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KDM5B通过招募SETDB1使逆转录元件沉默来促进免疫逃逸。

KDM5B promotes immune evasion by recruiting SETDB1 to silence retroelements.

作者信息

Zhang Shang-Min, Cai Wesley L, Liu Xiaoni, Thakral Durga, Luo Jiesi, Chan Lok Hei, McGeary Meaghan K, Song Eric, Blenman Kim R M, Micevic Goran, Jessel Shlomit, Zhang Yangyi, Yin Mingzhu, Booth Carmen J, Jilaveanu Lucia B, Damsky William, Sznol Mario, Kluger Harriet M, Iwasaki Akiko, Bosenberg Marcus W, Yan Qin

机构信息

Department of Pathology, Yale School of Medicine, New Haven, CT, USA.

Hillman Cancer Center, University of Pittsburgh Medical Center, Pittsburgh, PA, USA.

出版信息

Nature. 2021 Oct;598(7882):682-687. doi: 10.1038/s41586-021-03994-2. Epub 2021 Oct 20.

DOI:10.1038/s41586-021-03994-2
PMID:34671158
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8555464/
Abstract

Tumours use various strategies to evade immune surveillance. Immunotherapies targeting tumour immune evasion such as immune checkpoint blockade have shown considerable efficacy on multiple cancers but are ineffective for most patients due to primary or acquired resistance. Recent studies showed that some epigenetic regulators suppress anti-tumour immunity, suggesting that epigenetic therapies could boost anti-tumour immune responses and overcome resistance to current immunotherapies. Here we show that, in mouse melanoma models, depletion of KDM5B-an H3K4 demethylase that is critical for melanoma maintenance and drug resistance-induces robust adaptive immune responses and enhances responses to immune checkpoint blockade. Mechanistically, KDM5B recruits the H3K9 methyltransferase SETDB1 to repress endogenous retroelements such as MMVL30 in a demethylase-independent manner. Derepression of these retroelements activates cytosolic RNA-sensing and DNA-sensing pathways and the subsequent type-I interferon response, leading to tumour rejection and induction of immune memory. Our results demonstrate that KDM5B suppresses anti-tumour immunity by epigenetic silencing of retroelements. We therefore reveal roles of KDM5B in heterochromatin regulation and immune evasion in melanoma, opening new paths for the development of KDM5B-targeting and SETDB1-targeting therapies to enhance tumour immunogenicity and overcome immunotherapy resistance.

摘要

肿瘤会采用多种策略来逃避免疫监视。诸如免疫检查点阻断等针对肿瘤免疫逃逸的免疫疗法已在多种癌症上显示出显著疗效,但由于原发性或获得性耐药,对大多数患者无效。最近的研究表明,一些表观遗传调节因子会抑制抗肿瘤免疫,这表明表观遗传疗法可以增强抗肿瘤免疫反应并克服对当前免疫疗法的耐药性。在此我们表明,在小鼠黑色素瘤模型中,KDM5B(一种对黑色素瘤维持和耐药性至关重要的H3K4去甲基化酶)的缺失会诱导强大的适应性免疫反应,并增强对免疫检查点阻断的反应。从机制上讲,KDM5B会募集H3K9甲基转移酶SETDB1,以一种不依赖去甲基化酶的方式抑制内源性逆转录元件,如MMVL30。这些逆转录元件的去抑制会激活胞质RNA传感和DNA传感途径以及随后的I型干扰素反应,从而导致肿瘤排斥和免疫记忆的诱导。我们的结果表明,KDM5B通过对逆转录元件的表观遗传沉默来抑制抗肿瘤免疫。因此,我们揭示了KDM5B在黑色素瘤异染色质调节和免疫逃逸中的作用,为开发靶向KDM5B和SETDB1的疗法以增强肿瘤免疫原性和克服免疫治疗耐药性开辟了新途径。

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