| 10867867 |
Kharkhun MI, Belevich AE, Povstian OV, Shuba MF: [The role of voltage-gated potassium channels in the formation of a resting membrane potential in the myocytes of rat resistive arteries]. Fiziol Zh. 2000;46(2):91-7.
K+ current which take part in the controlling of membrane potential in myocytes isolated from rat resistance mesenteric arteries have been investigated using conventional patch clamp method. The mean resting potential of myocytes was--37 mV. Charybdotoxin (200 nM)--selective blocker of large conductance Ca (2+)-activated K+ (KCa) channels--inhibited transmembrane outward K+ current by 60%. 1 mM of tetraethylammonium inhibited outward K+ current same as 200 nM of charybdotoxin, also it inhibited spontaneous spike-like hyperpolarizations and did not affect the membrane potential. Transmembrane current had a 4 aminopyridine (4-AP) sensitive component of delayed rectifier current (KV). Addition of 5 mM of 4-AP evoked membrane depolarization with mean significance of 12.0 +/- 1.5 mV in 5 from 7 single myocytes which had resting potential in the range of -50 ... -35 mV. The obtained results suggest that large conductance KCa channels do not determine the resting potential, but may serve as a negative feedback mechanism at the considerable membrane depolarization. In contrast, 4-AP sensitive KV current take part in the controlling of the resting membrane potential of single myocytes from rat resistance mesenteric arteries. |
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