Low-dose SAHA enhances CD8+ T cell-mediated antitumor immunity by boosting MHC I expression in non-small cell lung cancer

IF 6.6 2区 医学 Q1 Medicine Cellular Oncology Pub Date : 2024-09-16 DOI:10.1007/s13402-024-00989-9
Wenqian Dong, Bing He, Yanhong Cao, Rui Yang, Shuang Zhang, Yujie Kong, Dapeng Lu, Xu Zheng, Yanjiao Hou, Maoxin Zhu, Chen Wang, Shihao Yu, Dechun Cui, Hao Wang, Baolong Wang
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Abstract

Background

Non-small cell lung cancer (NSCLC) is a highly aggressive type of lung cancer with poor responses to traditional therapies such as surgery, radiotherapy, and chemotherapy. While immunotherapy has become an effective approach for treating multiple types of cancer, solid tumors frequently exhibit immune escape through various mechanisms, including downregulation of MHC I expression. However, whether the upregulation of MHC I expression can improve the immunotherapeutic effect on NSCLC remains unexplored. Suberoylanilide hydroxamic acid (SAHA) is a potent histone deacetylase (HDAC) inhibitor that has been applied clinically to treat lymphoma, but a high dose of SAHA kills tumor cells and normal cells without preference. Here, we report that low-dose SAHA enhances CD8+ T cell-mediated antitumor immunity by upregulating MHC I expression in NSCLC cells.

Methods

Flow cytometric analysis, quantitative real-time PCR and western blot were used to analyze the expression of MHC I, STAT1 and Smad2/3 in both human and mouse NSCLC cell lines after SAHA treatment. The nuclear translocation of phosphorylated STAT1 and Smad2/3 was investigated by western blot and immunofluorescence staining. The mechanisms underlying STAT1 and Smad2/3 upregulation were analyzed through database searches and chromatin immunoprecipitation-qPCR. Finally, we assessed the antitumor effect of specific CD8+ T cells with SAHA treatment in vivo and in vitro.

Results

We showed that low-dose SAHA upregulated the expression of MHC I in NSCLC cell lines without affecting cell viability. We also provided evidence that high levels of MHC I induced by SAHA promoted the activation, proliferation, and cytotoxicity of specific CD8+ T cells in mouse models. Mechanistically, low-dose SAHA increased the levels of H3K9ac and H3K27ac in the promoters of the STAT1, Smad2 and Smad3 genes in NSCLC cells by inhibiting HDAC activity, resulting in elevated expression levels of STAT1, Smad2 and Smad3. The nuclear translocation of phosphorylated STAT1 and Smad2/3 markedly upregulated the expression of MHC I in NSCLC cells.

Conclusions

Low-dose SAHA enhances CD8+ T cell-mediated antitumor immunity by boosting MHC I expression in NSCLC cells. Thus, we revealed a key mechanism of SAHA-mediated enhanced antitumor immunity, providing insights into a novel immunotherapy strategy for NSCLC.

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低剂量 SAHA 可通过促进非小细胞肺癌中 MHC I 的表达来增强 CD8+ T 细胞介导的抗肿瘤免疫力
背景非小细胞肺癌(NSCLC)是一种侵袭性很强的肺癌,对手术、放疗和化疗等传统疗法反应不佳。虽然免疫疗法已成为治疗多种类型癌症的有效方法,但实体瘤经常通过各种机制表现出免疫逃逸,包括下调 MHC I 表达。然而,上调 MHC I 表达是否能改善对 NSCLC 的免疫治疗效果仍有待探索。异丁烯酰苯胺羟肟酸(SAHA)是一种强效的组蛋白去乙酰化酶(HDAC)抑制剂,已被临床应用于治疗淋巴瘤,但高剂量的SAHA对肿瘤细胞和正常细胞均有杀伤作用。方法采用流式细胞分析、实时定量 PCR 和 Western 印迹技术分析 SAHA 处理后人和小鼠 NSCLC 细胞系中 MHC I、STAT1 和 Smad2/3 的表达。通过 Western 印迹和免疫荧光染色研究了磷酸化 STAT1 和 Smad2/3 的核转位。通过数据库检索和染色质免疫沉淀-qPCR分析了STAT1和Smad2/3上调的机制。最后,我们评估了经 SAHA 处理的特异性 CD8+ T 细胞在体内和体外的抗肿瘤效果。我们还提供了证据,证明 SAHA 诱导的高水平 MHC I 促进了小鼠模型中特异性 CD8+ T 细胞的活化、增殖和细胞毒性。从机理上讲,低剂量SAHA通过抑制HDAC活性提高了NSCLC细胞中STAT1、Smad2和Smad3基因启动子中的H3K9ac和H3K27ac水平,导致STAT1、Smad2和Smad3的表达水平升高。结论低剂量 SAHA 可通过提高 NSCLC 细胞中 MHC I 的表达来增强 CD8+ T 细胞介导的抗肿瘤免疫。因此,我们揭示了 SAHA 介导的增强抗肿瘤免疫的关键机制,为 NSCLC 的新型免疫治疗策略提供了启示。
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来源期刊
Cellular Oncology
Cellular Oncology Biochemistry, Genetics and Molecular Biology-Cancer Research
CiteScore
10.40
自引率
1.50%
发文量
0
审稿时长
16 weeks
期刊介绍: The Official Journal of the International Society for Cellular Oncology Focuses on translational research Addresses the conversion of cell biology to clinical applications Cellular Oncology publishes scientific contributions from various biomedical and clinical disciplines involved in basic and translational cancer research on the cell and tissue level, technical and bioinformatics developments in this area, and clinical applications. This includes a variety of fields like genome technology, micro-arrays and other high-throughput techniques, genomic instability, SNP, DNA methylation, signaling pathways, DNA organization, (sub)microscopic imaging, proteomics, bioinformatics, functional effects of genomics, drug design and development, molecular diagnostics and targeted cancer therapies, genotype-phenotype interactions. A major goal is to translate the latest developments in these fields from the research laboratory into routine patient management. To this end Cellular Oncology forms a platform of scientific information exchange between molecular biologists and geneticists, technical developers, pathologists, (medical) oncologists and other clinicians involved in the management of cancer patients. In vitro studies are preferentially supported by validations in tumor tissue with clinicopathological associations.
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