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Plasma-membrane Cnh1 Na+/H+ antiporter regulates potassium homeostasis in Candida albicans
O Kinclova-Zimmermannova, H Sychrova
Jazyk angličtina Země Velká Británie
NLK
Free Medical Journals
od 1947 do Před 1 rokem
PubMed Central
od 2007
- MeSH
- antibakteriální látky farmakologie MeSH
- buněčná membrána chemie MeSH
- Candida albicans metabolismus MeSH
- cesium farmakologie MeSH
- chlorid draselný farmakologie MeSH
- chlorid lithný farmakologie MeSH
- chlorid sodný farmakologie MeSH
- chloridy farmakologie MeSH
- delece genu MeSH
- draslík metabolismus MeSH
- exprese genu MeSH
- financování organizované MeSH
- fungální léková rezistence MeSH
- fungální proteiny analýza genetika metabolismus MeSH
- homeostáza MeSH
- hyfy chemie MeSH
- klonování DNA MeSH
- kvasinky chemie MeSH
- Na(+)-H(+) antiport analýza genetika metabolismus MeSH
- rubidium farmakologie MeSH
- Saccharomyces cerevisiae genetika metabolismus MeSH
- substrátová specifita MeSH
- testy genetické komplementace MeSH
The physiological role of Candida albicans Cnh1, a member of the Na+/H+ antiporter family, was characterized. Though CaCnh1p had broad substrate specificity and mediated efflux of at least four alkali metal cations upon heterologous expression in Saccharomyces cerevisiae, its presence in C. albicans cells was important especially for potassium homeostasis. In C. albicans, CaCnh1p tagged with GFP was localized in the plasma membrane of cells growing as both yeasts and hyphae. Deletion of CNH1 alleles did not affect tolerance to NaCl, LiCl or CsCl, but resulted in increased sensitivity to high external concentrations of KCl and RbCl. The potassium and rubidium tolerance of a cnh1 homozygous mutant was fully restored by reintegration of CNH1 into the genome. The higher sensitivity of the cnh1/cnh1 mutant to external KCl was caused by a lower K+ efflux from these cells. Together, the functional characterization of the CaCnh1 antiporter in C. albicans revealed that this antiporter plays a significant role in C. albicans physiology. It ensures potassium and rubidium tolerance and participates in the regulation of intracellular potassium content of C. albicans cells.
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- $a The physiological role of Candida albicans Cnh1, a member of the Na+/H+ antiporter family, was characterized. Though CaCnh1p had broad substrate specificity and mediated efflux of at least four alkali metal cations upon heterologous expression in Saccharomyces cerevisiae, its presence in C. albicans cells was important especially for potassium homeostasis. In C. albicans, CaCnh1p tagged with GFP was localized in the plasma membrane of cells growing as both yeasts and hyphae. Deletion of CNH1 alleles did not affect tolerance to NaCl, LiCl or CsCl, but resulted in increased sensitivity to high external concentrations of KCl and RbCl. The potassium and rubidium tolerance of a cnh1 homozygous mutant was fully restored by reintegration of CNH1 into the genome. The higher sensitivity of the cnh1/cnh1 mutant to external KCl was caused by a lower K+ efflux from these cells. Together, the functional characterization of the CaCnh1 antiporter in C. albicans revealed that this antiporter plays a significant role in C. albicans physiology. It ensures potassium and rubidium tolerance and participates in the regulation of intracellular potassium content of C. albicans cells.
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