[摘要] References(20)Cited-By(12)Several lines of evidence suggest that ATP-sensitive potassium (KATP) channels are involved in glucose uptake by insulin target tissues. The aim of the present study was to prove directly the effect of KATP channel activity on glucose transport into cultured human skeletal muscle cells. We used potassium channel openers PCO-400 and nicorandil alone or in combination with channel blockers glibenclamide and gliclazide to examine their effects on insulin- or high glucose concentration-induced glucose uptake using 2-deoxy-D-3H-glucose or 3-O-methyl-D-3H- glucose as tracer, respectively. PCO-400 inhibited the basal (non-stimulated) uptake of 2-DG or 3-OMG at the glucose concentration of 5mM. PCO-400 and nicorandil dose-dependently inhibited insulin-stimulated glucose uptake, and their inhibitory effects were reversed by glibenclamide or gliclazide. In addition, PCO-400 inhibited high glucose concentration-facilitated glucose transport in the absence of insulin, and this effect was also antagonized by both sulfonylurea drugs. Regarding the mechanism by which KATP channels modulate glucose transport, we focused on protein kinase C (PKC), because PKC has been supposed to participate in both insulin- and high glucose concentration -stimulated glucose transport. PMA (phorbol 12-myristate 13-acetate) dose-dependently reversed the PCO-400-induced suppression of insulin-stimulated glucose uptake. On the other hand, PCO-400 at the concentration that inhibited glucose uptake caused no alteration of membrane-associated PKC activity in the presence of insulin or PMA. From these results we conclude that KATP channels modulate the basal and insulin-or high glucose level-stimulated glucose transport in skeletal muscle through a mechanism independent of PKC.