Identifying the genetic mechanisms facilitating host range and virulence of a viral pathogen that threatens European amphibian biodiversity

确定威胁欧洲两栖动物生物多样性的病毒病原体的宿主范围和毒力的遗传机制

• 批准号: NE/M00080X/1
• 负责人: Richard Nichols
• 金额: $ 7.26万
• 依托单位: Queen Mary University of London
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2015
• 资助国家: 英国
• 起止时间: 2015 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FM00080X%2F1
• 关键词: Identifying; genetic; mechanisms; facilitating; host

Amphibians are experiencing catastrophic declines, caused by the emergence of infectious diseases. In Europe, the causative agent is predominantly viral (ranavirus), and our work has shown that emergence of ranavirus in amphibian communities can result in at least three different patterns: the mortality and population decline can be host-specific, it can affect the whole host community or infections can be asymptomatic, co-occurring in areas where lethal infections are common. From analysis of viral isolates we have determined that this variation correlates with viral phylogeney: in Spain, a genetic lineage responsible for amphibian community mortality and decline co-circulates with a genetically distinct asymptomatic lineage; in the UK, a third lineage is associated with death and decline of a single host species (common frogs - infection of other host species is rare and does not lead to significant mortality or decline in spill-over hosts).Here we propose to take advantage of this novel system to ascertain what genetic factors are responsible for these differences in host range and virulence. Our approach is three-pronged: first, we will sequence 130 ranavirus genomes to catalogue genetic variation amongst the European lineages and identify candidate loci. We will also take a more bottom-up phylogenetic approach, identifying any genetic variants that map with differences in host species in a global panel of ranavirus genomes. Second, we carry out controlled infection experiments to verify the different host range and virulence of different viral isolates in three animal models (two anurans and one caudate chosen to encompass the host range we have observed in Spain). Third, we will generate viral knockouts, targeting candidate regions we have identified in the first two objectives, and test hypotheses regarding gene function using recombinants and wild type virus in our animal models.Our results will be a crucial contribution to our understanding of why ranaviruses are such lethal pathogens in some circumstances. Ranavirus emergence is on the increase across Europe, and is emerging as a novel threat to amphibian and reptile biodiversity in Latin America and Madagascar, two amphibian and reptile biodiversity hotspots. Our research will more widely inform the epidemiological community as to what genetic factors may be important for viruses to exploit novel hosts. Given that most emerging infections are viral and emergence arises through host jumps, we expect our findings to be of broad interest to this community.

由于传染病的出现，两栖动物正在经历灾难性的下降。在欧洲，病原体主要是病毒（Ranavirus），我们的工作表明，两栖动物群落中Ranavirus的出现可能导致至少三种不同的模式：死亡率和种群下降可能是宿主特异性的，它可能影响整个宿主群落，或者感染可能是无症状的，在致命感染常见的地区共同发生。通过对病毒分离株的分析，我们已经确定这种变异与病毒的致病性相关：在西班牙，一种导致两栖动物群落死亡和衰退的遗传谱系与一种遗传上不同的无症状谱系共同循环;在英国，第三个谱系与单一宿主物种的死亡和衰退有关（普通青蛙-其他宿主物种的感染很罕见，不会导致溢出宿主的显著死亡或下降）在这里，我们建议利用这种新的系统，以确定哪些遗传因素是负责这些差异的主机范围和毒力。我们的方法是三管齐下：首先，我们将对130个蛙病毒基因组进行测序，以记录欧洲谱系中的遗传变异，并确定候选基因座。我们还将采取一种更自下而上的系统发育方法，在全球蛙病毒基因组中识别与宿主物种差异映射的任何遗传变异。其次，我们进行了控制感染实验，以验证不同的宿主范围和不同的病毒分离株的毒力在三种动物模型（两个无尾两栖类和一个尾状体，选择包括我们在西班牙观察到的宿主范围）。第三，我们将产生病毒敲除，靶向我们在前两个目标中确定的候选区域，并在我们的动物模型中使用重组体和野生型病毒测试关于基因功能的假设。我们的结果将对我们理解为什么蛙病毒在某些情况下是如此致命的病原体做出重要贡献。Ranavirus的出现在整个欧洲都在增加，并且正在成为拉丁美洲和马达加斯加两个两栖动物和爬行动物生物多样性热点地区两栖动物和爬行动物生物多样性的新威胁。我们的研究将更广泛地告知流行病学界，哪些遗传因素可能对病毒利用新宿主很重要。鉴于大多数新出现的感染是病毒性的，并且通过宿主跳跃而出现，我们希望我们的发现能引起这个社区的广泛兴趣。

项目成果

Non-Lethal Detection of Frog Virus 3-Like (RUK13) and Common Midwife Toad Virus-Like (PDE18) Ranaviruses in Two UK-Native Amphibian Species.

• DOI: 10.3390/v14122635
• 发表时间: 2022-11-25
• 期刊: Viruses

Temperature is a key driver of a wildlife epidemic and future warming will increase impacts

温度是野生动物流行的关键驱动因素，未来变暖将加剧影响

• DOI: 10.1101/272369
• 发表时间: 2018
• 作者: Price S

A de novo Assembly of the Common Frog (Rana temporaria) Transcriptome and Comparison of Transcription Following Exposure to Ranavirus and Batrachochytrium dendrobatidis.

暴露于Ranavirus和Batrachochytrium dendrobatidis后，共同青蛙（Rana temeraria）转录组的从头组装和转录的比较。

• DOI: 10.1371/journal.pone.0130500
• 发表时间: 2015
• 期刊: PloS one
• 影响因子: 3.7
• 作者: Price SJ;Garner TW;Balloux F;Ruis C;Paszkiewicz KH;Moore K;Griffiths AG
• 通讯作者: Griffiths AG

Reconstructing the emergence of a lethal infectious disease of wildlife supports a key role for spread through translocations by humans.

• DOI: 10.1098/rspb.2016.0952
• 发表时间: 2016-09-28
• 期刊: Proceedings. Biological sciences
• 作者: Price SJ;Garner TW;Cunningham AA;Langton TE;Nichols RA
• 通讯作者: Nichols RA

Comparative Genomics of Amphibian-like Ranaviruses, Nucleocytoplasmic Large DNA Viruses of Poikilotherms.

• DOI: 10.4137/ebo.s33490
• 发表时间: 2015
• 期刊: Evolutionary bioinformatics online
• 作者: Price SJ