DNA metabarcoding analysis revealed a silent prevalence of environmental pathogenic in urban area of Okinawa Island, Japan.

OBJECTIVE

Human activities, such as agriculture, environmental manipulation, and city development, have impacted the distribution of flora, fauna, and microbes (including potential human pathogens) at the global level. This study focused on the bacterial genus , an organism causing leptospirosis that is prevalent in tropical and subtropical regions. We hypothesized that although only a few cases of leptospirosis have been reported in the urban region of main island of Okinawa Prefecture (Okinawa Island, OKI), Japan, is present in these regions.

METHODS

Thirty-four samples were collected from rivers in urban OKI and rural Ishigaki Island (ISG) and analyzed to determine the distribution of and mammals using environmental DNA (eDNA) metabarcoding. High-throughput sequencing analysis was performed to sequence the polymerase chain reaction products of partial leptospiral 16S rRNA and vertebrate mitochondrial 12S rRNA genes from 16 and 18 river samples of OKI and ISG, respectively, including the waters collected from -endemic areas in ISG.

RESULTS

and -related, two species of the P1+ clade that are pathogenic to humans and mammals, were repeatedly detected in OKI and ISG, supporting our hypothesis. The sequence numbers of the five species of P1- and P2 clades showed significant correlations with those of cattle () in OKI; however, the potential host animals for P1+ species remain unclear. The total number of leptospiral sequences obtained from the ISG samples was correlated with the distance from the mountainous woodlands.

CONCLUSION

The pathogenic P1+ was distributed in urban OKI, in addition to rural ISG. The factors correlated with leptospiral detection, that is, cattle eDNAs and the distance from mountainous forests in OKI and ISG, respectively, suggest the silent prevalence of in urban and developing regions related to human activities. The findings of the present study provide insights into public health in cities with respect to climate change and possible flood damage.