Endothelin-1 is a potent activator of nonselective cation currents in human bronchial smooth muscle cells.

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The effects of endothelin (ET)-1 on cultured human bronchial smooth muscle cells (HBSMC) were investigated and compared with those of histamine, using the patch clamp techniques and measurements of intracellular Ca(2+) ([Ca(2+)](i)). Both ET-1 and histamine caused an initial transient elevation of [Ca(2+)](i) by Ca(2+) mobilization, followed by a sustained rise due to Ca(2+) entry. Nicardipine inhibited the sustained phase, but La(3+) abolished it. With low ethyleneglycol-bis-(beta-aminoethyl ether)-N,N'-tetraacetic acid (EGTA) and K(+) internal solutions, both ET-1 and histamine induced a sustained depolarization from approximately -40 to -20 mV. Under voltage clamp conditions, both drugs transiently activated an outward K(+) current at a holding potential of 0 mV. Additionally, with a Cs(+) internal solution, they elicited another transient inward current, frequently followed by current oscillations. These transient currents were blocked by high EGTA or heparin. With high EGTA and Cs(+) internal solutions, both drugs activated a long-lasting inward current. The reversal potential of these agonist-induced currents was approximately 0 mV and was not altered by the replacement of internal or external concentration of Cl(-), suggesting that the inward current was a nonselective cation current (I(cat)). The half-maximal effective concentration to activate I(cat) was 12 nM for ET-1 and 11 microM for histamine. La(3+) and Cd(2+) abolished these agonist-induced I(cat). The effects of ET-1 on [Ca(2+)](i) and I(cat) could be blocked by combined pretreatment with BQ-123 and BQ-788. Sarafotoxin S6c also increased [Ca(2+)](i) and activated I(cat). By polymerase chain reaction of reverse transcribed RNA, we detected both ET-A and ET-B receptor messenger RNA. These results provide the first evidence that ET-1 is a potent activator of I(cat) in HBSMC via ET-A and ET-B receptors, and the activation of I(cat) plays an important role in ET-1-induced Ca(2+) entry in human airways.