Glioblastoma-targeted CD4+ CAR T cells mediate superior antitumor activity
Dongrui Wang, … , Stephen J. Forman, Christine E. Brown
Dongrui Wang, … , Stephen J. Forman, Christine E. Brown
Published May 17, 2018
Citation Information: JCI Insight. 2018;3(10):e99048. https://doi.org/10.1172/jci.insight.99048.
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Research Article Immunology Oncology

Glioblastoma-targeted CD4+ CAR T cells mediate superior antitumor activity

Abstract

Chimeric antigen receptor–modified (CAR-modified) T cells have shown promising therapeutic effects for hematological malignancies, yet limited and inconsistent efficacy against solid tumors. The refinement of CAR therapy requires an understanding of the optimal characteristics of the cellular products, including the appropriate composition of CD4+ and CD8+ subsets. Here, we investigated the differential antitumor effect of CD4+ and CD8+ CAR T cells targeting glioblastoma-associated (GBM-associated) antigen IL-13 receptor α2 (IL13Rα2). Upon stimulation with IL13Rα2+ GBM cells, the CD8+ CAR T cells exhibited robust short-term effector function but became rapidly exhausted. By comparison, the CD4+ CAR T cells persisted after tumor challenge and sustained their effector potency. Mixing with CD4+ CAR T cells failed to ameliorate the effector dysfunction of CD8+ CAR T cells, while surprisingly, CD4+ CAR T cell effector potency was impaired when coapplied with CD8+ T cells. In orthotopic GBM models, CD4+ outperformed CD8+ CAR T cells, especially for long-term antitumor response. Further, maintenance of the CD4+ subset was positively correlated with the recursive killing ability of CAR T cell products derived from GBM patients. These findings identify CD4+ CAR T cells as a highly potent and clinically important T cell subset for effective CAR therapy.

Authors

Dongrui Wang, Brenda Aguilar, Renate Starr, Darya Alizadeh, Alfonso Brito, Aniee Sarkissian, Julie R. Ostberg, Stephen J. Forman, Christine E. Brown

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Figure 8

Maintenance of CD4+ subset predicts effector potency of patient-derived CAR T cells.

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Maintenance of CD4+ subset predicts effector potency of patient-derived ...
(A) CD4/CD8 composition CAR T cell therapeutic products engineered from GBM patients (n = 5). (B) Percentages of CD4+ T cells in freshly thawed (D0) CAR T cell therapeutic products or after 14 days of extended culture (D14). (C) Expression of inhibitory receptors in CD4+ and CD8+ T cells within the GBM patient CAR T products after extended culture. Horizontal lines indicate mean values; *P < 0.1, **P < 0.01, and ***P < 0.001 when using a paired Student’s t test. (D) Each of the 5 GBM patient CAR T cell products were tested for their recursive killing ability (arrows indicate tumor rechallenge). Viable tumor cell numbers were analyzed at denoted time points; n = 3 replicates per point. (E) The 5 GBM patient products were analyzed for the correlation between CAR T cell killing efficacy (indicated by the remaining viable target cells in D at D7) and the percentage of CD4+ T cells at D7 of recursive stimulation (left, r2 = 0.7941) or 14 days of extended culture (right, r2 = 0.8378). (F) The 5 GBM patient CAR T cell products were prestimulated in vitro and then tested for their activation potential as depicted in Supplemental Figure 3A; degranulation was analyzed on pregated CD4+ or CD8+ engineered T cells. Horizontal lines indicate mean values; ***P < 0.001 when using a paired Student’s t test.