kim, Joohwan, additional, Vagin, Vasily, additional, Kaczmarek, James, additional, Chavan, Hemant, additional, Jewell, Heather, additional, Lipsitz, Yonatan, additional, Shamashkin, Misha, additional, Hlavaty, Kelan, additional, Rodriguez, Jason, additional, Co, Carl, additional, Cruite, Pattie, additional, Ennajdaoui, Hanane, additional, Duback, Victoria, additional, Elman, Jess, additional, Amatya, Shirisha, additional, Harding, Caspian, additional, Lyubinetsky, Sergey, additional, Patel, Vidur, additional, Pepper, Lauren, additional, Ruzo, Albert, additional, Iovino, Salvatore, additional, Varghese, Bindu, additional, Foster, Aaron E., additional, Gorovits, Boris, additional, Elpek, Kutlu, additional, Laska, Michael, additional, McGill, Trevor, additional, Shah, Jagesh V, additional, Fry, Terry J., additional, and Dambach, Donna, additional

Published
2021
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9. Engineered Hypoimmune Allogeneic CAR T Cells Exhibit Innate and Adaptive Immune Evasion Even after Sensitization in Humanized Mice and Retain Potent Anti-Tumor Activity

Author

Hu, Xiaomeng, primary, Dao, Mo, additional, White, Kathy, additional, Gattis, Corie, additional, Clarke, Ryan, additional, Landry, Sam, additional, Basco, Ron, additional, Tham, Eleonore, additional, Tucker, Andrew, additional, Luo, Emily, additional, Bandoro, Christopher, additional, Chu, Elaine, additional, Young, Chi, additional, Foster, Aaron E., additional, Dowdle, William E, additional, Rebar, Edward J, additional, Fry, Terry J., additional, and Schrepfer, Sonja, additional

Published
2021
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15. In vivo fluorescent optical imaging of cytotoxic T lymphocyte migration using IRDye800CW near-infrared dye

Author

Foster, Aaron E., Kwon, Sunkuk, Ke, Shi, Lu, An, Eldin, Karen, Sevick-Muraca, Eva, and Rooney, Cliona M.

Subjects
T cells -- Properties, Imaging systems -- Methods, Fluorescence -- Research, Dyes and dyeing -- Properties, Immunotherapy -- Research, Astronomy, Physics
Abstract

We describe a method to measure in vivo migration of human T cells by using the near-infrared (NIR) dye IRDye800CW. Labeling of Epstein--Barr virus-specific T cells with IRDye800CW did not affect viability, proliferation, or T cell function. Following tail vein injection into mice bearing subcutaneous tumors, the NIR signal could be measured in vivo at the tumor site. Analysis of tumors revealed T cell infiltration and an increased NIR signal, confirming T cell migration. To test specific migration with IRDye800CW, tumors were modified to express CCL5 to measure site-specific migration. The NIR signal was increased at CCL5-secreting tumors compared with control tumors. Together, these data suggest that IRDye800CW may be used to study the trafficking of T cells in a small animal model and may have potential as a short-term reporter molecule for human immunotherapy studies. OCIS codes: 110.3080, 170.0170, 170.1420, 170.2655.

Published
2008

25. Ligand-inducible, prostate stem cell antigen (PSCA)-directed GoCAR-T cells in advanced solid tumors: Preliminary results with cyclophosphamide (Cy) ± fludarabine (Flu) lymphodepletion (LD).

Author

Becerra, Carlos Roberto, primary, Manji, Gulam Abbas, additional, Kim, Dae Won, additional, Gardner, Olivia, additional, Malankar, Aditya, additional, Shaw, Joanne, additional, Blass, Devin, additional, Yi, Xiaohui, additional, Foster, Aaron E., additional, and Woodard, Paul, additional

Published
2019
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26. Two-Dimensional Regulation of CAR-T Cell Therapy with Orthogonal Switches

Author

Duong, MyLinh T., primary, Collinson-Pautz, Matthew R., additional, Morschl, Eva, additional, Lu, An, additional, Szymanski, Slawomir P., additional, Zhang, Ming, additional, Brandt, Mary E., additional, Chang, Wei-Chun, additional, Sharp, Kelly L., additional, Toler, Steven M., additional, Slawin, Kevin M., additional, Foster, Aaron E., additional, Spencer, David M., additional, and Bayle, J. Henri, additional

Published
2019
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27. Ligand-inducible, prostate stem cell antigen (PSCA)-directed GoCAR-T cells in advanced solid tumors: Preliminary results from a dose escalation.

Author

Becerra, Carlos Roberto, primary, Hoof, Pamela, additional, Paulson, Andrew Scott, additional, Manji, Gulam Abbas, additional, Gardner, Olivia, additional, Malankar, Aditya, additional, Shaw, Joanne, additional, Blass, Devin, additional, Ballard, Brandon, additional, Yi, Xiaohui, additional, Anumula, Madhavi, additional, Foster, Aaron E., additional, Senesac, Joseph, additional, and Woodard, Paul, additional

Published
2019
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29. Selective depletion of a minor subpopulation of B-chronic lymphocytic leukemia cells is followed by a delayed but progressive loss of bulk tumor cells and disease regression

Author

Goodell Margaret A, Andreeff Michael, Carrum George, Savoldo Barbara, Yvon Eric, Dotti Gianpietro, Lu An, Biagi Ettore, Okur Fatma V, Foster Aaron E, Heslop Helen E, and Brenner Malcolm K

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Cancer precursor/progenitor cells may initiate and sustain the growth of tumors, but evidence for their existence in human disease is indirect, relying on their in vitro properties and animal models. More directly, specific elimination of these rare cells from cancer patients should produce a delayed but progressive disappearance of differentiated malignant progeny. Here, we describe selective eradication of a putative precursor population in a patient with B-cell chronic lymphocytic leukemia, followed 6 months later by a progressive loss of mature tumor cells without further treatment. This outcome supports the presence of a rare population of precursor/progenitor cells in human malignancies, and suggests benefit from their removal.

Published
2009
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30. Regulated Expansion and Survival of Chimeric Antigen Receptor-Modified T Cells Using Small Molecule-Dependent Inducible MyD88/CD40

Author

Foster, Aaron E., primary, Mahendravada, Aruna, additional, Shinners, Nicholas P., additional, Chang, Wei-Chun, additional, Crisostomo, Jeannette, additional, Lu, An, additional, Khalil, Mariam, additional, Morschl, Eva, additional, Shaw, Joanne L., additional, Saha, Sunandan, additional, Duong, MyLinh T., additional, Collinson-Pautz, Matthew R., additional, Torres, David L., additional, Rodriguez, Tania, additional, Pentcheva-Hoang, Tsvetelina, additional, Bayle, J. Henri, additional, Slawin, Kevin M., additional, and Spencer, David M., additional

Published
2017
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31. Abstract 3745: Dual-switch TCR: A two-ligand system to control PRAME TCR-modified T cell proliferation and death using inducible MyD88/CD40 and caspase-9

Author

Pentcheva-Hoang, Tsvetelina, primary, Rodriguez, Tania, additional, Torres, David, additional, Korngold, Ana, additional, Crisostomo, Jeannette, additional, Duong, MyLinh T., additional, Collinson-Pautz, Matthew, additional, Bayle, J. Henri, additional, Heemskerk, Mirjam HM, additional, Falkenburg, J.H. Frederik, additional, Moseley, Annemarie, additional, Slawin, Kevin M., additional, Spencer, David, additional, and Foster, Aaron E., additional

Published
2017
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33. Inducible MyD88/CD40 (iMC) Enhances Proliferation and Survival of Tumor-Specific TCR-Modified T Cells and Improves Anti-Tumor Efficacy in Myeloma

Author

Pentcheva-Hoang, Tsvetelina, primary, Torres, David, additional, Rodriguez, Tania, additional, Korngold, Ana, additional, Lu, An, additional, Crisostomo, Jeannette, additional, Moseley, Annemarie, additional, Jahn, Lorenz, additional, Heemskerk, Mirjam H.M., additional, Slawin, Kevin M, additional, Spencer, David M, additional, and Foster, Aaron E, additional

Published
2016
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37. Inducible MyD88/CD40 to allow rimiducid-dependent activation for control of proliferation and survival of chimeric antigen receptor (CAR) T cells targeting prostate stem cell antigen (PSCA).

Author

Slawin, Kevin Mark, primary, Mahendravada, Aruna, additional, Shinners, Nicholas, additional, Chang, Peter, additional, Lu, An, additional, Crisostomo, Jeannette, additional, Morschl, Eva, additional, Shaw, Joanne, additional, Saha, Sunandan, additional, Spencer, David M, additional, and Foster, Aaron E, additional

Published
2016
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39. T Cells as Vehicles for Cancer Vaccination

Author

Bear, Adham S., Cruz, Conrad R., and Foster, Aaron E.

Subjects
Article Subject
Abstract

The success of cancer vaccines is dependent on the delivery of tumor-associated antigens (TAAs) within lymphoid tissue in the context of costimulatory molecules and immune stimulatory cytokines. Dendritic cells (DCs) are commonly utilized to elicit antitumor immune responses due to their attractive costimulatory molecule and cytokine expression profile. However, the efficacy of DC-based vaccines is limited by the poor viability and lymph-node migration of exogenously generated DCs in vivo. Alternatively, adoptively transferred T cells persist for long periods of time in vivo and readily migrate between the lymphoid and vascular compartments. In addition, T cells may be genetically modified to express both TAA and DC-activating molecules, suggesting that T cells may be ideal candidates to serve as cellular vehicles for antigen delivery to lymph node-resident DCs in vivo. This paper discusses the concept of using T cells to induce tumor-specific immunity for vaccination against cancer.

Published
2011
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