Literature DB >> 16847696

Adaptive downregulation of a quinidine-sensitive cation conductance in renal principal cells of TWIK-1 knockout mice.

I D Millar1, H C Taylor, G J Cooper, J D Kibble, J Barhanin, L Robson.   

Abstract

TWIK-1, a member of the two-pore domain K(+) channel family, is expressed in brain, kidney, and lung. The aim of this study was to examine the effect of loss of TWIK-1 on the renal cortical collecting duct. Ducts were isolated from wild-type and TWIK-1 knockout mice by enzyme digestion and whole-cell clamp obtained via the basolateral membrane. Current- and voltage-clamp approaches were used to examine K(+) conductances. No difference was observed between intercalated cells from wild-type or knockout ducts. In contrast, knockout principal cells were hyperpolarized compared to wild-type cells and had a reduced membrane conductance. This was a consequence of a fall in a barium-insensitive, quinidine-sensitive conductance (G (Quin)). G (Quin) demonstrated outward rectification and had a relatively low K(+) to Na(+) selectivity ratio. Loss of G (Quin) would be expected to lead to the hyperpolarization observed in knockout ducts by increasing fractional K(+) conductance and Na(+) uptake by the cell. Consistent with this hypothesis, knockout ducts had an increased diameter in comparison to wild-type ducts. These data suggest that G (Quin) contributes to the resting membrane potential in the cortical collecting duct and that a fall in G (Quin) could be an adaptive response in TWIK-1 knockout ducts.

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Year:  2006        PMID: 16847696     DOI: 10.1007/s00424-006-0107-0

Source DB:  PubMed          Journal:  Pflugers Arch        ISSN: 0031-6768            Impact factor:   3.657


  34 in total

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