Modulation of K+ and Ca2+ channels by histamine H1-receptor stimulation in rabbit coronary artery cells.

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Modulation of K+ and Ca2+ channels by histamine H1-receptor stimulation in rabbit coronary artery cells.

T Ishikawa, J R Hume and K D Keef

Department of Physiology, University of Nevada School of Medicine, Reno 89557-0046.

1. The modulation of whole-cell K+ and Ca2+ currents by stimulationof histamine H1-receptors in freshly isolated single smoothmuscle cells from the rabbit coronary artery was characterizedusing the patch-clamp technique at 35 degrees C. Single-channelK+ currents were also analysed using the cell-attached patchconfiguration. 2. The histamine H1-receptor agonist, 2-(2-aminoethyl)pyridine(AEP) (0.1 mM), increased the amplitude of voltage-activatedinward Ba2+ currents, recorded using the perforated-patch recordingtechnique, which could be completely blocked by the dihydropyridineantagonist, nicardipine (1 microM). 3. Whole-cell outward K+currents in rabbit coronary artery cells could be classifiedinto at least two components: (a) a slowly inactivating, 4-aminopyridine(4-AP)-sensitive low-noise current, and (b) a non-inactivating,tetraethylammonium (TEA)-sensitive high-noise current. 4. AEP(0.1 mM) caused changes in whole-cell outward K+ currents whichdepended upon membrane voltage. Specifically: (a) AEP enhancedthe amplitude of outward currents at voltages between -30 and0 mV, and (b) AEP decreased the outward currents at more positivepotentials. 5. The removal of extracellular Ca2+ caused littleinhibition of the effects of AEP on K+ currents, whereas thedepletion of intracellular Ca2+ stores by pretreatment withryanodine and caffeine prevented the effects of AEP on K+ channels.Moreover, acute exposure to ryanodine (10 microM) or thapsigargin(1 microM), a Ca(2+)-ATPase inhibitor, caused voltage-dependentchanges in the outward currents similar to those observed withAEP. These results suggest that the voltage-dependent effectsof AEP on K+ currents are mainly mediated by release of Ca2+from intracellular stores. 6. The dual stimulatory and inhibitoryeffect of AEP on whole-cell K+ currents was shown to be dueto a differential effect on two distinct types of K+ channels.The stimulatory effect observed over the voltage range -30 to0 mV was prevented by pretreatment of cells with low concentrationsof TEA (1 mM), whereas the inhibitory effect observed at positivepotentials was prevented by pretreatment of cells with 4-AP(3 mM). 7. Single-channel recordings revealed two types of unitaryK+ currents with conductances of 225 and 70 pS in the cell-attachedconfiguration with symmetrical K+ solutions (150 mM K+ in pipette-150mM K+ in bath). Bath application of AEP (0.1 mM) caused a markedincrease in the open probability of the large conductance channels.(ABSTRACTTRUNCATED AT 400 WORDS)

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				C. H. Gelband and J. R. Hume [Ca2+]i Inhibition of K+ Channels in Canine Renal Artery : Novel Mechanism for Agonist-Induced Membrane Depolarization Circ. Res., July 1, 1995; 77(1): 121 - 130. [Abstract] [Full Text]

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