Browsing by Author "Chavel, Colin A."

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    CD8+ T cell metabolic flexibility elicited by CD28-ARS2 axis-driven alternative splicing of PKM supports antitumor immunity
    (Springer Nature, 2024) Holling, G. Aaron; Chavel, Colin A.; Sharda, Anand P.; Lieberman, Mackenzie M.; James, Caitlin M.; Lightman, Shivana M.; Tong, Jason H.; Qiao, Guanxi; Emmons, Tiffany R.; Giridharan, Thejaswini; Hou, Shengqi; Intlekofer, Andrew M.; Higashi, Richard M.; Fan, Teresa W. M.; Lane, Andrew N.; Eng, Kevin H.; Segal, Brahm H.; Repasky, Elizabeth A.; Lee, Kelvin P.; Olejniczak, Scott H.; Medicine, School of Medicine
    Metabolic flexibility has emerged as a critical determinant of CD8+ T-cell antitumor activity, yet the mechanisms driving the metabolic flexibility of T cells have not been determined. In this study, we investigated the influence of the nuclear cap-binding complex (CBC) adaptor protein ARS2 on mature T cells. In doing so, we discovered a novel signaling axis that endows activated CD8+ T cells with flexibility of glucose catabolism. ARS2 upregulation driven by CD28 signaling reinforced splicing factor recruitment to pre-mRNAs and affected approximately one-third of T-cell activation-induced alternative splicing events. Among these effects, the CD28-ARS2 axis suppressed the expression of the M1 isoform of pyruvate kinase in favor of PKM2, a key determinant of CD8+ T-cell glucose utilization, interferon gamma production, and antitumor effector function. Importantly, PKM alternative splicing occurred independently of CD28-driven PI3K pathway activation, revealing a novel means by which costimulation reprograms glucose metabolism in CD8+ T cells.
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    Endogenous CD28 drives CAR T cell responses in multiple myeloma
    (bioRxiv, 2024-04-09) Lieberman, Mackenzie M.; Tong, Jason H.; Odukwe, Nkechi U.; Chavel, Colin A.; Purdon, Terence J.; Burchett, Rebecca; Gillard, Bryan M.; Brackett, Craig M.; McGray, A. J. Robert; Bramson, Jonathan L.; Brentjens, Renier J.; Lee, Kelvin P.; Olejniczak, Scott H.; Medicine, School of Medicine
    Recent FDA approvals of chimeric antigen receptor (CAR) T cell therapy for multiple myeloma (MM) have reshaped the therapeutic landscape for this incurable cancer. In pivotal clinical trials B cell maturation antigen (BCMA) targeted, 4-1BB co-stimulated (BBζ) CAR T cells dramatically outperformed standard-of-care chemotherapy, yet most patients experienced MM relapse within two years of therapy, underscoring the need to improve CAR T cell efficacy in MM. We set out to determine if inhibition of MM bone marrow microenvironment (BME) survival signaling could increase sensitivity to CAR T cells. In contrast to expectations, blocking the CD28 MM survival signal with abatacept (CTLA4-Ig) accelerated disease relapse following CAR T therapy in preclinical models, potentially due to blocking CD28 signaling in CAR T cells. Knockout studies confirmed that endogenous CD28 expressed on BBζ CAR T cells drove in vivo anti-MM activity. Mechanistically, CD28 reprogrammed mitochondrial metabolism to maintain redox balance and CAR T cell proliferation in the MM BME. Transient CD28 inhibition with abatacept restrained rapid BBζ CAR T cell expansion and limited inflammatory cytokines in the MM BME without significantly affecting long-term survival of treated mice. Overall, data directly demonstrate a need for CD28 signaling for sustained in vivo function of CAR T cells and indicate that transient CD28 blockade could reduce cytokine release and associated toxicities.
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    Indoleamine 2,3-dioxygenase 1 is essential for sustaining durable antibody responses
    (Elsevier, 2021) Lightman, Shivana M.; Peresie, Jennifer L.; Carlson, Louise M.; Holling, G. Aaron; Honikel, Mackenzie M.; Chavel, Colin A.; Nemeth, Michael J.; Olejniczak, Scott H.; Lee, Kelvin P.; Medicine, School of Medicine
    Humoral immunity is essential for protection against pathogens, emphasized by the prevention of 2-3 million deaths worldwide annually by childhood immunizations. Long-term protective immunity is dependent on the continual production of neutralizing antibodies by the subset of long-lived plasma cells (LLPCs). LLPCs are not intrinsically long-lived, but require interaction with LLPC niche stromal cells for survival. However, it remains unclear which and how these interactions sustain LLPC survival and long-term humoral immunity. We now have found that the immunosuppressive enzyme indoleamine 2,3- dioxygenase 1 (IDO1) is required to sustain antibody responses and LLPC survival. Activation of IDO1 occurs upon the engagement of CD80/CD86 on the niche dendritic cells by CD28 on LLPC. Kynurenine, the product of IDO1 catabolism, activates the aryl hydrocarbon receptor in LLPC, reinforcing CD28 expression and survival signaling. These findings expand the immune function of IDO1 and uncover a novel pathway for sustaining LLPC survival and humoral immunity.