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  • Title: Binding Ca2+ to intracellular or to extracellular sites of dihydropyridine receptor of rabbit skeletal muscle discriminates between in vitro binding of Ca2+-channel agonist and antagonist.
    Author: Kanngiesser U, Pongs O.
    Journal: Eur J Biochem; 1989 May 01; 181(2):467-73. PubMed ID: 2540975.
    Abstract:
    Transverse tubule membrane vesicles contain dihydropyridine receptor of rabbit skeletal muscle in an insideout orientation. Digitonin-solubilized, purified dihydropyridine receptor is embedded in digitonin vesicles in an outside-out orientation. Ca2+ selectively stimulates binding of the Ca2+-channel antagonist [3H]PN200-110 to dihydropyridine receptor in the outside-out but not the inside-out orientation. The dissociation constant for binding Ca2+ to the extracellular Ca2+-specific binding site of dihydropyridine receptor is 2-3 microM. The data demonstrate that binding Ca2+ to the extracellular high-affinity Ca2+-binding site is required for binding dihydropyridines to dihydropyridine receptor. This binding is inhibited, however, by 1-10 mM concentrations of any divalent cation tested (Ba2+, Mn2+, Mg2+). Also, Ca2+ selectively stimulates binding of the Ca2+-channel agonist [3H]BayK8644 to dihydropyridine receptor in the inside-out orientation. The titration of this Ca2+ dependence indicates that the dissociation constant for binding Ca2+ to the intracellular Ca2+-specific binding site of dihydropyridine receptor is in the millimolar range. Thus, binding Ca2+-channel agonist or antagonist to dihydropyridine receptor is modulated by binding Ca2+ to different sites of the receptor. Measurements of dissociation rate constants for binding [3H]PN200-110 to dihydropyridine receptor in the presence of diltiazem, verapamil and/or Ca2+ indicate that Ca2+, like diltiazem or verapamil, is an allosteric effector of this receptor.
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