Cross-alteration of murine skin and tick microbiome concomitant with pathogen transmission after Ixodes ricinus bite.

BACKGROUND: Ticks are major vectors of diseases affecting humans such as Lyme disease or domestic animals such as anaplasmosis. Cross-alteration of the vertebrate host skin microbiome and the tick microbiome may be essential during the process of tick feeding and for the mechanism of pathogen transmission. However, it has been poorly investigated. METHODS: We used mice bitten by field-collected ticks (nymphs and adult ticks) in different experimental conditions to investigate, by 16S rRNA gene metabarcoding, the impact of blood feeding on both the mouse skin microbiome and the tick microbiome. We also investigated by PCR and 16S rRNA gene metabarcoding, the diversity of microorganisms transmitted to the host during the process of tick bite at the skin interface and the dissemination of the pathogen in host tissues (blood, heart, and spleen). RESULTS: Most of the commensal bacteria present in the skin of control mice were replaced during the blood-feeding process by bacteria originating from the ticks. The microbiome of the ticks was also impacted by the blood feeding. Several pathogens including tick-borne pathogens (Borrelia/Borreliella, Anaplasma, Neoehrlichia, Rickettsia) and opportunistic bacteria (Williamsia) were transmitted to the skin microbiome and some of them disseminated to the blood or spleen of the mice. In the different experiments of this study, skin microbiome alteration and Borrelia/Borreliella transmission were different depending on the tick stages (nymphs or adult female ticks). CONCLUSIONS: Host skin microbiome at the bite site was deeply impacted by the tick bite, to an extent which suggests a role in the tick feeding, in the pathogen transmission, and a potentially important impact on the skin physiopathology. The diversified taxonomic profiles of the tick microbiome were also modified by the blood feeding. Video Abstract.

Diversity and phylogeny of the tick-borne bacterial genus Candidatus Allocryptoplasma (Anaplasmataceae).

The family Anaplasmataceae includes tick-borne bacteria of major public and veterinary health interest, as best illustrated by members of the genera Anaplasma and Ehrlichia. Recent epidemiological surveys have also reported on the presence of a novel putative genus in the Anaplasmataceae, Candidatus Allocryptoplasma, previously described as Candidatus Cryptoplasma in the western black-legged tick, Ixodes pacificus. However, the genetic diversity of Ca. Allocryptoplasma and its phylogenetic relationship with other Anaplasmataceae remain unclear. In this study, we developed a multi-locus sequence typing approach, examining the DNA sequence variation at five genes of Ca. Allocryptoplasma found in ticks. Combining this multi-locus sequence typing and genetic data available on public databases, we found that substantial genetic diversity of Ca. Allocryptoplasma is present in Ixodes, Amblyomma and Haemaphysalis spp. ticks on most continents. Further analyses confirmed that the Ca. Allocryptoplasma of ticks, the Ca. Allocryptoplasma of lizards and some Anaplasma-like bacteria of wild mice cluster into a monophyletic genus, divergent from all other genera of the family Anaplasmataceae. Candidatus Allocryptoplasma appears as a sister genus of Anaplasma and, with the genera Ehrlichia and Neoehrlichia, they form a monophyletic subgroup of Anaplasmataceae associated with tick-borne diseases. The detection of genetically distinct Ca. Allocryptoplasma in ticks of significant medical or veterinary interest supports the hypothesis that it is an emergent genus of tick-borne pathogens of general concern.

Title: Diversité et phylogénie du genre bactérien transmis par les tiques Candidatus Allocryptoplasma (Anaplasmataceae). Abstract: La famille des Anaplasmataceae comprend des bactéries transmises par les tiques qui présentent un intérêt majeur pour la santé publique et vétérinaire, comme les membres des genres Anaplasma et Ehrlichia. Des surveillances épidémiologiques récentes ont également signalé la présence d'un nouveau genre putatif dans les Anaplasmataceae, Candidatus Allocryptoplasma, initialement décrit comme Ca. Cryptoplasma chez une tique nord-américaine, Ixodes pacificus. Cependant, la diversité génétique des bactéries Ca. Allocryptoplasma et leurs relations phylogénétiques avec d'autres Anaplasmataceae restent méconnues. Dans cette étude, nous avons développé une approche de typage génétique multi-locus, en examinant la variation nucléotidique pour cinq gènes de bactéries Ca. Allocryptoplasma détectées chez les tiques. En combinant ce typage génétique multi-locus et les données génétiques disponibles dans les bases de données publiques, nous avons mis en évidence qu'une diversité génétique substantielle des bactéries Ca. Allocryptoplasma est présente chez les tiques des genres Ixodes, Amblyomma et Haemaphysalis sur la plupart des continents. Des analyses complémentaires confirment que les bactéries Ca. Allocryptoplasma des tiques, les bactéries Ca. Allocryptoplasma de lézards et des bactéries Anaplasma-like de souris sauvages se regroupent dans un genre monophylétique, divergent de tous les autres genres de la famille Anaplasmataceae. Candidatus Allocryptoplasma apparaît comme un genre frère d'Anaplasma et, avec les genres Ehrlichia et Neoehrlichia, ces trois genres forment un sous-groupe monophylétique d'Anaplasmataceae associé aux maladies transmises par les tiques. La détection de Ca. Allocryptoplasma dans des tiques d'intérêt médical et vétérinaire soutient l'hypothèse qu'il s'agit d'un genre émergent d'agents pathogènes majeurs.