Bartonella washoensis

Abstract: Thirty bartonella strains were isolated from the blood of black-tailed prairie dogs (Cynomys ludovicianus) from Boulder County, Colorado, USA. The bacteria appeared as small, fastidious, aerobic, Gram-negative rods. The partial sequences of the citrate synthase gene (gltA) demonstrated five unique genetic variants. Phylogenetic analysis based on sequences of gltA, 16S rRNA, rpoB, ftsZ, and ribC showed that the black-tailed prairie dog–related Bartonella variants comprise a distinct monophyletic clade that is closely related to Bartonella washoensis, a species isolated from a human patient and subsequently from ground squirrels. These variants, however, are grouped together in 100% of the bootstrapped trees. These variants were not found in other small mammals trapped during the same study, showing some evidence of host specificity. We believe that the group being described here is typical of the black-tailed prairie dog. We propose to name the bacteria Candidatus Bartonella washoensis subsp. cynomysii. Th...

Abstract: Rodent fleas from northwestern Chihuahua, Mexico, were analyzed for the presence of Bartonella and Yersinia pestis. In total, 760 fleas belonging to 10 species were tested with multiplex polymerase chain reaction analysis targeting the gltA (338-bp) and pla genes (478-bp) of Bartonella and Y. pestis , respectively. Although none was positive for Y. pestis , 307 fleas were infected with Bartonella spp., resulting in an overall prevalence of 40.4%. A logistic regression analysis indicated that the presence of Bartonella is more likely to occur in some flea species. From a subset of Bartonella -positive fleas, phylogenetic analyses of glt A gene sequences revealed 13 genetic variants clustering in five phylogroups (I–V), two of which were matched with known pathogenic Bartonella species ( Bartonella vinsonii subsp. arupensis and Bartonella washoensis ) and two that were not related with any previously described species or subspecies of Bartonella. Variants in phylogroup V, which were mainly obtained from Meringis spp. fleas, were identical to those reported recently in their specific rodent hosts ( Dipodomys spp.) in the same region, suggesting that kangaroo rats and their fleas harbor other Bartonella species not reported previously. Considering the Bartonella prevalence and the flea genotypes associated with known pathogenic Bartonella species, we suggest that analysis of rodent and flea communities in the region should continue for their potential implications for human health. Given that nearby locations in the United States have reported Y. pestis in wild animals and their fleas, we suggest conducting larger-scale studies to increase our knowledge of this bacterium.