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Analysis of human clinical and environmental Leptospira to elucidate the eco-epidemiology of leptospirosis in Yaeyama, subtropical Japan
Author(s) -
Yukuto Sato,
Idam Hermawan,
Tetsuya Kakita,
Sho Okano,
Hideyuki Imai,
Hiroto Nagai,
Ryosuke Kimura,
Tetsu Yamashiro,
Tadashi Kajita,
Claudia Toma
Publication year - 2022
Publication title -
plos neglected tropical diseases
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.99
H-Index - 135
eISSN - 1935-2735
pISSN - 1935-2727
DOI - 10.1371/journal.pntd.0010234
Subject(s) - leptospira , leptospirosis , subclade , virulence , leptospira interrogans , biology , zoonosis , polymerase chain reaction , serotype , subtropics , clade , microbiology and biotechnology , veterinary medicine , virology , phylogenetic tree , medicine , ecology , gene , genetics
Background Leptospirosis, a zoonosis caused by species in the spirochete genus Leptospira , is endemic to the Yaeyama region in Okinawa, subtropical Japan. Species of the P1 subclade “virulent” group, within the genus Leptospira , are the main etiological agents of leptospirosis in Okinawa. However, their environmental persistence is poorly understood. This study used a combination of bacterial isolation and environmental DNA (eDNA) metabarcoding methods to understand the eco-epidemiology of leptospirosis in this endemic region. Findings Polymerase chain reaction (PCR) characterized twelve human clinical L . interrogans isolates belonging to the P1 subclade “virulent” subgroup and 11 environmental soil isolates of the P1subclade “low virulent” subgroup (genetically related to L . kmetyi , n = 1; L . alstonii , n = 4; L . barantonii , n = 6) from the Yaeyama region targeting four virulence-related genes ( lipL32 , ligA , ligB and lpxD1) . Clinical isolates were PCR positive for at least three targeted genes, while all environmental isolates were positive only for lipL32 . Analysis of infected renal epithelial cells with selected clinical and environmental strains, revealed the disassembly of cell-cell junctions for the Hebdomadis clinical strain serogroup. Comparison of leptospiral eDNA during winter and summer identified operational taxonomic units corresponding to the species isolated from soil samples ( L . kmetyi and L . barantonii ) and additional P2 subclade species ( L . licerasiae , L . wolffii -related, among others) that were not detected by soil cultivation. Total Leptospira read counts were higher in summer than in winter and the analysis of leptospiral/animal eDNA relationship suggested Rattus spp . as a potential reservoir animal. Conclusion Our study demonstrated high environmental Leptospira diversity in the Yaeyama region, particularly during summer, when most of the leptospirosis cases are reported. In addition, several Leptospira species with pathogenic potential were identified that have not yet been reported in Yaeyama; however, the environmental persistence of P1 subclade species previously isolated from human clinical cases in this region was absent, suggesting the need of further methodology development and surveillance.

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