Background:CD19-directed CAR T-cell therapy has demonstrated remarkable clinical benefits for patients with B-cell malignancies, but impaired CAR T-cell fitness can result in lack of response or relapse. Rational combinations that enhance T-cell fitness may overcome primary and secondary resistance. Bruton tyrosine kinase inhibitors (BTKi), such as Ibrutinib (Ibr) have been shown to enhance CAR T-cell efficacy (Fraietta et al, Blood 2016;Liu et al, Cancer Sci 2020), but the precise mechanism remains unclear. In addition to BTK, Ibr potently inhibits IL-2-inducible tyrosine kinase (ITK), an important mediator of T-cell signaling. Ibr has been shown to enhance Th1 polarization through suppression of the Th2 differentiation pathway, thereby potentiating a cytotoxic effector response (Qin et al, J Immunother 2020). Consistent with this finding, the Th1 phenotype was more frequent in peripheral blood mononuclear cells of Ibr-exposed patients than in acalabrutinib (Acala)-exposed patients (Scarfò et al, Blood 2021). Therefore, we aimed to assess the potential impact of ITK inhibition (ITKi) on CD19 CAR T-cell function by comparing Ibr to other approved BTKi that display low or no ITKi activity (Estupiñán et al, Front Cell Dev Biol 2021).
Methods:CD19-41bb CAR T cells (CAR19) were generated by lentiviral transduction of healthy donor T cells. BTKi additivity to CAR19 function was evaluated in a Luciferase (Luc)+ Ramos, BTKi resistant systemic tumor model in NSG mice co-treated with covalent BTKis Ibr, Acala, zanubrutinib (Zanu), and CAR T cells. Next, to evaluate the impact of ITKi on CAR19 fitness and cytotoxicity, repeated stimulation in an in vitro cytotoxicity assay was performed at low CAR19 effector-to-tumor ratio (1:20) to mimic higher tumor burden stress conditions in the presence of each BTKi, including non-covalent BTKi pirtobrutinib (Pirto) (500 nM). Tumor cells were replenished every 3 days and cytotoxicity was measured on day 7 by luciferase assay. For phenotypic characterization, CAR T cells were repeatedly stimulated by plate-bound anti-Whitlow linker every 3 days. Viability and proliferation were measured by cell counter. Flow cytometry (FACS) was performed on surface and intracellular T-cell phenotypic, activation, and exhaustion markers. Metabolic fitness (glycolysis and ATP production) was characterized using Seahorse (Van der Windt, 2012). Impact of Ibr on signal strength was evaluated in CD19-expressing Jurkat reporter cells (CAR-J19) with knock-in of mKate in frame with Nur77. Ibr was added to coculture of CAR-J19 and tumor cells and upregulation of Nur77 was measured by FACS. Downstream ITK signaling pathway was measured by Western blot.
Results:Preliminary in vivo experiments demonstrated that co-administration of each BTKi with CD19 CAR T cells improved tumor control at day 26 (N=5 per group; P≤0.0004 vs CAR T cells alone). In serial killing experiments, addition of Ibr to the coculture increased proliferation (n=2; P<0.05), viability (n=2; P=0.01), and the cytotoxicity of CAR T cells against Ramos cells ( P=0.02 vs CAR19 alone) to a greater extent than other BTKis tested (Fig. 1A). Prolonged stimulation of CAR19 with Ibr led to downregulation of activation and inhibitory markers on CAR19 and maintenance of a naive T-cell phenotype (Fig. 1B) that was confirmed by increased metabolic fitness (n=5; P<0.05). Addition of Ibr to CAR-J19 resulted in a 72% reduction in CAR activation and reduced phosphorylation of ITK, PLCG, and Zap70. Additional data including the impact of ITK knockout on CAR-T cells will be presented.
Conclusions:Our study expands on the hypothesized mechanism of action underlying the clinical benefit observed with Ibr in CD19 CAR T-cell-treated patients with chronic lymphocytic leukemia or mantle cell lymphoma (Liu et al, Front Immunol 2022; Wang et al, NEJM 2020). Our data suggest that Ibr enhances CAR T-cell fitness to a greater extent than both covalent and noncovalent BTKi that display reduced or no ITKi activity. Through ITKi, Ibr tempers CAR T-cell activation induced cell death, maintains a naive state and prevents premature exhaustion, thereby enabling more efficacious tumor cell killing over time. Together, these data support the further exploration of Ibr to enhance CD19 CAR T-cell efficacy.
Disclosures
Plaks:AbbVie: Current Employment. Cyril:AbbVie: Current Employment. Riedell:Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding; Nurix Therapeutics: Membership on an entity's Board of Directors or advisory committees; BeiGene: Membership on an entity's Board of Directors or advisory committees; Pharmacyclics: Consultancy; Kite/Gilead: Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau; Fate Therapeutics: Research Funding; CRISPR Therapeutics: Research Funding; Calibr: Research Funding; CVS Caremark: Consultancy; Sana Biotechnology: Consultancy; Nektar Therapeutics: Membership on an entity's Board of Directors or advisory committees; Intellia Therapeutics: Membership on an entity's Board of Directors or advisory committees; Janssen: Consultancy; Genmab: Membership on an entity's Board of Directors or advisory committees; BMS: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding; Nkarta: Research Funding; ADC Therapeutics: Membership on an entity's Board of Directors or advisory committees; Abbvie: Consultancy; MorphoSys: Research Funding; Tessa Therapeutics: Research Funding; Roche: Research Funding; Xencor: Research Funding. Zhao:AbbVie: Current Employment. Hall:AbbVie: Current Employment. Tan:AbbVie: Current Employment. Harb:AbbVie: Current Employment, Current holder of stock options in a privately-held company. Davids:Takeda: Consultancy; MEI Pharma: Research Funding; Surface Oncology: Research Funding; Novartis: Research Funding; BeiGene: Consultancy; AbbVie: Consultancy, Research Funding; Curio Science: Consultancy; Eli Lilly: Consultancy; Aptitude Health: Consultancy; Adaptive Biosciences: Consultancy; Ascentage Pharma: Consultancy, Research Funding; BMS: Consultancy; AstraZeneca: Consultancy, Research Funding; Secura Bio: Consultancy; ONO Pharmaceuticals: Consultancy; Genentech: Consultancy, Research Funding; Janssen: Consultancy; Merck: Consultancy; Mingsight Pharmaceuticals: Consultancy; Research to Practice: Consultancy; TG Therapeutics: Consultancy, Research Funding.
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