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XB-ART-2411
J Physiol. April 1, 2005; 564 (Pt 1): 117-29.

PIP2 hydrolysis underlies agonist-induced inhibition and regulates voltage gating of two-pore domain K+ channels.

Lopes CM , Rohács T , Czirják G , Balla T , Enyedi P , Logothetis DE .


Abstract
Two-pore (2-P) domain potassium channels are implicated in the control of the resting membrane potential, hormonal secretion, and the amplitude, frequency and duration of the action potential. These channels are strongly regulated by hormones and neurotransmitters. Little is known, however, about the mechanism underlying their regulation. Here we show that phosphatidylinositol 4,5-bisphosphate (PIP2) gating underlies several aspects of 2-P channel regulation. Our results demonstrate that all four 2-P channels tested, TASK1, TASK3, TREK1 and TRAAK are activated by PIP2. We show that mechanical stimulation may promote PIP2 activation of TRAAK channels. For TREK1, TASK1 and TASK3 channels, PIP2 hydrolysis underlies inhibition by several agonists. The kinetics of inhibition by the PIP2 scavenger polylysine, and the inhibition by the phosphatidylinositol 4-kinase inhibitor wortmannin correlated with the level of agonist-induced inhibition. This finding suggests that the strength of channel PIP2 interactions determines the extent of PLC-induced inhibition. Finally, we show that PIP2 hydrolysis modulates voltage dependence of TREK1 channels and the unrelated voltage-dependent KCNQ1 channels. Our results suggest that PIP2 is a common gating molecule for K+ channel families despite their distinct structures and physiological properties.

PubMed ID: 15677683
PMC ID: PMC1456043
Article link: J Physiol.
Grant support: HL59949 NHLBI NIH HHS , HL59949 NHLBI NIH HHS , HL59949 NHLBI NIH HHS , HL59949 NHLBI NIH HHS , HL59949 NHLBI NIH HHS , HL59949 NHLBI NIH HHS

Genes referenced: kcnk2 kcnk3 kcnk9 kcnq1
Antibodies referenced:

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