宿主-病原体进化冲突的特征揭示了 MISTR-A 保守的 MItochondrial STress 反应网络。

Signatures of host-pathogen evolutionary conflict reveal MISTR-A conserved MItochondrial STress Response network.

机构信息

Department of Immunology, University of Texas Southwestern Medical Center, Dallas, Texas, United States of America.

Institute of Biomedical Studies, Baylor University, Waco, Texas, United States of America.

出版信息

PLoS Biol. 2020 Dec 28;18(12):e3001045. doi: 10.1371/journal.pbio.3001045. eCollection 2020 Dec.

DOI:10.1371/journal.pbio.3001045

PMID:33370271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7793259/

Abstract

Host-pathogen conflicts leave genetic signatures in genes that are critical for host defense functions. Using these "molecular scars" as a guide to discover gene functions, we discovered a vertebrate-specific MItochondrial STress Response (MISTR) circuit. MISTR proteins are associated with electron transport chain (ETC) factors and activated by stress signals such as interferon gamma (IFNγ) and hypoxia. Upon stress, ultraconserved microRNAs (miRNAs) down-regulate MISTR1(NDUFA4) followed by replacement with paralogs MItochondrial STress Response AntiViral (MISTRAV) and/or MItochondrial STress Response Hypoxia (MISTRH). While cells lacking MISTR1(NDUFA4) are more sensitive to chemical and viral apoptotic triggers, cells lacking MISTRAV or expressing the squirrelpox virus-encoded vMISTRAV exhibit resistance to the same insults. Rapid evolution signatures across primate genomes for MISTR1(NDUFA4) and MISTRAV indicate recent and ongoing conflicts with pathogens. MISTR homologs are also found in plants, yeasts, a fish virus, and an algal virus indicating ancient origins and suggesting diverse means of altering mitochondrial function under stress. The discovery of MISTR circuitry highlights the use of evolution-guided studies to reveal fundamental biological processes.

摘要

宿主-病原体冲突在宿主防御功能至关重要的基因中留下遗传痕迹。我们利用这些“分子痕迹”作为发现基因功能的指南，发现了一种脊椎动物特异性的线粒体应激反应（MISTR）通路。MISTR 蛋白与电子传递链（ETC）因子相关联，并被干扰素γ（IFNγ）和缺氧等应激信号激活。在应激下，超保守的 microRNAs（miRNAs）下调 MISTR1（NDUFA4），随后被其同源物线粒体应激反应抗病毒（MISTRAV）和/或线粒体应激反应缺氧（MISTRH）取代。虽然缺乏 MISTR1（NDUFA4）的细胞对化学和病毒凋亡触发更敏感，但缺乏 MISTRAV 或表达松鼠痘病毒编码的 vMISTRAV 的细胞对相同的刺激表现出抗性。MISTR1（NDUFA4）和 MISTRAV 在灵长类动物基因组中的快速进化特征表明，它们与病原体之间存在近期和持续的冲突。MISTR 同源物也存在于植物、酵母、一种鱼类病毒和一种藻类病毒中，这表明它们具有古老的起源，并暗示了在应激下改变线粒体功能的多种方式。MISTR 通路的发现强调了利用进化导向的研究来揭示基本的生物学过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c3a/7793259/1f36994644ab/pbio.3001045.g001.jpg

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宿主-病原体进化冲突的特征揭示了 MISTR-A 保守的 MItochondrial STress 反应网络。

Signatures of host-pathogen evolutionary conflict reveal MISTR-A conserved MItochondrial STress Response network.

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