Enric Vercher, Ángela Covo-Vergara, Enrique Conde, Mercedes Hernández-Rueda, Edurne Elizalde, Uxua Mancheño, Javier Glez-Vaz, Ibon Tamayo-Uria, Maritza R García-García, Marta Ferrer-Roig, Javier Marañón-Lopez, David Repáraz, Marta Ruiz, Ascensión López-Díaz de Cerio, Susana Inogés, Mercedes Iñarrairaegui, Juan J Lasarte, Bruno Sangro, Pablo Sarobe, Sandra Hervas-Stubbs
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Natural T-cell receptors (TCRs) may serve as an alternative, though identifying GPC3-specific TCRs within the endogenous repertoire is difficult.</p><p><strong>Approach results: </strong>We immunized HLA-A2 transgenic mice with an adenovirus expressing human GPC3, identifying a panel of TCRs that recognize the GPC3(522-530) epitope. We cloned three murine GPC3-TCRs (TCR-A, TCR-B, and TCR-C) and engineered primary human T cells (TCR-T). TCR-T cells effectively recognized GPC3+HLA-A2+ human HCC cells, with recognition diminished by GPC3 silencing and HLA-A2 blockade. TCR-B-T and TCR-C-T cells showed the highest reactivity, with TCR-B-T cells exhibiting superior effector functions, proliferative capacity, and therapeutic efficacy in xenograft HCC models. Notable, TCR-B-T cells outperformed second-generation 41BB GPC3-specific CAR-T cells, attributed to lower exhaustion, enhanced proliferation, greater effector function, and improved resilience. 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While chimeric antigen receptor (CAR) T cells targeting GPC3 have demonstrated therapeutic efficacy, their effectiveness is limited by challenges such as low persistence and shedding of surface GPC3. Natural T-cell receptors (TCRs) may serve as an alternative, though identifying GPC3-specific TCRs within the endogenous repertoire is difficult.</p><p><strong>Approach results: </strong>We immunized HLA-A2 transgenic mice with an adenovirus expressing human GPC3, identifying a panel of TCRs that recognize the GPC3(522-530) epitope. We cloned three murine GPC3-TCRs (TCR-A, TCR-B, and TCR-C) and engineered primary human T cells (TCR-T). TCR-T cells effectively recognized GPC3+HLA-A2+ human HCC cells, with recognition diminished by GPC3 silencing and HLA-A2 blockade. TCR-B-T and TCR-C-T cells showed the highest reactivity, with TCR-B-T cells exhibiting superior effector functions, proliferative capacity, and therapeutic efficacy in xenograft HCC models. 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引用次数: 0
摘要
背景目的:Glypican-3(GPC3)是T细胞治疗肝细胞癌(HCC)的一个前景看好的靶点。虽然以 GPC3 为靶点的嵌合抗原受体 (CAR) T 细胞已显示出疗效,但它们的有效性受到诸如低持久性和表面 GPC3 脱落等挑战的限制。天然 T 细胞受体 (TCR) 可作为一种替代方法,但要在内源性细胞库中识别 GPC3 特异性 TCR 并不容易:我们用表达人 GPC3 的腺病毒对 HLA-A2 转基因小鼠进行了免疫,鉴定出了一组可识别 GPC3(522-530) 表位的 TCR。我们克隆了三种小鼠 GPC3-TCR(TCR-A、TCR-B 和 TCR-C),并设计了原代人类 T 细胞(TCR-T)。TCR-T 细胞能有效识别 GPC3+HLA-A2+ 人类 HCC 细胞,但 GPC3 沉默和 HLA-A2 阻断会降低识别率。TCR-B-T和TCR-C-T细胞表现出最高的反应性,其中TCR-B-T细胞在异种移植HCC模型中表现出卓越的效应功能、增殖能力和疗效。值得注意的是,TCR-B-T细胞的表现优于第二代41BB GPC3特异性CAR-T细胞,这归因于较低的耗竭率、增强的增殖能力、更强的效应功能和更好的恢复能力。此外,CAR-T细胞和TCR-B-T细胞混合给药的效果明显优于同种细胞交错给药,这表明可能存在协同效应:结论:转基因 TCR 与 CAR 联手,扩大了用于 HCC T 细胞疗法的 GPC3 靶向受体库。
Human T cells engineered with an HLA-A2-restricted murine T-cell receptor targeting Glypican 3 effectively control human hepatocellular carcinoma in mice.
Background aims: Glypican-3 (GPC3) is a promising target for T-cell therapy in hepatocellular carcinoma (HCC). While chimeric antigen receptor (CAR) T cells targeting GPC3 have demonstrated therapeutic efficacy, their effectiveness is limited by challenges such as low persistence and shedding of surface GPC3. Natural T-cell receptors (TCRs) may serve as an alternative, though identifying GPC3-specific TCRs within the endogenous repertoire is difficult.
Approach results: We immunized HLA-A2 transgenic mice with an adenovirus expressing human GPC3, identifying a panel of TCRs that recognize the GPC3(522-530) epitope. We cloned three murine GPC3-TCRs (TCR-A, TCR-B, and TCR-C) and engineered primary human T cells (TCR-T). TCR-T cells effectively recognized GPC3+HLA-A2+ human HCC cells, with recognition diminished by GPC3 silencing and HLA-A2 blockade. TCR-B-T and TCR-C-T cells showed the highest reactivity, with TCR-B-T cells exhibiting superior effector functions, proliferative capacity, and therapeutic efficacy in xenograft HCC models. Notable, TCR-B-T cells outperformed second-generation 41BB GPC3-specific CAR-T cells, attributed to lower exhaustion, enhanced proliferation, greater effector function, and improved resilience. Furthermore, mixed dosing of CAR-T and TCR-B-T cells was significantly more effective than staggered dosing of the same cell type, suggesting potential synergistic effects.
Conclusion: Transgenic TCRs join forces with CARs, expanding the arsenal of GPC3-targeting receptors for HCC T-cell therapy.
期刊介绍:
HEPATOLOGY is recognized as the leading publication in the field of liver disease. It features original, peer-reviewed articles covering various aspects of liver structure, function, and disease. The journal's distinguished Editorial Board carefully selects the best articles each month, focusing on topics including immunology, chronic hepatitis, viral hepatitis, cirrhosis, genetic and metabolic liver diseases, liver cancer, and drug metabolism.
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