Advancing CAR-T therapy in prostate cancer: overcoming the tumor microenvironment and enhancing efficacy.
1/5 보강
[BACKGROUND] Prostate cancer (PCa) is one of the most common malignancies in men, and metastatic castration-resistant PCa (mCRPC) has limited treatment options.
APA
Zhou Z, Lao Y, et al. (2026). Advancing CAR-T therapy in prostate cancer: overcoming the tumor microenvironment and enhancing efficacy.. Frontiers in oncology, 16, 1659869. https://doi.org/10.3389/fonc.2026.1659869
MLA
Zhou Z, et al.. "Advancing CAR-T therapy in prostate cancer: overcoming the tumor microenvironment and enhancing efficacy.." Frontiers in oncology, vol. 16, 2026, pp. 1659869.
PMID
41717407 ↗
Abstract 한글 요약
[BACKGROUND] Prostate cancer (PCa) is one of the most common malignancies in men, and metastatic castration-resistant PCa (mCRPC) has limited treatment options. While chimeric antigen receptor T (CAR-T) therapy has revolutionized treatment of hematologic cancers, its efficacy in PCa is constrained by factors such as scarce tumor-specific antigens, an immunosuppressive tumor microenvironment (TME), antigen heterogeneity, and safety issues (e.g., cytokine release syndrome).
[METHODS] We performed a comprehensive literature review of CAR-T therapy in PCa. We summarized known PCa-specific CAR targets, identified major TME-related and technical barriers, and highlighted recent advances in CAR engineering (including armored CAR-T cells, gene editing, and metabolic reprogramming) as well as combination approaches with other therapies.
[RESULTS] Emerging strategies show promise for overcoming these obstacles. Next-generation CAR designs, such as cytokine-armed CAR-T cells, may enhance T cell infiltration and persistence despite the suppressive TME. Modulating tumor metabolism and immune checkpoints can reverse T cell exhaustion. Multi-antigen CARs and targeted gene edits (for example, PD-1 disruption) may limit antigen escape. Early clinical trials in PCa have demonstrated CAR-T cells specifically recognizing prostate-associated antigens and eliciting antitumor immune responses, although durable remissions remain rare.
[CONCLUSION] CAR-T therapy for prostate cancer is a rapidly advancing field. This review provides an updated perspective on CAR-T targets, engineering strategies, and combination approaches in PCa. Ongoing innovations in CAR design and therapeutic combinations offer the potential to develop more effective and durable CAR-T treatments for advanced prostate cancer.
[METHODS] We performed a comprehensive literature review of CAR-T therapy in PCa. We summarized known PCa-specific CAR targets, identified major TME-related and technical barriers, and highlighted recent advances in CAR engineering (including armored CAR-T cells, gene editing, and metabolic reprogramming) as well as combination approaches with other therapies.
[RESULTS] Emerging strategies show promise for overcoming these obstacles. Next-generation CAR designs, such as cytokine-armed CAR-T cells, may enhance T cell infiltration and persistence despite the suppressive TME. Modulating tumor metabolism and immune checkpoints can reverse T cell exhaustion. Multi-antigen CARs and targeted gene edits (for example, PD-1 disruption) may limit antigen escape. Early clinical trials in PCa have demonstrated CAR-T cells specifically recognizing prostate-associated antigens and eliciting antitumor immune responses, although durable remissions remain rare.
[CONCLUSION] CAR-T therapy for prostate cancer is a rapidly advancing field. This review provides an updated perspective on CAR-T targets, engineering strategies, and combination approaches in PCa. Ongoing innovations in CAR design and therapeutic combinations offer the potential to develop more effective and durable CAR-T treatments for advanced prostate cancer.
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