Comte B, Romanelli A, Tchu S, van de Werve G
Department of Nutrition, University of Montreal, Québec, Canada.
Biochem J. 1995 Aug 15;310 ( Pt 1)(Pt 1):61-6. doi: 10.1042/bj3100061.
The mechanism of the antihyperglycaemic action of dexfenfluramine (DEXF) was investigated in isolated rat hepatocytes exposed to glucagon. Preincubation of hepatocytes with DEXF caused a dose-dependent inhibition of cyclic AMP formation by 100 nM glucagon (Ki = 0.29 mM) that was almost complete at 1 mM DEXF. Surprisingly, glucagon-induced phosphorylase activation was not affected by DEXF despite the significant drop in cyclic AMP levels. Glucose production stimulated by glucagon was inhibited by up to 48% by 1 mM DEXF, and the rate of glucose production correlated positively with the steady-state concentration of glucose 6-phosphate. DEXF also partially restored lactate + pyruvate production which was abolished by an optimal concentration of glucagon. Although DEXF was not able to prevent the inactivation of pyruvate kinase by glucagon, the lack of further accumulation of phosphoenolpyruvate in DEXF-treated cells supports the conclusion that the flux through pyruvate kinase is stimulated, probably via the increase in fructose 2,6-bisphosphate, thereby increasing glycolysis. Our results thus indicate that DEXF counteracts the inhibition of glycolysis by glucagon and that this property might contribute to the antihyperglycaemic effect of this drug. Furthermore, this study shows that, in the presence of the drug, glucagon caused phosphorylase activation and pyruvate kinase inactivation without a significant increase in cyclic AMP levels.
在分离的大鼠肝细胞中,研究了右芬氟拉明(DEXF)的抗高血糖作用机制,这些肝细胞暴露于胰高血糖素。用DEXF预孵育肝细胞会导致100 nM胰高血糖素诱导的环磷酸腺苷(cAMP)生成呈剂量依赖性抑制(Ki = 0.29 mM),在1 mM DEXF时几乎完全抑制。令人惊讶的是,尽管cAMP水平显著下降,但DEXF并未影响胰高血糖素诱导的磷酸化酶激活。1 mM DEXF可将胰高血糖素刺激的葡萄糖生成抑制高达48%,且葡萄糖生成速率与6-磷酸葡萄糖的稳态浓度呈正相关。DEXF还部分恢复了乳酸+丙酮酸的生成,而这在最佳浓度的胰高血糖素作用下被消除。尽管DEXF无法阻止胰高血糖素使丙酮酸激酶失活,但在DEXF处理的细胞中磷酸烯醇丙酮酸缺乏进一步积累,这支持了以下结论:丙酮酸激酶的通量可能通过果糖2,6-二磷酸的增加而受到刺激,从而增加糖酵解。因此,我们的结果表明,DEXF可抵消胰高血糖素对糖酵解的抑制作用,且这一特性可能有助于该药物的抗高血糖作用。此外,本研究表明,在药物存在的情况下,胰高血糖素会导致磷酸化酶激活和丙酮酸激酶失活,而不会使cAMP水平显著升高。