BackgroundRickettsial diseases are considered important in public health due to their dispersal capacity determined by the particular characteristics of their reservoirs and / or vectors. Among the latter, fleas play an important role, since the vast majority of species parasitize wild and invasive rodents, so their detection is relevant to be able to monitor potential emerging diseases. The aim of this study was to detect, characterize, and compare Rickettsia spp. from the fleas of micromammals in areas with different human population densities in Chile.MethodsThe presence of Rickettsia spp. was evaluated by standard polymerase chain reaction (PCR) and sequencing in 1,315 fleas collected from 1,512 micromammals in 29 locations, with different human population densities in Chile. A generalized linear models (GLM) was used to identify the variables that may explain Rickettsia prevalence in fleas.ResultsDNA of Rickettsia spp. was identified in 13.2% (174 of 1,315) of fleas tested. Fifteen flea species were found to be Rickettsia-positive. The prevalence of Rickettsia spp. was higher in winter, semi-arid region and natural areas, and the infections in fleas varied between species of fleas. The prevalence of Rickettsia among flea species ranged from 0%–35.1%. Areas of lower human density have the highest prevalence of Rickettsia. The phylogenetic tree shows two well-differentiated clades. Rickettsia belli is positioned as basal in a clade. Another clade is subdivided into two subclades, and are related to Rickettsia of typhus group.ConclusionsTo our knowledge, this is the first report of the occurrence and molecular characterization of Rickettsia spp. in 15 species of fleas of micromammals in Chile. In this study, fleas were detected carrying Rickettsia DNA with zoonotic potential, mainly in villages and natural areas of Chile. Considering that there are differences in the prevalence of Rickettsia in fleas associated with different factors, more investigations are needed to further understand the ecology of Rickettsia in fleas and their implications for human health.
Background: Rickettsial diseases are considered important in public health due to their dispersal capacity determined by the particular characteristics of their reservoirs and/or vectors. Among the latter, fleas play an important role, since the vast majority of species parasitize wild and invasive rodents, so their detection is relevant to be able to monitor potential emerging diseases. The aim of this study was to detect, characterize, and compare Rickettsia spp. from the fleas of micromammals in areas with different human population densities in Chile. Methods: The presence of Rickettsia spp. was evaluated by standard polymerase chain reaction (PCR) and sequencing in 1315 fleas collected from 1512 micromammals in 29 locations, with different human population densities in Chile. A generalized linear model (GLM) was used to identify the variables that may explain Rickettsia prevalence in fleas. Results: DNA of Rickettsia spp. was identified in 13.2% (174 of 1315) of fleas tested. Fifteen flea species were found to be Rickettsia-positive. The prevalence of Rickettsia spp. was higher in winter, semi-arid region and natural areas, and the infection levels in fleas varied between species of flea. The prevalence of Rickettsia among flea species ranged between 0–35.1%. Areas of lower human density showed the highest prevalence of Rickettsia. The phylogenetic tree showed two well-differentiated clades with Rickettsia bellii positioned as basal in one clade. The second clade was subdivided into two subclades of species related to Rickettsia of the spotted fever group. Conclusions: To our knowledge, this is the first report of the occurrence and molecular characterization of Rickettsia spp. in 15 flea species of micromammals in Chile. In this study, fleas were detected carrying Rickettsia DNA with zoonotic potential, mainly in villages and natural areas of Chile. Considering that there are differences in the prevalence of Rickettsia in fleas associated with different factors, more investigations are needed to further understand the ecology of Rickettsia in fleas and their implications for human health.
BackgroundFleas are important vectors of pathogenic bacteria that pose public health concerns worldwide, including Rickettsia. Micromammals, and especially rodents, are the main flea hosts, therefore they play a fundamental role in the spread of flea-borne diseases and various species of rodent fleas can also parasitize humans. In addition to this, many rodent species are capable of inhabiting wild environments and adapting to rural and urban environments, which could favor a continuous gradient of transmission between domestic and wild species. The aim of this study was to detect, characterize, and compare Rickettsia spp. from the fleas of micromammals in areas with different human population densities in Chile.MethodsTo determine Rickettsia in fleas of micromammals, we analyzed 1,315 fleas obtained from 1,512 micromammals, which were captured in 29 locations with different human population densities in Chile. We used polymerase chain reaction (PCR) amplification of the gltA, rpoB, and ompB genes to detect Rickettsia in fleas.ResultsThe prevalence of Rickettsia among flea species ranged from 0%–35.1%. Fifteen flea species were found to be Rickettsia-positive. Areas of lower human density have the highest prevalence of Rickettsia. The phylogenetic tree shows two well-differentiated clades. Rickettsia belli is positioned as basal in a clade. Another clade is subdivided into two subclades, and are related to Rickettsia of typhus group.ConclusionsConsidering that fleas are generalist parasites, and that they are frequently found and abundant in rodents, which are closely related to humans, the detection of potential emerging zoonotic pathogens in rodent fleas highlights the risk of infection to humans.
Background: Rickettsial diseases are considered important in public health due to their dispersal capacity determined by the particular characteristics of their reservoirs and / or vectors. Among the latter, fleas play an important role, since the vast majority of species parasitize wild and invasive rodents, so their detection is relevant to be able to monitor potential emerging diseases. The aim of this study was to detect, characterize, and compare Rickettsia spp. from the fleas of micromammals in areas with different human population densities in Chile.Methods: The presence of Rickettsia spp. was evaluated by standard polymerase chain reaction (PCR) and sequencing in 1,315 fleas collected from 1,512 micromammals in 29 locations, with different human population densities in Chile. A generalized linear models (GLM) was used to identify the variables that may explain Rickettsia prevalence in fleas. Results: DNA of Rickettsia spp. was identified in 13.2% (174 of 1,315) of fleas tested. Fifteen flea species were found to be Rickettsia-positive. The prevalence of Rickettsia spp. was higher in winter, semi-arid region and natural areas, and the infections in fleas varied between species of fleas. The prevalence of Rickettsia among flea species ranged from 0%–35.1%. Areas of lower human density have the highest prevalence of Rickettsia. The phylogenetic tree shows two well-differentiated clades. Rickettsia bellii is positioned as basal in a clade. Another clade is subdivided into two subclades, and are related to Rickettsia of spotted fever group.Conclusions: To our knowledge, this is the first report of the occurrence and molecular characterization of Rickettsia spp. in 15 species of fleas of micromammals in Chile. In this study, fleas were detected carrying Rickettsia DNA with zoonotic potential, mainly in villages and natural areas of Chile. Considering that there are differences in the prevalence of Rickettsia in fleas associated with different factors, more investigations are needed to further understand the ecology of Rickettsia in fleas and their implications for human health.
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