化学诱导的 IL-2 受体信号复合物允许有效地在体外和体内选择工程化的 CD4+T 细胞。

A chemically inducible IL-2 receptor signaling complex allows for effective in vitro and in vivo selection of engineered CD4+ T cells.

机构信息

Center for Immunity and Immunotherapies and the Program for Cell and Gene Therapy, Seattle Children's Research Institute, 1900 Ninth Avenue, Seattle WA 98101, USA.

GentiBio, Inc., 150 Cambridgepark Drive, Cambridge, MA 02140, USA.

出版信息

Mol Ther. 2023 Aug 2;31(8):2472-2488. doi: 10.1016/j.ymthe.2023.04.021. Epub 2023 May 4.

DOI:10.1016/j.ymthe.2023.04.021

PMID:37147803

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10421999/

Abstract

Engineered T cells represent an emerging therapeutic modality. However, complex engineering strategies can present a challenge for enriching and expanding therapeutic cells at clinical scale. In addition, lack of in vivo cytokine support can lead to poor engraftment of transferred T cells, including regulatory T cells (T). Here, we establish a cell-intrinsic selection system that leverages the dependency of primary T cells on IL-2 signaling. FRB-IL2RB and FKBP-IL2RG fusion proteins were identified permitting selective expansion of primary CD4+ T cells in rapamycin supplemented medium. This chemically inducible signaling complex (CISC) was subsequently incorporated into HDR donor templates designed to drive expression of the T master regulator FOXP3. Following editing of CD4+ T cells, CISC+ engineered T (CISC EngTreg) were selectively expanded using rapamycin and maintained T activity. Following transfer into immunodeficient mice treated with rapamycin, CISC EngTreg exhibited sustained engraftment in the absence of IL-2. Furthermore, in vivo CISC engagement increased the therapeutic activity of CISC EngTreg. Finally, an editing strategy targeting the TRAC locus permitted generation and selective enrichment of CISC+ functional CD19-CAR-T cells. Together, CISC provides a robust platform to achieve both in vitro enrichment and in vivo engraftment and activation, features likely beneficial across multiple gene-edited T cell applications.

摘要

工程化 T 细胞代表了一种新兴的治疗模式。然而，复杂的工程化策略在临床规模上可能会对富集和扩增治疗细胞构成挑战。此外，缺乏体内细胞因子的支持可能导致转导的 T 细胞（包括调节性 T 细胞）植入不良。在这里，我们建立了一种细胞内在的选择系统，利用原代 T 细胞对 IL-2 信号的依赖性。鉴定出 FRB-IL2RB 和 FKBP-IL2RG 融合蛋白，允许在雷帕霉素补充的培养基中选择性扩增原代 CD4+T 细胞。该化学诱导信号复合物（CISC）随后被整合到 HDR 供体模板中，用于驱动 T 主调控因子 FOXP3 的表达。在编辑 CD4+T 细胞后，使用雷帕霉素选择性地扩增 CISC+工程化 T（CISC EngTreg）并维持 T 细胞的活性。在接受雷帕霉素治疗的免疫缺陷小鼠中进行转移后，CISC EngTreg 在没有 IL-2 的情况下持续植入。此外，体内 CISC 结合增加了 CISC EngTreg 的治疗活性。最后，针对 TRAC 基因座的编辑策略允许生成和选择性富集 CISC+功能性 CD19-CAR-T 细胞。总之，CISC 提供了一个强大的平台，可实现体外富集和体内植入及激活，这在多个基因编辑 T 细胞应用中可能是有益的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/41de/10421999/cbb38fa30c60/fx1.jpg

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化学诱导的 IL-2 受体信号复合物允许有效地在体外和体内选择工程化的 CD4+T 细胞。

A chemically inducible IL-2 receptor signaling complex allows for effective in vitro and in vivo selection of engineered CD4+ T cells.

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