Gomez_2004_Am.J.Physiol.Heart.Circ.Physiol_286_H2065

Reference

Title : Autonomic regulation of calcium and potassium channels is oppositely modulated by microtubules in cardiac myocytes - Gomez_2004_Am.J.Physiol.Heart.Circ.Physiol_286_H2065
Author(s) : Gomez AM , Kerfant BG , Vassort G , Pappano AJ
Ref : American Journal of Physiology Heart Circ Physiol , 286 :H2065 , 2004
Abstract :

We recently showed that colchicine treatment of rat ventricular myocytes increases the L-type Ca2+ current (I(Ca)) and intracellular Ca2+ concentration ([Ca2+](i)) transients and interferes with adrenergic signaling. These actions were ascribed to adenylyl cyclase (AC) stimulation after G(s) activation by alpha,beta-tubulin. Colchicine depolymerizes microtubules into alpha,beta-tubulin dimers. This study analyzed muscarinic signals in myocytes with intact or depolymerized microtubules. Myocytes were loaded with the Ca2+ indicator fluo 3 and were field stimulated at 1 Hz or voltage clamped. In untreated cells, carbachol (CCh; 1 microM) induced ACh-activated K(+) current [I(K(ACh))], which happens via betagamma-subunits from the activation of G(i). Carbachol also reduced [Ca2+](i) transients and contractions. Once G(i) is activated by muscarinic agonist, the alpha(i)-subunit is released from the betagamma-subunits, but it is silent, and its inhibition of the AC/cAMP cascade, manifested by I(Ca) reduction, is not seen unless AC has been previously activated. In colchicine-treated cells, CCh caused greater reductions of [Ca2+](i) transients and contractions than in untreated cells. The alpha(i)-subunit became effective in signaling through the AC/cAMP cascade and reduced I(Ca) without changing its voltage-dependence. Isoproterenol (Iso) regained its efficacy and reversed I(Ca) inhibition by CCh. Stimulation of I(Ca) by forskolin persisted in colchicine-treated cells when Iso was ineffective. The effect of CCh on I(K(ACh)) was occluded in colchicine-treated cells. Colchicine treatment, per se, may increase I(K(ACh)) by betagamma-subunits released from G(s) to mask this effect of CCh. Microtubules suppress I(Ca) regulation by alpha(i); their disruption releases restraints that unmask muscarinic inhibition of I(Ca). Summarily, colchicine treatment reverses regulation of ventricular excitation-contraction coupling by autonomic agents.

PubMedSearch : Gomez_2004_Am.J.Physiol.Heart.Circ.Physiol_286_H2065
PubMedID: 14739139

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Citations formats

Gomez AM, Kerfant BG, Vassort G, Pappano AJ (2004)
Autonomic regulation of calcium and potassium channels is oppositely modulated by microtubules in cardiac myocytes
American Journal of Physiology Heart Circ Physiol 286 :H2065

Gomez AM, Kerfant BG, Vassort G, Pappano AJ (2004)
American Journal of Physiology Heart Circ Physiol 286 :H2065