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KMID : 0613820050150060955
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Journal of Life Science
2005 Volume.15 No. 6 p.955 ~ p.960
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Biological Effect of Metronidazole Resistance in Helicobacter pylori
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Lee Jin-Hyug
Lee Sun-Mi
Nam Won-Hee
Kim Eun-Sil
Kim Jin-Ho
Kang Ho-Young
Jeong Jin-Yong
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Abstract
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Resistance to metronidazole, a key component of therapies against Helicobacter pylori, is common in clinical isolates. Resistance generally requires inactivation of rdxA (HP0954), and sometimes also frxA (HP0642), two related nitroreductase genes. Here we studied the effect of resistance to metronidazole on fitness of the gastric pathogen H. pylori. The effect of metronidazole resistance for H. pylori in culture was assessed first by looking at colonies formed by freshly constructed mutant derivatives of H. pylori strain 26695. Mutations resulting in metronidazole resistance caused premature death of H. pylori in stationary phase, but had no significant effect on early exponential growth. The effect of nitroreductase deficiencies on fitness in vivo was tested by infecting C57BL/6 mice with 1:1 mixtures of SS1 wild type and its isogenic metronidazole resistant derivatives. Inactivation of rdxA caused an inability to colonize mice in SS1 H. pylori strain. Derivatives of a metronidazole resistant strain that survived better in stationary phase, although remaining metronidazole resistant, could again colonize mice. In conclusion, metronidazole resistance diminishes H. pylori¡¯s fitness, but their costs can be suppressed by additional mutation.
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