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Channel-mediated potassium uptake in Helicobacter pylori is essential for gastric colonization.

ABSTRACT: To date, the biological role of prokaryotic K(+) channels remains unknown. Helicobacter pylori contains a gene encoding a putative K(+) channel (HpKchA) of the two-transmembrane RCK (regulation of K(+) conductance) domain family, but lacks known bacterial K(+) uptake systems. A H. pylori DeltahpKchA mutant presented a strong growth defect at low K(+) concentration, which was compensated by KCl addition. The role of the separate RCK domain was investigated in H. pylori by mutagenesis of its internal start codon, which led to a K(+)-dependent intermediate growth phenotype, consistent with RCK activating channel function. Tagging HpKchA C-terminally, we detected a 1:1 stoichiometry of the full-length HpKchA and the separate RCK domain. We constructed single amino-acid exchanges within the unusual selectivity filter of HpKchA (ATGFGA) in H. pylori and observed complete loss (G74A), a slight defect (G76A or F75G) or wild-type (A77D) channel function. HpKchA was essential for colonization of the murine stomach. These data show, for the first time, a biological function for a prokaryotic K(+) channel, as a K(+) uptake system, essential for the persistence of H. pylori in the gastric environment.

SUBMITTER: Stingl K 

PROVIDER: S-EPMC1782367 | biostudies-other | 2007 Jan

REPOSITORIES: biostudies-other

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Channel-mediated potassium uptake in Helicobacter pylori is essential for gastric colonization.

Stingl Kerstin K   Brandt Sonja S   Uhlemann Eva-Maria EM   Schmid Roland R   Altendorf Karlheinz K   Zeilinger Carsten C   Ecobichon Chantal C   Labigne Agnès A   Bakker Evert P EP   de Reuse Hilde H  

The EMBO journal 20061207 1

To date, the biological role of prokaryotic K(+) channels remains unknown. Helicobacter pylori contains a gene encoding a putative K(+) channel (HpKchA) of the two-transmembrane RCK (regulation of K(+) conductance) domain family, but lacks known bacterial K(+) uptake systems. A H. pylori DeltahpKchA mutant presented a strong growth defect at low K(+) concentration, which was compensated by KCl addition. The role of the separate RCK domain was investigated in H. pylori by mutagenesis of its inter  ...[more]

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