Voltage-dependent inward currents of interstitial cells of Cajal from murine colon and small intestine

doi:10.1113/jphysiol.2002.018796

Voltage-dependent inward currents of interstitial cells of Cajal from murine colon and small intestine

Young Chul Kim, Sang Don Koh and Kenton M. Sanders

Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, NV 89557, USA

Electrical slow waves in gastrointestinal (GI) muscles are generated by pacemaker cells, known as interstitial cells of Cajal (ICC). The pacemaker conductance is regulated by periodic release of Ca²⁺ from inositol 1,4,5-trisphosphate (IP₃) receptor-operated stores, but little is known about how slow waves are actively propagated. We investigated voltage-dependent Ca²⁺ currents in cultured ICC from the murine colon and small intestine. ICC, identified by kit immunohistochemistry, were spontaneously active under current clamp and generated transient inward (pacemaker) currents under voltage clamp. Depolarization activated inward currents due to entry of Ca²⁺. Nicardipine (1 µM) blocked only half of the voltage-dependent inward current. After nicardipine, there was a shift in the potential at which peak current was obtained (-15 mV), and negative shifts in the voltage dependence of activation and inactivation of the remaining voltage-dependent inward current. The current that was resistant to dihydropyridine (I_VDDR) displayed kinetics, ion selectivity and pharmacology that differed from dihydropyridine-sensitive Ca²⁺ currents. I_VDDR was increased by elevating extracellular Ca²⁺ from 2 to 10 mM, and this caused a +30 mV shift in reversal potential. I_VDDR was blocked by Ni²⁺ (100 µM) or mebefradil (1 µM) but was not affected by blockers of N-, P- or Q-type Ca²⁺ channels. Equimolar replacement of Ca²⁺ with Ba²⁺ reduced I_VDDR without effects on inactivation kinetics. BayK8644 had significantly less effect on I_VDDR than on I_VDIC. In summary, two components of inward Ca²⁺ current were resolved in ICC of murine small intestine and colon. Since slow waves persist in the presence of dihydropyridines, the dyhydropyridine-resistant component of inward current may contribute to slow wave propagation.

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