Introduction: Leishmaniasis is a neglected tropical disease affecting millions worldwide, and Sri Lanka has reported increasing human cases annually. The interaction between sand fly vectors, their gut microbiota, and Leishmania parasites influences human disease transmission. Understanding vector gut bacterial communities in disease-endemic areas is therefore important for developing novel strategies to interrupt human infection cycles.
Methods: Sand flies were collected from Mihintale, a confirmed leishmaniasis-endemic region with active human cases, to investigate gut bacterial profiles relevant to human disease transmission. Light traps were placed in peridomestic environments (buffalo cattle sheds) adjacent to human dwellings between 18:00-06:00 hours. Following morphological identification, 50 male and 50 female Phlebotomus argentipes and Sergentomyia punjabensis were surface-sterilized and dissected. Pooled male and female gut samples were subjected to next-generation sequencing of the 16S rRNA gene (V1-V9 regions) to characterize bacterial communities.
Results: Analysis revealed 75 bacterial genera in males and 53 in females across both Phlebotomus argentipes and Sergentomyia punjabensis populations collected from this disease-endemic region. Across both species, Methylobacterium was the most abundant genus in males (27.01%) and females (28.04%). Thirty bacterial genera constituted a core microbiota shared between sexes. Wolbachia was detected exclusively in female sand flies.
Conclusions: This culture-independent profiling provides baseline data on the gut bacterial communities associated with sand fly vectors in a Sri Lankan endemic region. The abundance of Methylobacterium merits further investigation to determine its suitability as a candidate for paratransgenesis. The detection of Wolbachia exclusively in females requires cautious interpretation, as it may reflect acquisition during blood feeding from other hosts rather than a stable endosymbiotic association. Future studies should focus on confirming the origin and heritability of Wolbachia in Phlebotomus argentipes and evaluating the functional role of core microbiota in vector competence to inform the development of microbiome-based intervention strategies.
