Department of Medical Oncology, Molecular Oncology Laboratories, Weatherall Institute of Molecular Medicine, University of Oxford, John Radcliffe Hospital, Oxford, United Kingdom.
Botnar Research Center, Nuffield Department of Orthopaedics, Rheumatology and Musculoskeletal Sciences, NIHR Oxford BRU, University of Oxford, United Kingdom.
Cancer Res. 2020 Dec 1;80(23):5245-5256. doi: 10.1158/0008-5472.CAN-19-2306. Epub 2020 Oct 28.
Hypoxia is a common phenomenon in solid tumors and is strongly linked to hallmarks of cancer. Recent evidence has shown that hypoxia promotes local immune suppression. Type I IFN supports cytotoxic T lymphocytes by stimulating the maturation of dendritic cells and enhancing their capacity to process and present antigens. However, little is known about the relationship between hypoxia and the type I IFN pathway, which comprises the sensing of double-stranded RNA and DNA (dsRNA/dsDNA) followed by IFNα/β secretion and transcriptional activation of IFN-stimulated genes (ISG). In this study, we determined the effects of hypoxia on the type I IFN pathway in breast cancer and the mechanisms involved. In cancer cell lines and xenograft models, mRNA and protein expressions of the type I IFN pathway were downregulated under hypoxic conditions. This pathway was suppressed at each level of signaling, from the dsRNA sensors RIG-I and MDA5, the adaptor MAVS, transcription factors IRF3, IRF7, and STAT1, and several ISG including RIG-I, IRF7, STAT1, and ADAR-p150. Importantly, IFN secretion was reduced under hypoxic conditions. HIF1α- and HIF2α-mediated regulation of gene expression did not explain most of the effects. However, ATAC-seq data revealed in hypoxia that peaks with STAT1 and IRF3 motifs had decreased accessibility. Collectively, these results indicate that hypoxia leads to an overall downregulation of the type I IFN pathway due to repressed transcription and lower chromatin accessibility in an HIF1/2α-independent manner, which could contribute to immunosuppression in hypoxic tumors. SIGNIFICANCE: These findings characterize a new mechanism of immunosuppression by hypoxia via downregulation of the type I IFN pathway and its autocrine/paracrine effects on tumor growth.
缺氧是实体瘤中常见的现象,与癌症的标志密切相关。最近的证据表明,缺氧会促进局部免疫抑制。I 型干扰素通过刺激树突状细胞的成熟并增强其处理和呈递抗原的能力来支持细胞毒性 T 淋巴细胞。然而,关于缺氧与 I 型干扰素途径之间的关系知之甚少,该途径包括双链 RNA 和 DNA(dsRNA/dsDNA)的感应,随后是 IFNα/β的分泌以及 IFN 刺激基因(ISG)的转录激活。在这项研究中,我们确定了缺氧对乳腺癌中 I 型干扰素途径的影响及其涉及的机制。在癌细胞系和异种移植模型中,缺氧条件下 I 型干扰素途径的 mRNA 和蛋白质表达下调。该途径在信号转导的每个水平受到抑制,从 dsRNA 传感器 RIG-I 和 MDA5、衔接子 MAVS、转录因子 IRF3、IRF7 和 STAT1 以及包括 RIG-I、IRF7、STAT1 和 ADAR-p150 在内的几种 ISG。重要的是,IFN 分泌在缺氧条件下减少。HIF1α 和 HIF2α 介导的基因表达调节并不能解释大部分影响。然而,ATAC-seq 数据显示,在缺氧条件下,STAT1 和 IRF3 基序的峰的可及性降低。总之,这些结果表明,由于转录抑制和染色质可及性降低,缺氧导致 I 型干扰素途径的整体下调,这可能导致缺氧肿瘤中的免疫抑制。意义:这些发现描述了一种新的通过下调 I 型干扰素途径及其对肿瘤生长的自分泌/旁分泌作用导致缺氧引起的免疫抑制的机制。
