利用工程慢病毒载体平台靶向遗传药物的体内递送导致CAR - T和NK细胞的生成

IF 12.1 1区医学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Molecular Therapy Pub Date : 2025-06-27 DOI:10.1016/j.ymthe.2025.06.036

James I. Andorko, Ronnie M. Russell, Bruce C. Schnepp, Daniel Grubaugh, Karla F. Mullen, Aoi Wakabayashi, Léolène J. Carrington, Thomas O’Malley, Leticia Kuri-Cervantes, Timothy D. Culp, Philip R. Johnson

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引用次数: 0

摘要

CAR - T细胞疗法的发展极大地影响了B细胞恶性肿瘤的治疗；然而，制造这些患者特异性的自体细胞疗法是复杂的，昂贵的，并且需要在输注前预处理化疗，限制了患者的获取。在这里，我们描述了一种慢病毒平台的发展，该平台基于一种新的、去靶向的病毒融合原（Gen 2.1 fusogen）和一种膜结合的靶向片段，可以在不需要淋巴细胞耗竭的情况下，在体内靶向递送稳定整合的遗传药物。INT2104采用靶向CD7的scFv（“CD7 Binder”）将CAR20转基因传递到CD7+ T细胞和NK细胞。在小鼠和食食猴模型中产生的临床前数据表明，单次静脉给药后，INT2104在CAR T细胞（CD4+和CD8+）和CAR NK细胞中均有作用，随后CD20+ B细胞耗竭。因此，INT2104可能为那些可能受益于CAR疗法的患者提供一种更容易获得的现成治疗选择。

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Targeted in vivo delivery of genetic medicines utilizing an engineered lentiviral vector platform results in CAR T and NK cell generation

The development of CAR T cell therapies has greatly impacted the treatment of B cell malignancies; however, manufacturing these patient-specific, autologous cell therapies is complex, costly and requires preconditioning chemotherapy prior to infusion, limiting patient access. Here we describe the development of a lentiviral platform based on a novel, detargeted viral fusogen (Gen 2.1 Fusogen) and a membrane-bound targeting moiety to enable in vivo targeted delivery of stably integrating genetic medicines without the need for lymphodepletion. INT2104 employs an scFv targeting CD7 (“CD7 Binder”) to deliver a CAR20 transgene to CD7+ T and NK cells. Preclinical data generated in mouse and cynomolgus macaque models indicate INT2104 results in both CAR T cells (CD4+ and CD8+) and CAR NK cells with subsequent depletion of CD20+ B cells following a single intravenous administration. Thus, INT2104 could potentially provide a more accessible, off-the-shelf treatment option for patients who may benefit from CAR therapies.

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来源期刊

Molecular Therapy 医学-生物工程与应用微生物

CiteScore

19.20

自引率

3.20%

发文量

357

审稿时长

3 months

期刊介绍： Molecular Therapy is the leading journal for research in gene transfer, vector development, stem cell manipulation, and therapeutic interventions. It covers a broad spectrum of topics including genetic and acquired disease correction, vaccine development, pre-clinical validation, safety/efficacy studies, and clinical trials. With a focus on advancing genetics, medicine, and biotechnology, Molecular Therapy publishes peer-reviewed research, reviews, and commentaries to showcase the latest advancements in the field. With an impressive impact factor of 12.4 in 2022, it continues to attract top-tier contributions.