Lindsey J Coholan, Cisem Karaca, Faith M Musenge, Moriah L White, Adam J Camblin, Dominique Leboeuf, Colby R Maldini
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引用次数: 0
Abstract
Immunogenicity of allogeneic chimeric antigen receptor (CAR) T cell therapies may preclude durable therapeutic responses and broad clinical implementation. Although genetic knockout (KO) of beta-2-microglobulin (B2M) is commonly employed to abrogate HLA class I expression thereby preventing allorecognition by recipient T cells, this deficiency induces missing-self responses by natural killer (NK) cells. Here, we demonstrated that forced expression of a chimeric membrane-bound CLEC2d, an inhibitory ligand of CD161, and concurrent loss of CD58 (LFA-3), an adhesion ligand of CD2, substantially mitigated NK cell responses against allogeneic B2MKO T cells. This combination reduced in vitro NK cell-dependent lysis to a greater extent than either strategy alone and increased the in vivo persistence of these cells after infusion into NK cell-replete humanized mice. Collectively, these findings demonstrate that the convergence of orthogonal genome engineering approaches effectively averts NK cell-driven rejection of allogeneic T cells for immunotherapy.
同种异体嵌合抗原受体(CAR)T细胞疗法的免疫原性可能会妨碍持久的治疗反应和广泛的临床应用。虽然通常采用基因敲除(KO)β-2-微球蛋白(B2M)的方法来消除 HLA I 类表达,从而防止受体 T 细胞的异源识别,但这种缺陷会诱导自然杀伤(NK)细胞的缺失自我反应。在这里,我们证明了强制表达膜结合嵌合体 CLEC2d(CD161 的抑制配体)和同时缺失 CD58 (LFA-3)(CD2 的粘附配体)可大大减轻 NK 细胞对异体 B2MKO T 细胞的反应。与单独使用其中一种策略相比,这种组合能在更大程度上减少体外 NK 细胞依赖性裂解,并增加这些细胞输注到 NK 细胞完全人源化小鼠体内后的存活率。总之,这些研究结果表明,正交基因组工程方法的融合能有效避免免疫疗法中异体 T 细胞的 NK 细胞排斥反应。
期刊介绍:
Journal of Immunotherapy features rapid publication of articles on immunomodulators, lymphokines, antibodies, cells, and cell products in cancer biology and therapy. Laboratory and preclinical studies, as well as investigative clinical reports, are presented. The journal emphasizes basic mechanisms and methods for the rapid transfer of technology from the laboratory to the clinic. JIT contains full-length articles, review articles, and short communications.
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