Abstract
BackgroundRelapsing fever (RF) borreliae are arthropod-borne spirochetes and some of them cause human diseases, which are characterized by relapsing or recurring episodes of fever. Recently, it has been classified into two groups: soft tick-borne RF (STRF) borreliae and hard tick-borne RF (HTRF) borreliae. STRF borreliae include classical RF agents and HTRF borreliae, the latter of which include B. miyamotoi, a human pathogen recently identified in Eurasia and North America.ResultsIn this study, we determined the genome sequences of 16 HTRF borreliae strains: 15 B. miyamotoi strains (9 from Hokkaido Island, Japan, 3 from Honshu Island, Japan, and 3 from Mongolia) and a Borrelia sp. tHM16w. Chromosomal gene synteny was highly conserved among the HTRF strains sequenced in this study, even though they were isolated from different geographic regions and different tick species. Phylogenetic analysis based on core gene sequences revealed that HTRF and STRF borreliae are clearly distinguishable, with each forming a monophyletic group in the RF borreliae lineage. Moreover, the evolutionary relationships of RF borreliae are consistent with the biological and ecological features of each RF borreliae sublineage and can explain the unique characteristics of Borrelia anserina. In addition, the pairwise genetic distances between HTRF borreliae strains were well correlated with those of vector species rather than with the geographical distances between strain isolation sites. This result suggests that the genetic diversification of HTRF borreliae is attributed to the speciation of vector ticks and that this relationship might be required for efficient transmission of HTRF borreliae within vector ticks.ConclusionsThe results of the present study, together with those from previous investigations, support the hypothesis that the common ancestor of borreliae was transmitted by hard-bodied ticks and that only STRF borreliae switched to using soft-bodied ticks as a vector, which was followed by the emergence of Borrelia recurrentis, lice-borne RF borreliae. Our study clarifies the phylogenetic relationships between RF borreliae, and the data obtained will contribute to a better understanding of the evolutionary history of RF borreliae.
Highlights
Relapsing fever (RF) borreliae are arthropod-borne spirochetes and some of them cause human diseases, which are characterized by relapsing or recurring episodes of fever
Genome sequencing of hard tick-borne RF (HTRF) borreliae In this study, we sequenced 15 B. miyamotoi strains isolated in Japan and Mongolia
This phylogenetic relationship is consistent with the biological features of each group of borreliae; that is, Lyme disease (LD), REP and HTRF borreliae are transmitted by hard-bodied ticks, and only soft tick-borne RF (STRF) borreliae are transmitted by softbodied ticks or lice
Summary
Relapsing fever (RF) borreliae are arthropod-borne spirochetes and some of them cause human diseases, which are characterized by relapsing or recurring episodes of fever It has been classified into two groups: soft tick-borne RF (STRF) borreliae and hard tick-borne RF (HTRF) borreliae. The first human cases of B. miyamotoi infection were reported in Russia in 2011, followed by cases in the USA, Europe, and Japan [21, 23, 44, 49] Recent characterization of these hard-bodied tick-borne relapsing fever (HTRF) borreliae revealed that HTRF borreliae are (1) phylogenetically related to traditional RF borreliae, (2) transmitted by hard-bodied ticks, (3) detected with a low prevalence from field-collected ticks, and (4) difficult to cultivate using media for borrelia cultivation [4, 10, 60]. It has been found that B. miyamotoi is transmitted transovarially in vector ticks and develops a high level of bacteremia in field-collected mice [4, 48]
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