An insight into the genome of extensively drug-resistant and uropathogenic Citrobacter werkmanii.

OBJECTIVE:Carbapenemase-producing bacteria pose a serious public-health threat. This study was performed to understand the emergence and genetic features of NDM-producers in hospital setting. METHODS:Samples were collected from a tertiary-care hospital. Isolate identification was performed by 16S rRNA sequencing. The genome of Citrobacter werkmanii (AK-8) was sequenced on an Illumina NextSeq 500 platform. Resistance determinants and pathogenicity islands were determined by ResFinder and PathogenFinder, respectively. MLST, two-component systems and transcription factors were identified by P2RP server, whilst variant calling and insertion sequence (IS) elements were determined by Galaxy and ISfinder, respectively. The genome of AK-8 was compared with uropathogenic Escherichia coli strain 536. RESULTS:This is the first report on whole-genome analysis of extensively drug-resistant NDM-6-producing uropathogenic C. werkmanii ST-104. Resistance genes for all antibiotics except colistin, fosfomycin, fusidic- acid, nitroimidazole, oxazolidinones, tetracycline and glycopeptides were detected in this strain. Genome analysis of AK-8 led to the identification of the BaeSR two-component system regulating production of multidrug efflux proteins. Virulence was regulated by CpxRA, ZraRS, RstAB, UhpAB, AcrAB, RcsBc and UvrY, whereas Bar-UvrY was found to control carbon metabolism, flagellum biosynthesis and biofilm formation. The AK-8 genome encodes 21 chemoreceptors involved in colonisation and pathogenesis. Fur family transcriptional regulator, cAMP receptor protein and RpoS were found to increase the virulence of AK-8. ntBLAST analysis showed 69.60% genetic identity with E. coli 536 as an adaptive feature for survival. CONCLUSION:The emergence of extensively drug-resistant pathogenic C. werkmanii is alarming and it should not be ignored as commensal.