Fatme Seval Ismail, Marco Gallus, Sven G. Meuth, Hideho Okada, Hans-Peter Hartung, Nico Melzer
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引用次数: 0
Abstract
ImportanceAdvancements in molecular engineering have facilitated the creation of engineered T cells that express synthetic receptors, termed chimeric antigen receptors (CARs). This is promising not only in cancer treatment but also in addressing a spectrum of other conditions. This review provides a comprehensive overview of the current approaches and future potential of CAR T-cell therapy in the field of neurology, particularly for primary brain tumors and autoimmune neurological disorders.ObservationsCAR T-cell therapy for glioblastoma is promising; however, first-in-human trials did not yield significant success or showed only limited success in a subset of patients. To date, the efficacy of CAR T-cell therapies has been demonstrated in animal models of multiple sclerosis, but larger human studies to corroborate the efficacy remain pending. CAR T cells showed efficacy in treatment of patients with relapsed or refractory aquaporin 4–immunoglobulin G–seropositive neuromyelitis optica spectrum disorders. Further studies with larger patient populations are needed to confirm these results. Success was reported also for treatment of cases with generalized myasthenia gravis using CAR T cells. Chimeric autoantibody receptor T cells, representing a modified form of CAR T cells directed against autoreactive B cells secreting autoantibodies, were used to selectively target autoreactive anti–N-methyl-d-aspartate B cells under in vitro and in vivo conditions, providing the basis for human studies and application to other types of autoimmune encephalitis associated with neuronal or glial antibodies.Conclusions and RelevanceCAR T cells herald a new era in the therapeutic landscape of neurological disorders. While their application in solid tumors, such as glioblastoma, has not universally yielded robust success, emerging innovative strategies show promise, and there is optimism for their effectiveness in certain autoimmune neurological disorders.
重要性 分子工程学的进步促进了表达合成受体(称为嵌合抗原受体(CAR))的工程 T 细胞的产生。这不仅在癌症治疗中大有可为,而且在治疗一系列其他疾病方面也大有可为。本综述全面概述了CAR T细胞疗法在神经病学领域的现有方法和未来潜力,特别是在原发性脑肿瘤和自身免疫性神经系统疾病方面。迄今为止,CAR T 细胞疗法的疗效已在多发性硬化症动物模型中得到证实,但仍有待更大规模的人体研究来证实其疗效。CAR T 细胞在治疗复发或难治性水泡素 4-免疫球蛋白 G 血清阳性神经脊髓炎视网膜频谱疾病患者中显示出疗效。要证实这些结果,还需要对更多患者进行进一步研究。据报道,使用 CAR T 细胞治疗全身性重症肌无力病例也取得了成功。嵌合自身抗体受体T细胞是针对分泌自身抗体的自身反应性B细胞的改良型CAR T细胞,在体外和体内条件下被用于选择性靶向自身反应性抗N-甲基-d-天冬氨酸B细胞,为人体研究和应用于与神经元或神经胶质抗体相关的其他类型自身免疫性脑炎奠定了基础。虽然在实体瘤(如胶质母细胞瘤)中的应用并未取得普遍的成功,但新兴的创新策略显示了其前景,而且人们对其在某些自身免疫性神经系统疾病中的有效性持乐观态度。
期刊介绍:
JAMA Neurology is an international peer-reviewed journal for physicians caring for people with neurologic disorders and those interested in the structure and function of the normal and diseased nervous system. The Archives of Neurology & Psychiatry began publication in 1919 and, in 1959, became 2 separate journals: Archives of Neurology and Archives of General Psychiatry. In 2013, their names changed to JAMA Neurology and JAMA Psychiatry, respectively. JAMA Neurology is a member of the JAMA Network, a consortium of peer-reviewed, general medical and specialty publications.
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