Muzeniek Therese, Perera Thejanee, Siriwardana Sahan, Bas Dilara, Kaplan Fatimanur, Öruc Mizgin, Becker-Ziaja Beate, Perera Inoka, Weerasena Jagathpriya, Handunnetti Shiroma, Schwarz Franziska, Premawansa Gayani, Premawansa Sunil, Yapa Wipula, Nitsche Andreas, Kohl Claudia
Centre for Biological Threats and Special Pathogens, Highly Pathogenic Viruses (ZBS 1), Robert Koch Institute, 13353 Berlin, Germany.
Institute of Biochemistry, Molecular Biology and Biotechnology, University of Colombo, Colombo 00300, Sri Lanka.
Viruses. 2022 Feb 7;14(2):337. doi: 10.3390/v14020337.
Coronaviruses (CoV) are divided into the genera α-CoVs, β-CoVs, γ-CoVs and δ-CoVs. Of these, α-CoVs and β-CoVs are solely capable of causing infections in humans, resulting in mild to severe respiratory symptoms. Bats have been identified as natural reservoir hosts for CoVs belonging to these two genera. Consequently, research on bat populations, CoV prevalence in bats and genetic characterization of bat CoVs is of special interest to investigate the potential transmission risks. We present the genome sequence of a novel α-CoV strain detected in rectal swab samples of bats from a colony in the Wavul Galge cave (Koslanda, Sri Lanka). The novel strain is highly similar to Miniopterus bat coronavirus 1, an α-CoV located in the subgenus of Minunacoviruses. Phylogenetic reconstruction revealed a high identity of the novel strain to other α-CoVs derived from Miniopterus bats, while human-pathogenic α-CoV strains like HCoV-229E and HCoV-NL63 were more distantly related. Comparison with selected bat-related and human-pathogenic strains of the β-CoV genus showed low identities of ~40%. Analyses of the different genes on nucleotide and amino acid level revealed that the non-structural ORF1a/1b are more conserved among α-CoVs and β-CoVs, while there are higher variations in the structural proteins known to be important for host specificity. The novel strain was named batCoV/MinFul/2018/SriLanka and had a prevalence of 50% (66/130) in rectal swab samples and 58% (61/104) in feces samples that were collected from Miniopterus bats in Wavul Galge cave. Based on the differences between strain batCoV/MinFul/2018/SriLanka and human-pathogenic α-CoVs and β-CoVs, we conclude that there is a rather low transmission risk to humans. Further studies in the Wavul Galge cave and at other locations in Sri Lanka will give more detailed information about the prevalence of this virus.
冠状病毒(CoV)分为α冠状病毒属、β冠状病毒属、γ冠状病毒属和δ冠状病毒属。其中,α冠状病毒属和β冠状病毒属仅能感染人类,引发从轻度到重度的呼吸道症状。蝙蝠已被确定为这两个属冠状病毒的天然宿主。因此,对蝙蝠种群、蝙蝠体内冠状病毒的流行情况以及蝙蝠冠状病毒的基因特征进行研究,对于调查潜在传播风险具有特殊意义。我们展示了从斯里兰卡科斯兰达瓦武尔加尔盖洞穴一个蝙蝠群落的直肠拭子样本中检测到的一种新型α冠状病毒株的基因组序列。该新型毒株与小伏翼蝠冠状病毒1高度相似,小伏翼蝠冠状病毒1是小伏翼蝠属的一种α冠状病毒。系统发育重建显示,该新型毒株与其他源自小伏翼蝠的α冠状病毒具有高度同源性,而像人冠状病毒229E和人冠状病毒NL63等人类致病性α冠状病毒株的亲缘关系则较远。与β冠状病毒属中选定的蝙蝠相关毒株和人类致病性毒株进行比较,显示同源性较低,约为40%。在核苷酸和氨基酸水平上对不同基因进行分析发现,非结构开放阅读框1a/1b在α冠状病毒属和β冠状病毒属中更为保守,但已知对宿主特异性很重要的结构蛋白则存在较高变异。该新型毒株被命名为蝙蝠冠状病毒/小伏翼蝠/2018/斯里兰卡,在从瓦武尔加尔盖洞穴的小伏翼蝠采集的直肠拭子样本中的流行率为50%(66/130),在粪便样本中的流行率为58%(61/104)。基于蝙蝠冠状病毒/小伏翼蝠/2018/斯里兰卡毒株与人类致病性α冠状病毒和β冠状病毒之间的差异,我们得出结论,该病毒传播给人类的风险相当低。在瓦武尔加尔盖洞穴和斯里兰卡其他地点进行的进一步研究将提供有关该病毒流行情况的更详细信息。
