严重急性呼吸综合征冠状病毒2（SARS-CoV-2）引发了肠道微生物群中的氧化应激和能量代谢异常。

SARS-CoV-2 triggered oxidative stress and abnormal energy metabolism in gut microbiota.

作者信息

Zhou Tuoyu, Wu Jingyuan, Zeng Yufei, Li Junfeng, Yan Jun, Meng Wenbo, Han Huawen, Feng Fengya, He Jufang, Zhao Shuai, Zhou Ping, Wu Ying, Yang Yanlin, Han Rong, Jin Weilin, Li Xun, Yang Yunfeng, Li Xiangkai

机构信息

Ministry of Education Key Laboratory of Cell Activities and Stress Adaptations School of Life Sciences Lanzhou University Lanzhou P. R. China.

Gansu Province Key Laboratory Biotherapy and Regenerative Medicine The First Hospital of Lanzhou University Lanzhou P. R. China.

出版信息

MedComm (2020). 2022 Jan 17;3(1):e112. doi: 10.1002/mco2.112. eCollection 2022 Mar.

DOI:10.1002/mco2.112

PMID:35281785

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8906553/

Abstract

Specific roles of gut microbes in COVID-19 progression are critical. However, the circumstantial mechanism remains elusive. In this study, shotgun metagenomic or metatranscriptomic sequencing was performed on fecal samples collected from 13 COVID-19 patients and controls. We analyzed the structure of gut microbiota, identified the characteristic bacteria, and selected biomarkers. Further, gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) annotations were employed to correlate the taxon alterations and corresponding functions. The gut microbiota of COVID-19 patients was characterized by the enrichment of opportunistic pathogens and depletion of commensals. The abundance of spp. displayed an inverse relationship with COVID-19 severity, whereas , , and were positively correlated with disease severity. The genes encoding oxidoreductase were significantly enriched in gut microbiome of COVID-19 group. KEGG annotation indicated that the expression of ABC transporter was upregulated, while the synthesis pathway of butyrate was aberrantly reduced. Furthermore, increased metabolism of lipopolysaccharide, polyketide sugar, sphingolipids, and neutral amino acids were found. These results suggested the gut microbiome of COVID-19 patients was in a state of oxidative stress. Healthy gut microbiota may enhance antiviral defenses via butyrate metabolism, whereas the accumulation of opportunistic and inflammatory bacteria may exacerbate COVID-19 progression.

摘要

肠道微生物群在新冠病毒疾病进展中的特定作用至关重要。然而，其间接机制仍不清楚。在本研究中，对从13名新冠病毒疾病患者和对照者收集的粪便样本进行了鸟枪法宏基因组或宏转录组测序。我们分析了肠道微生物群的结构，鉴定了特征性细菌，并选择了生物标志物。此外，利用基因本体（GO）和京都基因与基因组百科全书（KEGG）注释来关联分类群变化和相应功能。新冠病毒疾病患者的肠道微生物群特征为机会性病原体富集和共生菌减少。属的丰度与新冠病毒疾病严重程度呈负相关，而属、属和属与疾病严重程度呈正相关。编码氧化还原酶的基因在新冠病毒疾病组的肠道微生物组中显著富集。KEGG注释表明ABC转运蛋白的表达上调，而丁酸盐的合成途径异常减少。此外，还发现脂多糖、聚酮糖、鞘脂和中性氨基酸的代谢增加。这些结果表明，新冠病毒疾病患者的肠道微生物组处于氧化应激状态。健康的肠道微生物群可能通过丁酸盐代谢增强抗病毒防御，而机会性和炎性细菌的积累可能会加剧新冠病毒疾病的进展。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c1af/8906553/95eeebf98a5e/MCO2-3-e112-g005.jpg

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严重急性呼吸综合征冠状病毒2（SARS-CoV-2）引发了肠道微生物群中的氧化应激和能量代谢异常。

SARS-CoV-2 triggered oxidative stress and abnormal energy metabolism in gut microbiota.

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