Transformation of Gardnerella vaginalis with a Bifidobacterium-Escherichia coli shuttle vector plasmid

Gardnerella spp. significantly influence female reproductive health, and are indicators of bacterial vaginosis, a common gynecological disorder. Lack of genetic tools for Gardnerella spp. is a hindrance in fully understanding their role in the vaginal microbiome and no naturally occurring plasmids have yet been identified in these organisms. The aim of this study was to transform Gardnerella vaginalis and characterize transformants carrying Bifidobacterium-E. coli shuttle vector pKO403- lacZ ′-Sp. G. vaginalis ATCC 49145 was selected for protocol development based on its high growth rate, lack of restriction activity and susceptibility to spectinomycin. Low efficiency (∼10 ² cfu/µg of plasmid DNA) but reproducible transformation was achieved. The expression of the spectinomycin resistance gene and the β-galactosidase gene of pKO403- lacZ ′-Sp in G. vaginalis ATCC 49145 resulted in an increase in spectinomycin tolerance from 2 µg/ml (MIC) to >512 µg/ml, and an appreciable increase in β-galactosidase activity compared to the wild type. Plasmid copy number was determined to be ∼3 per genome copy. Plasmid was lost rapidly in the absence of spectinomycin selection, with only ∼13% of colony forming units retaining the resistant phenotype after 24 h of growth without selection. These results demonstrate that G. vaginalis can be transformed by electroporation and that pKO403- lacZ ′-Sp can be maintained and its genes expressed in this host, offering a starting point for the development of genetic tools for mechanistic studies of this important member of the vaginal microbiome.