Abstract

Spontaneously rhythmic contraction of peripheral blood vessels actively modulates the peripheral circulation and blood pressure. However, the underlying mechanisms for the complex rhythmic contraction patterns of various vascular tissues are not yet fully understood. In the present study, the tetraethylammonium (TEA)-induced spontaneously oscillatory contractions of isolated rat tail artery tissues were examined. It was found that TEA evoked arterial oscillatory contractions in a concentration-dependent, but endothelium-independent manner. The voltage-dependent K+ (Kv) channel specific blocker, 4-aminopyridine (4-AP), induced a sustained, but not oscillated, vascular contraction. The presence of 4-AP had no effect on the TEA-induced oscillatory contractions. The blockade of KCa channels with charybdotoxin or apamin did not affect the basal force of vascular tissues. Neither the TEA-induced oscillatory contraction was affected by these blockers. The opening of KATP channels by levcromakalim or their blockade by glybenclamide ceased or increased, respectively, the oscillation of TEA-induced contractions. The absence of Ca2+ or the presence of nifedipine in the bath solution completely abolished the effects of TEA. The inhibition of Ca2+-ATPase in the sarcoplasmic reticulum with micromolar concentrations of thapsigargin or cyclopiazonic acid either abolished or enhanced, respectively, the TEA-induced oscillatory contractions. Ryanodine did not affect the TEA-induced oscillatory contraction. In conclusion, the TEA-induced oscillatory contraction may be initiated by the blockade of the TEA-sensitive delayed rectifier K+ channels and maintained by the TEA-insensitive but ATP-sensitive K+ channels. This K-K model presents a novel mechanism for the depolarization-induced rhythmic contractions of small arteries.

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