精胺通过稳定 DNA 传感器 cGAS 与 DNA 的结合增强抗病毒和抗癌反应。

Spermine enhances antiviral and anticancer responses by stabilizing DNA binding with the DNA sensor cGAS.

机构信息

Institute of Cancer Stem Cell, Dalian Medical University, Dalian, Liaoning 116044, China.

CAS Key Laboratory of Separation Sciences for Analytical Chemistry, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, Liaoning 116023, China.

出版信息

Immunity. 2023 Feb 14;56(2):272-288.e7. doi: 10.1016/j.immuni.2023.01.001. Epub 2023 Jan 31.

DOI:10.1016/j.immuni.2023.01.001

PMID:36724787

Abstract

Self-nonself discrimination is vital for the immune system to mount responses against pathogens while maintaining tolerance toward the host and innocuous commensals during homeostasis. Here, we investigated how indiscriminate DNA sensors, such as cyclic GMP-AMP synthase (cGAS), make this self-nonself distinction. Screening of a small-molecule library revealed that spermine, a well-known DNA condenser associated with viral DNA, markedly elevates cGAS activation. Mechanistically, spermine condenses DNA to enhance and stabilize cGAS-DNA binding, optimizing cGAS and downstream antiviral signaling. Spermine promotes condensation of viral, but not host nucleosome, DNA. Deletion of viral DNA-associated spermine, by propagating virus in spermine-deficient cells, reduced cGAS activation. Spermine depletion subsequently attenuated cGAS-mediated antiviral and anticancer immunity. Collectively, our results reveal a pathogenic DNA-associated molecular pattern that facilitates nonself recognition, linking metabolism and pathogen recognition.

摘要

自身-非自身区分对于免疫系统至关重要，它可以在对抗病原体的同时，在体内平衡时保持对宿主和无害共生体的耐受性。在这里，我们研究了无差别 DNA 传感器（如环鸟苷酸-腺苷酸合酶（cGAS））如何进行这种自身-非自身区分。对小分子文库的筛选表明，精胺是一种与病毒 DNA 相关的众所周知的 DNA 凝聚剂，可显著提高 cGAS 的激活。从机制上讲，精胺通过凝聚 DNA 来增强和稳定 cGAS-DNA 结合，从而优化 cGAS 和下游抗病毒信号。精胺促进病毒 DNA 的凝聚，而不是宿主核小体 DNA 的凝聚。通过在缺乏精胺的细胞中繁殖病毒来删除与病毒 DNA 相关的精胺，会降低 cGAS 的激活。精胺耗竭随后减弱了 cGAS 介导的抗病毒和抗癌免疫。总的来说，我们的结果揭示了一种与致病性 DNA 相关的分子模式，它有助于非自身识别，将代谢和病原体识别联系起来。

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精胺通过稳定 DNA 传感器 cGAS 与 DNA 的结合增强抗病毒和抗癌反应。

Spermine enhances antiviral and anticancer responses by stabilizing DNA binding with the DNA sensor cGAS.

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