Analysis of the Topology of Vibrio cholerae NorM and Identification of Amino Acid Residues Involved in Norfloxacin Resistance

Abstract

NorM, a putative efflux pump of Vibrio cholerae , is a member of the multidrug and toxic compound extrusion family of transporters. We demonstrate that NorM confers resistance to norfloxacin, ciprofloxacin, and ethidium bromide. Inactivation of norM rendered V. cholerae hypersensitive towards these fluoroquinolones. Multiple sequence alignment of members of its family identified several regions of high sequence conservation. The topology of NorM was determined using β-lactamase and chloramphenicol acetyltransferase fusions. The amino acid residues G ¹⁸⁴ , K ¹⁸⁵ , G ¹⁸⁷ , P ¹⁸⁹ , E ¹⁹⁰ , G ¹⁹² , and G ¹⁹⁵ in the periplasmic loops and L ³⁸¹ , R ³⁸² , G ³⁸³ , Y ³⁸⁴ , K ³⁸⁵ , and D ³⁸⁶ in the cytoplasmic loops, as well as all the acidic and cysteine residues of NorM, were mutated. Mutants G184V, G184W, K185I, P189S, E190K, and E190A lost the norfloxacin resistance-imparting phenotype characteristic of NorM. Mutants E124V, D155V, G187V, G187R, C196S, Y384H, Y384S, and Y384F exhibited partial resistance to norfloxacin. Mutants with replacements of G ¹⁸⁴ or G ¹⁸⁷ by A, K ¹⁸⁵ by R, and E ¹⁹⁰ by D retained the norfloxacin resistance phenotype of NorM. Analysis of the accumulation of norfloxacin in intact cells of Escherichia coli expressing NorM or its mutants in the presence or absence of carbonyl cyanide m -chlorophenylhydrazone supported the results obtained through susceptibility testing and argued in favor of NorM-mediated efflux as the determining factor in norfloxacin susceptibility in the genetically manipulated strains. Taken together, these results suggested that E ¹²⁴ , D ¹⁵⁵ , G ¹⁸⁴ , K ¹⁸⁵ , G ¹⁸⁷ , P ¹⁸⁹ , E ¹⁹⁰ , C ¹⁹⁶ , and Y ³⁸⁴ are likely involved in NorM-dependent norfloxacin efflux. Except for D ¹⁵⁵ , C ¹⁹⁶ , and Y ³⁸⁴ , all of these residues are located in periplasmic loops.