Optimization and validation of CAR transduction into human primary NK cells using CRISPR and AAV

使用 CRISPR 和 AAV 对 CAR 转导至人类原代 NK 细胞进行优化和验证

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作者：Meisam Naeimi Kararoudi, Shibi Likhite, Ezgi Elmas, Kenta Yamamoto, Maura Schwartz, Kinnari Sorathia, Marcelo de Souza Fernandes Pereira, Yasemin Sezgin, Raymond D Devine, Justin M Lyberger, Gregory K Behbehani, Nitin Chakravarti, Branden S Moriarity, Kathrin Meyer, Dean A Lee

期刊：	Cell Reports Methods	影响因子：	4.300
时间：	2022	起止号：	2022 Jun 13;2(6):100236.
doi：	10.1016/j.crmeth.2022.100236	种属：	Goat
靶点：	IgG Fc	研究方向：	细胞生物学
细胞类型：	自然杀伤细胞

Abstract

Human primary natural killer (NK) cells are being widely advanced for cancer immunotherapy. However, methods for gene editing of these cells have suffered low transduction rates, high cell death, and loss of transgene expression after expansion. Here, we developed a highly efficient method for site-specific gene insertion in NK cells using CRISPR (Cas9/RNP) and AAVs. We compared AAV vectors designed to mediate gene insertion by different DNA repair mechanisms, homology arm lengths, and virus concentrations. We then validated the method for site-directed gene insertion of CD33-specific CARs into primary human NK cells. CAR transduction was efficient, its expression remained stable after expansion, and it improved efficacy against AML targets.

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