Chromosomal Resistance to Metronidazole in Clostridioides difficile Can Be Mediated by Epistasis between Iron Homeostasis and Oxidoreductases
Aditi Deshpande, Xiaoqian Wu, Wenwen Huo, Kelli L. Palmer, Julian G. Hurdle
Abstract
Chromosomal resistance to metronidazole has emerged in clinical Clostridioides difficile isolates, but the genetic mechanisms remain unclear. This is further hindered by the inability to generate spontaneous metronidazole-resistant mutants in the lab to interpret genetic variations in clinical isolates. We therefore constructed a mismatch repair mutator in nontoxigenic ATCC 700057 to survey the mutational landscape for de novo resistance mechanisms. In separate experimental evolutions, the mutator adopted a deterministic path to resistance, with truncation of the ferrous iron transporter FeoB1 as a first-step mechanism of low-level resistance.
Topics & Concepts
BiologyMutantGeneticsMicrobiologyMutationPoint mutationGeneClostridium difficile and Clostridium perfringens researchViral gastroenteritis research and epidemiologyGut microbiota and health