Cao, K. Y.; Serrador, D.; Campbell, J. R.; Kaul, R.; Navarre, W. W.

The healthy human vaginal microbiota is typically dominated by one species of Lactobacillus: L. iners, L. crispatus, L. jensenii, or L. gasseri. L. iners, the most prevalent vaginal microbe globally, is the most fastidious of the vaginal lactobacilli, has the smallest genome, and produces less lactic acid (only the L-isoform). L. iners is also less protective against bacterial vaginosis, and uniquely encodes a cholesterol-dependent cytolysin, inerolysin, suggesting it may be a pathobiont. Despite its central role in the health of over one billion females, L. iners biology remains poorly understood in part due to a lack of genetic editing tools. Here, we present findings that L. iners is naturally competent and can be transformed easily by exogenous DNA. Natural competence was leveraged to disrupt the iny gene encoding inerolysin, and comGA, encoding the ATPase component of the competence pilus. Both gene disruptions were accomplished using PCR assembled DNA fragments comprising a drug resistance gene cassette (tetM or ermB) flanked by ~2 kb regions of homology to the L. iners chromosome. We further demonstrate that comGA is essential for L. iners transformation. The ability to rapidly perform targeted deletions in L. iners with in vitro generated DNA templates provides a straightforward and much needed method to probe the genetics and physiology of these important vaginal bacteria.