Epidemiology and genetic characteristics of tick-borne bacteria in dromedary camels of the world.

• This review presents updated knowledge on the main tick-borne bacteria (TBB) infecting one-humped camels (Camelus dromedarius) around the world. • Microscopic, serologic and molecular findings are recovered in order to exploit epidemiological data, and phylogeographic specificities of each TBB. • Camels and infesting ticks harbour different genotypes of pathogenic bacteria commonly identified in other animals. • Camels hosted their own specific unclassified strains such as Candidatus Anaplasma camelii, and Candidatus Bartonella camelii. • Risk factors' analysis suggests an important epidemiological role of camels in the spread of these TBB in their natural habitats. This review presents updated knowledge on the main tick-borne bacteria infecting one-humped camels (Camelus dromedarius) around the world. Camels are increasingly the subject of several scientific investigations, showing that they are receptive and carriers of several zoonotic bacteria. An appraisal is also given of the relative public health importance of these bacterial infections according to One Health concept. Microscopic, serologic and molecular findings are appropriately generated in order to exploit epidemiological data, and phylogeographic specificities associated to each vector-borne bacterium. Indeed, camels and their ticks harbour similar species and genotypes of pathogenic bacteria commonly identified in other animals, e.g., Anaplasma spp., Ehrlichia spp., Borrelia spp., Rickettsia spp., Coxiella burnetii, Bartonella spp. and hemotrophic mycoplasmas. This evidence suggests an epidemiological role of camels in the spread of these pathogens in their natural habitats. However, these infections are commonly asymptomatic in camels resulting in underestimation of the impact of these infections. Furthermore, camels have recently been proven to have their own specific unclassified strains, such as Candidatus Anaplasma camelii and Candidatus Bartonella camelii, implying that possible interactions may lead to the emergence of pathogenic and zoonotic bacteria. In camel-rearing areas of the world, spatial and temporal spread of these infections, due to climatic and ecological changes and human activities such as development projects and urbanization, is expected. Hence the data presented herein provides a basis for strategic frameworks for the research and the development of novel diagnosis and control strategies worldwide, which are needed to protect camels, other livestock, and people in contact with dromedaries from threats that arthropod-borne pathogens can pose. [ABSTRACT FROM AUTHOR]