Gulla Snorre, Tengs Torstein, Mohammad Saima Nasrin, Gjessing Mona, Garseth Åse Helen, Sveinsson Karoline, Moldal Torfinn, Petersen Petra E, Tørud Brit, Dale Ole Bendik, Dahle Maria K
Norwegian Veterinary Institute, Oslo, Norway.
Department of Molecular Biology, Norwegian Institute of Public Health, Oslo, Norway.
Front Microbiol. 2020 May 29;11:1071. doi: 10.3389/fmicb.2020.01071. eCollection 2020.
Salmon gill poxvirus (SGPV) can cause serious gill disease in Atlantic salmon ( L.) and represents a significant problem to aquaculture industries in Northern Europe. Here, a single-tube multi-locus variable-number tandem-repeat (VNTR) analysis (MLVA) genotyping assay, targeting eight VNTR loci, was developed for studying the epizootiology of SGPV. Through MLVA typing of SGPV positive samples from 180 farmed and wild Atlantic salmon in Northern Europe, the first molecular population study of this virus was undertaken. Comparison of resulting MLVA profiles by cluster analysis revealed considerable micro-diversity, while only a limited degree of specific clustering by country of origin could be observed, and no clustering relating to the severity of disease outbreaks. Phylogenetic analysis, based on genomic data from six SGPV specimens (three Norwegian, one Scottish, one Faroese and one Canadian), complemented and corroborated MLVA by pointing to a marked transatlantic divide in the species, with one main, relatively conserved, SGPV lineage as predominant in Europe. Within certain fjord systems and individual freshwater salmon smolt farms in Norway, however, discrete MLVA clustering patterns that prevailed over time were observed, likely reflecting local predominance of specific SGPV sub-lineages. MLVA typing was also used to refute two suspected instances of vertical SGPV transmission from salmon broodstock to offspring, and to confirm a failed disinfection attempt in one farm. These novel insights into the previously undocumented population structure of SGPV provide important clues, e.g., regarding the mechanisms underlying spread and recurrence of the virus amongst wild and farmed salmon populations, but so far no indications of more or less virulent SGPV sub-lineages have been found. The MLVA scheme represents a highly sensitive genotyping tool particularly well suited for illuminating SGPV infection routes, and adds to the relatively low number of MLVA protocols that have so far been published for viral species. Typing is reasonably inexpensive, with a moderate technological requirement, and may be completed within a single working day. Resulting MLVA profiles can be readily shared and compared across laboratories, facilitating rapid placement of samples in an international ezpizootiological context.
鲑鱼鳃痘病毒(SGPV)可导致大西洋鲑(Salmo salar L.)患上严重的鳃病,对北欧的水产养殖业构成重大问题。在此,开发了一种针对8个可变数目串联重复序列(VNTR)位点的单管多位点VNTR分析(MLVA)基因分型检测方法,用于研究SGPV的流行病学。通过对北欧180条养殖和野生大西洋鲑的SGPV阳性样本进行MLVA分型,首次对该病毒进行了分子群体研究。通过聚类分析对所得MLVA图谱进行比较,发现存在相当大的微观多样性,而按原产国观察到的特定聚类程度有限,且未发现与疾病暴发严重程度相关的聚类。基于6个SGPV样本(3个挪威样本、1个苏格兰样本、1个法罗群岛样本和1个加拿大样本)的基因组数据进行的系统发育分析,通过指出该物种中明显的跨大西洋差异,补充并证实了MLVA分析结果,其中一个主要的、相对保守的SGPV谱系在欧洲占主导地位。然而,在挪威的某些峡湾系统和个别淡水鲑鱼苗养殖场中,观察到随着时间推移普遍存在的离散MLVA聚类模式,这可能反映了特定SGPV亚谱系在当地的优势地位。MLVA分型还被用于反驳两起疑似SGPV从鲑鱼亲鱼垂直传播到后代的案例,并确认了一个养殖场消毒尝试的失败。这些对SGPV此前未记录的群体结构的新见解提供了重要线索,例如关于该病毒在野生和养殖鲑鱼群体中传播和复发的潜在机制,但到目前为止尚未发现毒性更强或更弱的SGPV亚谱系的迹象。MLVA方案是一种高度灵敏的基因分型工具,特别适合阐明SGPV的感染途径,并且增加了迄今为止针对病毒物种已发表的相对较少的MLVA方案数量。分型成本合理,技术要求适中,并且可以在一个工作日内完成。所得的MLVA图谱可以在不同实验室之间轻松共享和比较,便于在国际动物流行病学背景下快速对样本进行定位。
