Pflugers Arch 2002 Oct 01;4451:60-6. doi: 10.1007/s00424-002-0873-2.

K+ channel activation by all three isoforms of serum- and glucocorticoid-dependent protein kinase SGK.

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The serum- and glucocorticoid-dependent kinase SGK1 was originally identified as a glucocorticoid-sensitive gene. Subsequently, the two homologous kinases SGK2 and SGK3 have been cloned, being products of distinct genes, which are differentially expressed and share 80% identity in amino acid sequence in their catalytic domains. While SGK1 has been shown to activate ion channels, including K(+) channels, the functions of SGK2 and SGK3 have not been examined. The present study was therefore performed to elucidate the effect of SGK1, SGK2, and SGK3 on electrical properties of renal epithelial cells. To this end human embryonic kidney (HEK293) cells were transfected with the kinases and ion-channel activity determined using the patch-clamp technique. In non-transfected cells and in cells transfected with the empty GFP construct a voltage-gated K(+) current was observed amounting to 303+/-19 pA ( n=13) and 299+/-29 pA ( n=23), respectively. Transfection with SGK1, SGK2 or SGK3 increased the voltage-gated K(+) current to 1056+/-152 pA ( n=17), 555+/-47 pA ( n=17), and 775+/-98 pA ( n=16), respectively. The K(+) current was fully blocked by 3 mM tetraethylammonium chloride and inhibited 45% by the Kv1 channel blocker margatoxin (10 nM). In dual electrode voltage-clamp experiments SGK isoforms up-regulated Kv1 voltage-gated K(+)channels expressed in Xenopus laevis oocytes. The present observations thus reveal a powerful stimulating effect of all three isoforms of SGK on K(+) channels. Those effects may participate in regulation of epithelial transport, cell proliferation, and neuromuscular excitability.

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Species referenced: Xenopus laevis
Genes referenced: sgk1 sgk2 sgk3