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Next-generation sequencing metabarcoding assays reveal diverse bacterial vector-borne pathogens of Mongolian dogs

Bacterial vector-borne pathogens (BVBPs) negatively impact canine health worldwide, with several also being zoonotic, posing an additional disease risk to humans. To date, BVBPs have been reported in humans and various sylvatic and domestic animal hosts across multiple Mongolian aimags (provinces);...

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Published in:Current research in parasitology & vector-borne diseases 2024-01, Vol.5, p.100173-100173, Article 100173
Main Authors: Davitt, Cassandra, Huggins, Lucas G., Pfeffer, Martin, Batchimeg, Lkhagvasuren, Jones, Malcolm, Battur, Banzragch, Wiethoelter, Anke K., Traub, Rebecca
Format: Article
Language:English
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Summary:Bacterial vector-borne pathogens (BVBPs) negatively impact canine health worldwide, with several also being zoonotic, posing an additional disease risk to humans. To date, BVBPs have been reported in humans and various sylvatic and domestic animal hosts across multiple Mongolian aimags (provinces); however, there has been no published data on these pathogens within Mongolia’s canine populations. Collection of such data is important given Mongolia’s size, diverse number of climatic regions, and large population of dogs, most of which closely share their environment with humans and livestock. Therefore, a bacteria-targeting next-generation sequencing metabarcoding (mNGS) assay was used to test the feasibility of mNGS as a proof-of-concept study to ascertain the detection of BVBP in 100 Mongolian dogs. The majority of dogs (n = 74) were infected with at least one of six BVBPs identified; including three species of haemoplasmas (also known as haemotropic mycoplasmas, n = 71), Bartonella rochalimae (n = 3), Ehrlichia spp. (n = 2) and Anaplasma platys (n = 1). Univariable analysis found sex, housing, and role of the dog to be associated with BVBP infection. Male dogs had 4.33 (95% CI: 1.61–11.62, P = 0.003) times the odds of infection with BVBPs compared to females. The majority of dogs included in this study were kept outdoors and had regular direct contact with both livestock and humans, indicating that dogs may contribute to the transmission and dissemination of BVBPs in Mongolia and could act as epidemiological sentinels. This study underscores the importance of pathogen surveillance studies in under-researched regions, reinforces the efficacy of mNGS as an explorative diagnostic tool, and emphasises the need for further larger-scale seroprevalence studies of Mongolian dogs. [Display omitted] •Metabarcoding assays are an effective tool for pathogen exploration.•Mongolian dogs are infected with numerous bacterial vector-borne pathogens.•Sex, housing, and role of dog are associated with infection.•Mongolian dogs could act as epidemiological sentinels for human infection.•Further large-scale seroprevalence studies of Mongolian dogs are warranted.
ISSN:2667-114X
2667-114X
DOI:10.1016/j.crpvbd.2024.100173