mixtum burden. Indeed, among the eight voles that were coinfected by PUUV and H. mixtum, only one had more than one worm (this individual carried six H. mixtum worms), the seven other voles had only one H. mixtum worm. Surprisingly, voles coinfected with A. muris-sylvatici exhibited VX-680 supplier significantly lower viral load of PUUV than voles non-infected with this helminth species (F 1,19 = 13.551, p = 0.001, Figure 5). As this negative relationship could be mediated by a delay between PUUV and A. muris-sylvatici infection, we analysed roughly the influence of vole age
(reflected by vole mass) on these infections. We confirmed that voles coinfected with PUUV and A. muris-sylvatici were significantly heavier (thus https://www.selleckchem.com/TGF-beta.html probably older) than those infected with A. muris-sylvatici only, with PUUV only or non infected
either with PUUV or A. muris-sylvatici (F 3,96 = 7.279, p = 2 × 10-4). Figure 5 Comparison of PUUV viral load in bank voles infected with H. mixtum or A. muris-sylvatici and in those not infected by these helminth Erismodegib datasheet species. “”0″” indicates bank voles that are not infected with H. mixtum (resp. A. muris-sylvatici) and “”1″” indicates bank voles that are infected with at least 1 H. mixtum helminth (resp. A. muris-sylvatici). Only samples from the massif des Ardennes are considered. N indicates the sampling size for each category. Discussion Biomedical research has long explored the impact of coinfection on the outcome of human diseases [e.g. [27, 28, 44, 45]]. Particular attention has been given to helminth-microparasite
interactions, because host immune responses or immune regulation mediated by these pathogens generally have antagonistic effects [46]. So far, there are no studies on the interactions between helminths and hantaviruses even though helminth communities and PUUV distribution ADP ribosylation factor have been independently described for several natural populations of bank voles in the context of ecological, geographical and/or immunogenetic studies [e.g. [16, 29, 47–54]]. In a previous study, we combined macroparasites and PUUV infection data from bank vole populations sampled in the French Jura to analyse the relationships between immune gene variation and parasitism [52]. Unfortunately, the small number of PUUV-seropositive bank voles then prevented the possibility of searching for helminth-PUUV coinfection. In this study, we combined serological and molecular methods to detect PUUV infection. Because PUUV infections are chronic in voles [55], the presence of antibodies is expected to be highly correlated with the presence of the virus. However during the breeding season, maternal antibodies might account for up to one third of the seropositive voles detected [56]. Moreover, previous studies in natural [57] or controlled [55] conditions have shown that the levels of shed hantavirus RNA could change a lot over time in excretion and blood samples.