Mol Cells 2006 Feb 28;211:52-62.

Effects of ginsenosides and their metabolites on voltage-dependent Ca(2+) channel subtypes.

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In previous reports we demonstrated that ginsenosides, active ingredients of Panax ginseng, affect some subsets of voltage-dependent Ca(2+) channels in neuronal cells expressed in Xenopus laevis oocytes. However, the major component(s) of ginseng that affect cloned Ca(2+) channel subtypes such as alpha(1C) (L)-, alpha(1B) (N)-, alpha(1A) (P/Q)-, a1E (R)- and a1G (T) have not been identified. Here, we used the two-microelectrode volt-age clamp technique to characterize the effects of ginsenosides and ginsenoside metabolites on Ba(2+) currents (IBa) in Xenopus oocytes expressing five different Ca(2+) channel subtypes. Exposure to ginseng total saponins (GTS) induced voltage-dependent, dose-dependent and reversible inhibition of the five channel subtypes, with particularly strong inhibition of the a1G-type. Of the various ginsenosides, Rb(1), Rc, Re, Rf, Rg(1), Rg(3), and Rh(2), ginsenoside Rg(3) also inhibited all five channel subtypes and ginsenoside Rh(2) had most effect on the a1C- and a1E-type Ca(2+) channels. Compound K (CK), a protopanaxadiol ginsenoside metabolite, strongly inhibited only the a(1G)-type of Ca(2+) channel, whereas M4, a protopanaxatriol ginsenoside metabolite, had almost no effect on any of the channels. Rg(3), Rh(2), and CK shifted the steady-state activation curves but not the inactivation curves in the depolarizing direction in the alpha(1B)- and alpha(1A)-types. These results reveal that Rg(3), Rh(2) and CK are the major inhibitors of Ca(2+) channels in Panax ginseng, and that they show some Ca(2+) channel selectivity.

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