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  • Title: Participation of fast-activating, voltage-dependent K currents in electrical slow waves of colonic circular muscle.
    Author: Thornbury KD, Ward SM, Sanders KM.
    Journal: Am J Physiol; 1992 Jul; 263(1 Pt 1):C226-36. PubMed ID: 1636679.
    Abstract:
    The plateau phase of electrical slow waves in phasic gastrointestinal muscles is critical for excitation-contraction coupling. The plateau appears to depend upon a balance between inward Ca2+ current and outward K+ currents that is sustained for several seconds. Voltage-dependent, non-Ca(2+)-dependent K currents were studied in canine colonic circular muscle cells using the whole cell patch-clamp technique. At room temperature, depolarization activated a slow outward current that showed little inactivation during 500 ms. Increasing the temperature to 37 degrees C significantly increased the rate of activation of voltage-dependent outward current. The onset of the outward current overlapped the transient inward Ca2+ current, suggesting that this K current may act as a brake on the upstroke depolarization of electrical slow waves in intact muscles. Voltage-dependent outward current was sustained for the duration of test pulses. This current balanced the sustained inward current that was also activated at physiological test potentials. The outward current evoked by test pulses positive to -20 mV inactivated by at least 50% within 500 ms. Half inactivation occurred at -36 mV. Voltage-dependent K current was reduced by 4-aminopyridine (4-AP; 1-5 mM), but difference currents obtained by subtracting currents elicited from holding potentials of -45 mV from currents obtained from holding potentials of -100 mV were not affected by 4-AP (1 mM). Studies were also performed on intact muscles to test the effects of 4-AP on electrical slow waves. 4-AP increased the amplitude and rate of rise of the upstroke potential and increased the amplitude and prolonged the plateau phase of slow waves. These data suggest that a rapidly activating, inactivating, voltage-dependent K current participates in electrical slow waves of colonic circular smooth muscles.
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