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使用睡美人转座子/转座酶系统稳定、非病毒表达突变的肿瘤新抗原特异性T细胞受体

Stable, Nonviral Expression of Mutated Tumor Neoantigen-specific T-cell Receptors Using the Sleeping Beauty Transposon/Transposase System.

作者信息

Deniger Drew C, Pasetto Anna, Tran Eric, Parkhurst Maria R, Cohen Cyrille J, Robbins Paul F, Cooper Laurence Jn, Rosenberg Steven A

机构信息

Surgery Branch, Center for Cancer Research, National Cancer Institute, National Institutes of Health, Bethesda, Maryland, USA.

Tumor Immunology and Immunotherapy, Bar-Ilan University, Ramat Gan, Israel.

出版信息

Mol Ther. 2016 Jun;24(6):1078-1089. doi: 10.1038/mt.2016.51. Epub 2016 Mar 5.

DOI:10.1038/mt.2016.51
PMID:26945006
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4923320/
Abstract

Neoantigens unique to each patient's tumor can be recognized by autologous T cells through their T-cell receptor (TCR) but the low frequency and/or terminal differentiation of mutation-specific T cells in tumors can limit their utility as adoptive T-cell therapies. Transfer of TCR genes into younger T cells from peripheral blood with a high proliferative potential could obviate this problem. We generated a rapid, cost-effective strategy to genetically engineer cancer patient T cells with TCRs using the clinical Sleeping Beauty transposon/transposase system. Patient-specific TCRs reactive against HLA-A0201-restriced neoantigens AHNAK(S2580F) or ERBB2(H473Y) or the HLA-DQB0601-restricted neoantigen ERBB2IP(E805G) were assembled with murine constant chains and cloned into Sleeping Beauty transposons. Patient peripheral blood lymphocytes were coelectroporated with SB11 transposase and Sleeping Beauty transposon, and transposed T cells were enriched by sorting on murine TCRβ (mTCRβ) expression. Rapid expansion of mTCRβ(+) T cells with irradiated allogeneic peripheral blood lymphocytes feeders, OKT3, interleukin-2 (IL-2), IL-15, and IL-21 resulted in a preponderance of effector (CD27(-)CD45RA(-)) and less-differentiated (CD27(+)CD45RA(+)) T cells. Transposed T cells specifically mounted a polyfunctional response against cognate mutated neoantigens and tumor cell lines. Thus, Sleeping Beauty transposition of mutation-specific TCRs can facilitate the use of personalized T-cell therapy targeting unique neoantigens.

摘要

每位患者肿瘤特有的新抗原可通过其T细胞受体(TCR)被自体T细胞识别,但肿瘤中突变特异性T细胞的低频和/或终末分化可能会限制其作为过继性T细胞疗法的效用。将TCR基因转移到具有高增殖潜力的外周血年轻T细胞中可以避免这个问题。我们利用临床应用的睡美人转座子/转座酶系统,开发了一种快速、经济高效的策略,用于对癌症患者的T细胞进行TCR基因工程改造。将针对HLA-A0201限制性新抗原AHNAK(S2580F)或ERBB2(H473Y)或HLA-DQB0601限制性新抗原ERBB2IP(E805G)的患者特异性TCR与小鼠恒定链组装,并克隆到睡美人转座子中。将患者外周血淋巴细胞与SB11转座酶和睡美人转座子共电穿孔,通过对小鼠TCRβ(mTCRβ)表达进行分选来富集转座的T细胞。用辐照的同种异体外周血淋巴细胞饲养细胞、OKT3、白细胞介素-2(IL-2)、IL-15和IL-21对mTCRβ(+) T细胞进行快速扩增,导致效应性(CD27(-)CD45RA(-))和分化程度较低(CD27(+)CD45RA(+))的T细胞占优势。转座的T细胞对同源突变新抗原和肿瘤细胞系特异性地产生多功能反应。因此,突变特异性TCR的睡美人转座可以促进针对独特新抗原的个性化T细胞疗法的应用。