PO.IM01.06 · 免疫学

Restoration of LAT signaling via the ALA-CART platform promotes metabolic resiliency and persistence of AML CAR T cells

海报缩略图:Restoration of LAT signaling via the ALA-CART platform promotes metabolic resiliency and persistence of AML CAR T cells
编号 4280 展板 16 时间 4/21 09:00–12:00 区域 Section 7 主讲 Catherine Danis, PhD
分会场 CAR T Cell Functional Enhancement
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作者与单位

Catherine Danis, Amanda J. Novak, Etienne Danis, Angie Vazquez, Michael Yarnell, Lillie Leach, M. Eric Kohler

University of Colorado Anschutz Medical Campus, Aurora, CO

摘要 Abstract

Despite therapeutic advancements, the majority of patients with relapsed and/or refractory (r/r) acute myeloid leukemia (AML) have very poor prognoses and limited treatment options. While Chimeric Antigen Receptor (CAR) T cell therapy has transformed the treatment of r/r B-cell acute lymphoblastic leukemia (ALL), inducing remissions in up to 90% of patients, yet clinical trials of 2 nd generation CAR T cells for patients with r/r AML have not replicated this success. Post-CAR T cell relapses in ALL are common and limit the long term efficacy of this therapy. Mechanisms driving ALL relapses after CAR T cells, such as short duration of activity and antigen modulated escape, have illuminated vulnerabilities of 2 nd generation CAR T cells, such as exhaustion, poor persistence, and low antigen sensitivity. The mechanisms underlying AML progression after CAR T cells are not well defined, however, it is likely that similar barriers must be overcome to improve CAR T cell responses in patients with r/r AML. We recently demonstrated the Linker for Activation of T cells (LAT) is inefficiently engaged in ALL-directed CAR T cells, particularly when antigen levels are low. Through a novel Adjunctive LAT-Activating CAR T (ALA-CART) platform, LAT activity and downstream signaling were restored and ALA-CART cells demonstrated enhanced potency, expansion, and persistence. We hypothesized that CD33-directed ALA-CART cells would similarly show improved potency and persistence in pre-clinical models of AML. Despite exhibiting decreased effector function in vitro, 33ALA-CART cells demonstrated increased efficacy in multiple AML xenograft models. 33ALA-CART cells had greater in vivo expansion and were effective at lower doses than CD33BBz CAR T cells. 33ALA-CART cells showed similar potency as CD33-28z CAR T cells, however, demonstrated enhanced persistence relative to both CD33BBz and CD33-28z CAR T cells. In rechallenge experiments, 33ALA-CART cells demonstrated enhanced expansion and leukemia clearance. Interestingly, the enhanced persistence of 33ALA-CART was strongly correlated with increased mitochondrial activity, a feature associated with long-lived memory T cell subsets and persistence. Consistent with this, RNA-sequencing analysis demonstrates that ALA-CART cells have increased potential for mitochondrial biogenesis and a reduced capacity for glycolysis relative to 2 nd generation CAR T cells. Together, these data suggest that increased signaling through LAT results in enhanced metabolic capacity, potentially contributing to the enhanced proliferative, functional, and persistence capacity of 33ALA-CART cells in vivo. Through restoring LAT activity and downstream signaling, the ALA-CART platform provides a rational strategy to enhance multiple facets of CAR T cell function and represents a promising approach to improve the efficacy of AML-directed CAR T cell therapy.
利益披露 Disclosure
C. Danis, None.. A. J. Novak, None.. E. Danis, None.. A. Vazquez, None.. M. Yarnell, None.. L. Leach, None.. M. Kohler, None.

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