Inactivation of L-type Ca channels in embryonic chick ventricle cells: dependence on the cytoskeletal agents colchicine and taxol.

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Inactivation of L-type Ca channels in embryonic chick ventricle cells: dependence on the cytoskeletal agents colchicine and taxol.

A Galli and L J DeFelice

Department of Anatomy and Cell Biology, Emory University School of Medicine, Atlanta, Georgia 30322.

ABSTRACT

This article shows that colchicine and taxol strongly influencethe kinetics of L-type Ca channels in intact cardiac cells,and it suggests a mechanism for this action. It is known thatcolchicine disassociates microtubules into tubulin, and thattaxol stabilizes microtubules. We have found that colchicineincreases the probability that Ca channels are in the closedstate and that taxol increases the probability they are in theopen state. Moreover, taxol lengthens the mean open time ofCa channels. In this regard, taxol is similar to Bay-K 8644;however, Bay K works on inside-out patches, but taxol does not.Neither colchicine nor taxol alters the number of Ca channelsin a patch. We have quantified these results as follows. Itis known that L-type channels in embryonic chick heart ventriclecells have voltage- and current-dependent inactivation. In 10mM Ba, channel conductance is linear in the range -10 to 20mV. The conductance is 12 +/- 1 pS, and the extrapolated reversalpotential is 42 +/- 2 mV (n = 3). In cell-attached patches,inactivation depends on the number of channels. One channel(holding at -80 mV and stepping to 0 mV for 500 ms) shows virtuallyno inactivation. However, three channels inactivate with a timeconstant of 360 +/- 20 ms (n = 6). In similar patches, colchicine(80 microM for 15 min) decreases the inactivation time constantto 162 +/- 33 ms (n = 4) and taxol (50 microM for 10 min) virtuallyabolishes inactivation (time constant 812 +/- 265 ms (n = 4)).(ABSTRACTTRUNCATED AT 250 WORDS)

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