Targeting autophagy overcomes cancer-intrinsic resistance to CAR-T immunotherapy in B-cell malignancies

IF 20.1 1区医学 Q1 ONCOLOGY Cancer Communications Pub Date : 2024-02-26 DOI:10.1002/cac2.12525

Lu Tang, Huan Zhang, Fen Zhou, Qiuzhe Wei, Mengyi Du, Jianghua Wu, Chenggong Li, Wenjing Luo, Jie Zhou, Xindi Wang, Zhaozhao Chen, Yinqiang Zhang, Zhongpei Huang, Zhuolin Wu, Yuxi Wen, Huiwen Jiang, Danying Liao, Haiming Kou, Wei Xiong, Heng Mei, Yu Hu

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Abstract

Background

Chimeric antigen receptor T (CAR-T) therapy has substantially revolutionized the clinical outcomes of patients with hematologic malignancies, but the cancer-intrinsic mechanisms underlying resistance to CAR-T cells remain yet to be fully understood. This study aims to explore the molecular determinants of cancer cell sensitivity to CAR-T cell-mediated killing and to provide a better understanding of the underlying mechanisms and potential modulation to improve clinical efficacy.

Methods

The human whole-genome CRISPR/Cas9-based knockout screening was conducted to identify key genes that enable cancer cells to evade CD19 CAR-T-cell-mediated killing. The in vitro cytotoxicity assays and evaluation of tumor tissue and bone marrow specimens were further conducted to confirm the role of the key genes in cancer cell susceptibility to CAR-T cells. In addition, the specific mechanisms influencing CAR-T cell-mediated cancer clearance were elucidated in mouse and cellular models.

Results

The CRISPR/Cas9-based knockout screening showed that the enrichment of autophagy-related genes (ATG3, BECN1, and RB1CC1) provided protection of cancer cells from CD19 CAR-T cell-mediated cytotoxicity. These findings were further validated by in vitro cytotoxicity assays in cells with genetic and pharmacological inhibition of autophagy. Notably, higher expression of the three autophagy-related proteins in tumor samples was correlated with poorer responsiveness and worse survival in patients with relapsed/refractory B-cell lymphoma after CD19 CAR-T therapy. Bulk RNA sequencing analysis of bone marrow samples from B-cell leukemia patients also suggested the clinical relevance of autophagy to the therapeutic response and relapse after CD19 CAR-T cell therapy. Pharmacological inhibition of autophagy and knockout of RB1CC1 could dramatically sensitize tumor cells to CD19 CAR-T cell-mediated killing in mouse models of both B-cell leukemia and lymphoma. Moreover, our study revealed that cancer-intrinsic autophagy mediates evasion of CAR-T cells via the TNF-α-TNFR1 axis-mediated apoptosis and STAT1/IRF1-induced chemokine signaling activation.

Conclusions

These findings confirm that autophagy signaling in B-cell malignancies is essential for the effective cytotoxic function of CAR-T cells and thereby pave the way for the development of autophagy-targeting strategies to improve the clinical efficacy of CAR-T cell immunotherapy.

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以自噬为靶点克服B细胞恶性肿瘤对CAR-T免疫疗法的内在抗药性。

背景：嵌合抗原受体T（CAR-T）疗法极大地改变了血液恶性肿瘤患者的临床疗效，但CAR-T细胞耐药性的癌症内在机制仍有待全面了解。本研究旨在探索癌细胞对CAR-T细胞介导的杀伤敏感性的分子决定因素，从而更好地了解其潜在机制和可能的调控，以提高临床疗效：方法：通过基于CRISPR/Cas9的人类全基因组基因敲除筛选，找出使癌细胞逃避CD19 CAR-T细胞介导的杀伤的关键基因。通过体外细胞毒性实验以及对肿瘤组织和骨髓标本的评估，进一步证实了这些关键基因在癌细胞对 CAR-T 细胞易感性中的作用。此外，还在小鼠和细胞模型中阐明了影响CAR-T细胞介导的癌症清除的具体机制：结果：基于CRISPR/Cas9的基因敲除筛选显示，自噬相关基因（ATG3、BECN1和RB1CC1）的富集可保护癌细胞不受CD19 CAR-T细胞介导的细胞毒性的影响。对自噬进行基因和药物抑制的细胞进行体外细胞毒性实验进一步验证了这些发现。值得注意的是，三种自噬相关蛋白在肿瘤样本中的高表达与CD19 CAR-T疗法后复发/难治性B细胞淋巴瘤患者的较差反应性和较差存活率相关。对B细胞白血病患者骨髓样本的大量RNA测序分析也表明，自噬与CD19 CAR-T细胞疗法后的治疗反应和复发具有临床相关性。在B细胞白血病和淋巴瘤的小鼠模型中，药理抑制自噬和敲除RB1CC1可使肿瘤细胞对CD19 CAR-T细胞介导的杀伤显著敏感。此外，我们的研究还发现，癌症内在自噬通过 TNF-α-TNFR1 轴介导的细胞凋亡和 STAT1/IRF1 诱导的趋化因子信号激活，介导 CAR-T 细胞的逃避：这些发现证实了自噬信号在 B 细胞恶性肿瘤中对 CAR-T 细胞的有效细胞毒性功能至关重要，从而为开发自噬靶向策略以提高 CAR-T 细胞免疫疗法的临床疗效铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cancer Communications Biochemistry, Genetics and Molecular Biology-Cancer Research

CiteScore

25.50

自引率

4.30%

发文量

153

审稿时长

4 weeks

期刊介绍： Cancer Communications is an open access, peer-reviewed online journal that encompasses basic, clinical, and translational cancer research. The journal welcomes submissions concerning clinical trials, epidemiology, molecular and cellular biology, and genetics.