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  2. Tetrandrine blocks a slow, large-conductance, Ca(2+)-activated potassium channel besides inhibiting a non-inactivating Ca2+ current in isolated nerve terminals of the rat neurohypophysis

Tetrandrine blocks a slow, large-conductance, Ca(2+)-activated potassium channel besides inhibiting a non-inactivating Ca2+ current in isolated nerve terminals of the rat neurohypophysis

  • Pflugers Arch. 1992 Sep;421(6):558-65. doi: 10.1007/BF00375051.
G Wang 1 J R Lemos
Affiliations

Affiliation

  • 1 Worcester Foundation for Experimental Biology, Shrewsbury, MA 01545.
Abstract

The effects of tetrandrine, a bis-benzyl-isoquinoline alkaloid, on voltage-gated Ca2+ currents (ICa) and on CA(2+)-activated K+ current (IK(CA)) and channels in isolated nerve terminals of the rat neurohypophysis were investigated using patch-clamp techniques. The non-inactivating component of ICa was inhibited by external tetrandrine in a voltage- and dose-dependent manner, with an IC50 = 10.1 microM. IK(CA) was elicited by depolarizations when approximately 10 microM Ca2+ was present on the cytoplasmic side. Only externally applied tetrandrine, at 1 microM, decreased the amplitude of IK(CA), whereas the fast inward Na+ current and transient outward K+ current were not affected. Tetrandrine, applied to the extracellular side of outside-out patches excised from the nerve terminals, induced frequent and short closures of single type II, maxi-Ca(2+)-activated K+ channels. Tetrandrine decreased the channel-open probability, within bursts, with an IC50 = 0.21 microM. Kinetic analysis of the channel activity showed that the open-time constant decreased linearly with increasing tetrandrine concentrations (0.01-3 microM), giving an association rate constant of 8.8 x 10(8) M-1 s-1, whereas the arithmetic mean closed time did not change, giving a dissociation rate constant of 136.6 s-1. These results show that tetrandrine is a high-affinity blocker of the type II, maxi-Ca(2+)-activated K+ channel of the rat neurohypophysial terminals.

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