Induction of Na+ channel voltage sensitivity in Xenopus oocytes depends on Ca2+ mobilization |
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Authors: | Charpentier G Kado R T |
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Institution: | Laboratoire de Neurobiologie Cellulaire, Université de Picardie, Faculté des Sciences, Amiens, France. Gilles.Charpentier@u-Picardie.fr |
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Abstract: | An unusual inward current which is slowly elicited in the Xenopus oocyte membrane during sustained depolarization is reportedly carried by Na+. It is thought that Na+ selective channels are in some way induced to become voltage-sensitive by the depolarization. Earlier studies report that the induction process involves a phospholipase C and a protein kinase C as well as calcium ions. The present work investigated the origins of this calcium in the oocyte. We show that injection of the powerful Ca2+ chelator (BAPTA) in the oocyte, before induction of the Na+ channels, prevented the appearance of the Na+ current, confirming an important role for Ca2+]i. However, in oocytes perfused with Ca2+ -free medium, induction of the channels could still be obtained, indicating that induction did not depend upon the entry of external Ca2+. Downmodulation of Ca2+ release from inositol 1,4,5-trisphosphate (InsP3)-sensitive stores with caffeine and with a low molecular weight heparin resulted in decreased or no Na+ currents. The results are discussed in terms of the contributions from other endogenous calcium-dependent conductances which can influence the Na+ current amplitudes and time courses. The results presented support the idea that intracellular Ca2+ increase principally due to Ca2+ released from InsP3-sensitive stores is needed by the enzyme systems to produce the depolarization-induced activation of the Na+ conductance in the Xenopus oocyte. |
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