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Preliminary insights into the genetics of bank vole tolerance to Puumala hantavirus in Sweden
Author(s) -
Rohfritsch Audrey,
Galan Maxime,
Gautier Mathieu,
Gharbi Karim,
Olsson Gert,
Gschloessl Bernhard,
Zeimes Caroline,
VanWambeke Sophie,
Vitalis Renaud,
Charbonnel Nathalie
Publication year - 2018
Publication title -
ecology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.17
H-Index - 63
ISSN - 2045-7758
DOI - 10.1002/ece3.4603
Subject(s) - bank vole , biology , vole , genetics , population , puumala virus , evolutionary biology , population genomics , genomics , hantavirus , gene , genome , virus , demography , sociology
Natural reservoirs of zoonotic pathogens generally seem to be capable of tolerating infections. Tolerance and its underlying mechanisms remain difficult to assess using experiments or wildlife surveys. High‐throughput sequencing technologies give the opportunity to investigate the genetic bases of tolerance, and the variability of its mechanisms in natural populations. In particular, population genomics may provide preliminary insights into the genes shaping tolerance and potentially influencing epidemiological dynamics. Here, we addressed these questions in the bank vole Myodes glareolus , the specific asymptomatic reservoir host of Puumala hantavirus (PUUV), which causes nephropathia epidemica (NE) in humans. Despite the continuous spatial distribution of M. glareolus in Sweden, NE is endemic to the northern part of the country. Northern bank vole populations in Sweden might exhibit tolerance strategies as a result of coadaptation with PUUV. This may favor the circulation and maintenance of PUUV and lead to high spatial risk of NE in northern Sweden. We performed a genome‐scan study to detect signatures of selection potentially correlated with spatial variations in tolerance to PUUV. We analyzed six bank vole populations from Sweden, sampled from northern NE‐endemic to southern NE‐free areas. We combined candidate gene analyses ( Tlr4 , Tlr7 , and Mx2 genes) and high‐throughput sequencing of restriction site‐associated DNA (RAD) markers. Outlier loci showed high levels of genetic differentiation and significant associations with environmental data including variations in the regional number of NE human cases. Among the 108 outliers that matched to mouse protein‐coding genes, 14 corresponded to immune‐related genes. The main biological pathways found to be significantly enriched corresponded to immune processes and responses to hantavirus, including the regulation of cytokine productions, TLR cascades, and IL‐7, VEGF, and JAK–STAT signaling. In the future, genome‐scan replicates and functional experimentations should enable to assess the role of these biological pathways in M. glareolus tolerance to PUUV.

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