中国云南 5 种新型蝙蝠冠状病毒的鉴定与遗传特征分析

Identification and genetic characterization of five novel bat coronaviruses from Yunnan, China.

机构信息

Faculty of Life Science and Technology, Kunming University of Science and Technology, Kunming, Yunnan, 650500, P. R. China.

The First Affiliated Hospital & Clinical Medical College, Dali University, Dali, Yunnan, 671000, P. R. China.

出版信息

BMC Vet Res. 2024 Oct 12;20(1):466. doi: 10.1186/s12917-024-04310-6.

DOI:10.1186/s12917-024-04310-6

PMID:39396004

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11470664/

Abstract

BACKGROUND

Coronaviruses (CoVs) represent a serious threat to human health and have become a major transmissible, endemic, and causative pathogen in humans; they represent a major health concern, given their ability to cause infectious diseases. Bats are natural hosts for diverse viruses. Many transmission events of CoVs and identification of multiple novel CoVs in bats has increased attention towards their capacity to serve as hosts for zoonotic viruses.

RESULTS

In this study, 61 bats from Yunnan Province were analyzed, identifying seven CoVs, including three α- and two β-CoVs with full-genome sequences. Among the five identified alpha-CoVs, four belong to the Decacovirus subgenus and one to the Minunacovirus subgenus. Two beta-CoVs were also identified, both belonging to the Sarbecovirus subgenus.The genetic structures revealed similarities to known strains such as HKU10 and SARS-CoV-2, along with novel findings such as the Minunacovirus subgenus CoV YJ3c/f and unique ORF patterns. Our results demonstrated that strain JCC9 has a unique recombination pattern and shows a higher binding affinity to civet and pangolin ACE2 receptors, then the HpJC8xc strain transmits and recombines between hosts (bats), indicating a potential risk of crossing the interspecies barrier and infecting other animals.

CONCLUSIONS

The CoVs detected in the bats studied in this research exhibit high diversity. Genomic analysis revealed that CoVs in bats undergo frequent recombination events. Furthermore, recombination patterns and evolutionary analyses suggest that alpha-CoVs are more prone to cross-species transmission across different bat families/genera, whereas beta-CoVs demonstrate host specificity and tend to co-evolve with their bat hosts.Our finding suggest that bats, as hosts of CoVs, be constantly monitored to prevent outbreaks of new infections caused by viruses passing across interspecies barriers, and consequently, viral diseases in humans or livestock.

摘要

背景

冠状病毒（CoV）对人类健康构成严重威胁，已成为人类主要的传染性、地方性和病原体；鉴于其引发传染病的能力，它们是一个主要的健康关注点。蝙蝠是多种病毒的天然宿主。CoV 在蝙蝠中的多次传播事件和多种新型 CoV 的鉴定，增加了人们对其作为人畜共患病病毒宿主的能力的关注。

结果

本研究对云南省的 61 只蝙蝠进行了分析，鉴定出 7 种 CoV，包括具有全长基因组序列的 3 种α-CoV 和 2 种β-CoV。在鉴定的 5 种α-CoV 中，有 4 种属于 Decacovirus 亚属，1 种属于 Minunacovirus 亚属。还鉴定出两种β-CoV，均属于 Sarbecovirus 亚属。遗传结构与已知株如 HKU10 和 SARS-CoV-2 相似，同时也发现了 Minunacovirus 亚属 CoV YJ3c/f 和独特的 ORF 模式。我们的结果表明，JCC9 株具有独特的重组模式，对果子狸和穿山甲 ACE2 受体的结合亲和力更高，而 HpJC8xc 株在宿主（蝙蝠）之间传播和重组，表明存在跨越种间屏障感染其他动物的潜在风险。

结论

本研究中检测到的蝙蝠 CoV 具有高度多样性。基因组分析显示，蝙蝠 CoV 经常发生重组事件。此外，重组模式和进化分析表明，α-CoV 更容易在不同的蝙蝠科/属之间发生跨种传播，而β-CoV 表现出宿主特异性，倾向于与蝙蝠宿主共同进化。我们的研究结果表明，作为 CoV 宿主的蝙蝠需要被持续监测，以防止跨种传播病毒引起的新感染爆发，并防止人类或家畜中的病毒性疾病。