Pharmacological differences of endothelin receptors-mediated modulation in cultured interstitial cells of cajal from the murine small and large intestine

摘要

Interstitial cells of Cajal (ICCs) are pacemaker cells that activate the periodic spontaneous depolarization (pacemaker potentials) responsible for the production of slow waves in gastrointestinal smooth muscle. Under current clamping, ICCs had a mean resting membrane potential of-58 ± 3 mV and externally applied ET produced membrane depolarization in a dosedependent manner. These effects were reduced by intracellular GDP beta S. A comparison of the concentration-dependent membrane depolarizations on pacemaker potentials to ET-1, ET-2 and ET-3 showed a rank order of potency ET-1≥ET-2≥ET-3 in cultured murine small intestinal ICCs. The pretreatment with Ca ~(2+)-free solution and thapsigargin, a Ca ~(2+)-ATPase inhibitor in endoplasmic reticulum, abolished the generation of pacemaker potentials and suppressed the ET-1 induced membrane depolarizations. Chelerythrine and calphostin C, protein kinase C inhibitors or naproxen, an inhibitor of cyclooxygenase, did not block the ET-1 induced effects on pacemaker potentials. Pretreatment with BQ-123 (ET _Areceptor antagonist) or BQ-788 (ET _Breceptor antagonist) blocked the ET-1 induced effects on pacemaker potentials in cultured murine small intestinal ICCs. However, pretreatment with BQ-788 selectively did not block the ET-1 induced effects on pacemaker potentials in cultured murine large intestinal ICCs. Also, only externally applied selective ET Breceptor agonist, IRL 1620 did not show any influence on pacemaker potentials in cultured murine large intestine ICCs. RT-PCR results indicated the presence of the ET _Aand ET _Breceptor in ICCs. These results suggested that ET-1 modulates pacemaker potentials through ET _Aand ET _Breceptor activation in murine small intestinal ICCs and ET _Areceptor activation in murine large intestinal ICCs by external Ca ~(2+) influx and internal Ca ~(2+) release via protein kinase C or cyclooxygenase-independent mechanism. Therefore, the ICCs are targets for ET and their interaction can affect intestinal motility.