An increasing number of studies reveal that ticks and their hosts are infected with multiple pathogens, suggesting that coinfection might be frequent for both vectors and wild reservoir hosts. Whereas the examination of associations between coinfecting pathogen agents in natural host-vector-pathogen systems is a prerequisite for a better understanding of disease maintenance and transmission, the associations between pathogens within vectors or hosts are seldom explicitly examined. We examined the prevalence of pathogen agents and the patterns of associations between them under natural conditions, using a previously unexamined host-vector-pathogen system--green lizards Lacerta viridis, hard ticks Ixodes ricinus, and Borrelia, Anaplasma, and Rickettsia pathogens. We found that immature ticks infesting a temperate lizard species in Central Europe were infected with multiple pathogens. Considering I. ricinus nymphs and larvae, the prevalence of Anaplasma, Borrelia, and Rickettsia was 13.1% and 8.7%, 12.8% and 1.3%, and 4.5% and 2.7%, respectively. The patterns of pathogen prevalence and observed coinfection rates suggest that the risk of tick infection with one pathogen is not independent of other pathogens. Our results indicate that Anaplasma can play a role in suppressing the transmission of Borrelia to tick vectors. Overall, however, positive effects of Borrelia on Anaplasma seem to prevail as judged by higher-than-expected Borrelia-Anaplasma coinfection rates.
The MHV-68 (designed as Murid herpesvirus 4 (MuHV 4) strain 68) isolated from two rodents, Myodes glareolus and Apodemus flavicollis, is considered as a natural pathogen of free-living murid rodents. Recently, the detection of MHV antibodies in the blood of animals living in the same biotope as MHV-infected mice has suggested that ticks may have a role in the transmission of this pathogen. Ixodes ricinus is one the most abundant tick species in Europe known to transmit multiple pathogens causing human and animal diseases. In this study, nymphs and larvae feeding on 116 individuals of a temperate lizard species-the green lizard Lacerta viridis captured in the Slovak Karst National Park, were examined for MHV-68. The specific sequence of virion glycoprotein 150 was amplified in DNA individually isolated from I. ricinus ticks using single-copy sensitive nested polymerase chain reaction. MHV-68 was detected in ten of 649 nymphs and in five of 150 larvae, respectively. We found that 9.6% of green lizards fed at least one MHV-68-infected immature tick. Occurrence of MHV-68 within all ticks tested was 1.8%. This study is first to show that immature I. ricinus ticks feeding on free-living lizards in a Central European region could be infected with gammaherpesvirus (MHV-68), naturally infecting free-living murid rodents. Our results provide evidence supporting the hypothesis that ticks may play a mediating role in circulation of MHV-68 in nature.
International audienceThe prevalence of Borrelia (B.), Mycobacteria (M.) and avian influenza virus (AIV) infections, together with the distribution of different AIV subtypes, was studied in migratory waterfowl and terrestrial birds caught in three localities in Slovakia during 2006. Samples obtained from waterfowl captured in the Senianske Ponds area of Eastern Slovakia showed the highest diversity of AIV isolates. A total of 13 different subtypes were detected in 19 samples from this location (H1N2, H2N2, H3N2, H6N6, H7N6, H9N2, H9N5, H9N6, H10N5, H10N6, H12N6, H13N6, and H16N6). H3N5 virus was detected in 50% of passerines testing positive for AIV in the Parizske Wetlands, with H7N2, H9N2, H9N5, H12N1, and H13N2 infections also recorded at this locality. H9N5 virus predominated in passerines captured at Trnava Ponds, with isolates H1N6, H6N5, H7N2, H7N6, H10N3, H10N6 also detected at this location. There were five cases where different AIV infections were detected in oropharyngeal and cloacal samples originating from the same bird (H13N6 and H1N2; H10N5 and H12N6; H9N5 and H6N5; H10N6 and H7N6; H9N2 and H3N5 in the oropharynx and cloaca, respectively). Between 21 and 52% of captured birds tested positive for B. burgdorferi sensu lato, with the percentage infected depending on bird species and locality. Samples were characterized by PCR-RFLP analysis and identified as B. garinii species (either B/B' or R/R' pattern). Mycobacteria were detected in 42% and 26 % of waders captured at Senianske Ponds and marsh-dwelling passerines captured in the Parizske Wetlands, respectively. Interestingly, forest-dwelling passerine species caught in the Trnava Ponds region tested negative for Mycobacteria
Prevalence of the infectious respiratory agens, avian influenza virus (AIV), Mycobacterium avium (M. avium), and Mycobacterium avium subspecies paratuberculosis (MAP), was studied in migratory marsh-dwelling passerines captured in the Parížske močiare wetlands in Western Slovakia during 2008. Surveillance of 650 birds revealed a lower prevalence of AIV in spring (13.6%) than in summer (17.5%). A total of 14 different subtypes were detected in samples obtained from birds captured during the spring, with the most prevalent subtypes being H8N3, H6N4, H11N6 and H12N6. Subtypes H12N6, H6N6 and H2N5 were predominant in passerines captured during summer months. In eight cases, different AIV infections were detected in the oropharyngeal and cloacal samples originating from a single bird (H1N1 and H8N3; H1N3 and H9N3; H2N3 and H12N6; H2N1 and H8N1; H4N2 and H9N6; H5N5 and H11N6; H6N4 and H11N6; H7N1 and H10N3 in the oropharynx and cloaca, respectively). M. avium was detected in 9.2% and 0.8% of marsh-dwelling passerines captured during spring and summer, respectively. Only two birds were co-infected with AIV and M. avium. All birds were negative for MAP.
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