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  • Title: The functional significance of sodium channels in pancreatic beta-cell membranes.
    Author: Donatsch P, Lowe DA, Richardson BP, Taylor P.
    Journal: J Physiol; 1977 May; 267(2):357-76. PubMed ID: 327058.
    Abstract:
    1. The existence and functional significance of Na channels in pancreatic beta-cell membranes were investigated by studying the effects of the plant alkaloid veratridine on the temporal release of insulin from perfused isolated rat islets of Langerhans.2. 100 muM veratridine evoked a sustained threefold increase in insulin release which was almost completely inhibited by 3 muM tetrodotoxin (TTX). This action of TTX was rapidly reversible.3. The simultaneous presence of 100 muM propranolol, 100 muM phenoxy-benzamine and 10 muM atropine did not alter the magnitude of the response to 100 muM veratridine, indicating that the action of veratridine on the beta-cells was direct and was not mediated via the release of neurotrans-mitters from nerve endings within the islets.4. (45)Ca uptake by isolated islets in static incubation was increased almost threefold by 100 muM veratridine. This increase was completely inhibited by the simultaneous presence of 3 muM TTX.5. Replacement of Na(o) by choline caused a transient fourfold increase in insulin release which was associated with an increase in the uptake of (45)Ca from the extracellular space of similar magnitude. Subsequent exposure of islets to 100 muM veratridine still evoked some insulin release but this only achieved 32% of that secreted by islets exposed to veratridine in medium of normal [Na](o).6. The addition of 2.5 mM CoCl(2) to the medium caused a 62.5% inhibition of veratridine-mediated insulin release.7. In Ca-free medium supplemented with 1 mM EGTA, 100 muM veratridine evoked insulin release of equal magnitude and of similar temporal relationship to that obtained in the presence of normal [Ca](o).8. A twofold increase in insulin release that occurred in the 15 min period immediately following exposure to 1 mM ouabain was completely independent of [Ca](o). Subsequent ouabain-evoked release became increasingly dependent on [Ca](o).9. Tetrodotoxin (3 muM) inhibited the first phase of insulin release evoked by 16.7 mMd-glucose by 37% and the second phase by 20%.10. Both Na and Ca appear capable of entering through Na channels opened in the beta-cell membrane by veratridine. The increase in [Na](i), resulting from the veratridine mediated increase in P(Na+), causes depolarization of the beta-cell membrane with a consequent opening of voltage-sensitive, Co(2+)-blockable channels for additional Ca entry. An increase in [Na](i) also increases [Ca](i) by altering the equilibria of intracellular Ca-sequestering mechanisms. The small but significant reduction of glucose-mediated insulin release by TTX indicates that glucose has a rather weak action on the Na channel and a more pronounced effect on the voltage-dependent Co(2+)-blockable Ca channel.
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