Acute nateglinide administration in subjects with type 2 diabetes: effects on postprandial metabolism, coagulation, and fibrinolysis.

BACKGROUND AND AIM: Postprandial glycaemia and lipaemia are known risk factors for atherosclerosis in type 2 diabetes. Coagulation activation in the postprandial state also contributes to acceleration of atherosclerosis. Nateglinide is effective in reducing postprandial glycaemia. Its effect on glycaemia may also be beneficial in postprandial lipaemia and coagulation. The aim of this study was to examine the potential effect of a single dose of nateglinide on postprandial triglyceridaemia, coagulation, and fibrinolysis in patients with type 2 diabetes. METHODS AND RESULTS: Ten subjects with type 2 diabetes, treated with diet alone were recruited in a crossover randomized study. In the morning, after a 12- to 14-h fast, each subject received a standard mixed meal (total energy 783 kcal), preceded by one tablet of 120 mg nateglinide or placebo. Venous blood samples were drawn prior to meal consumption and 6h afterwards for the measurement of plasma glucose, insulin, and C-peptide, lipids, coagulation, and fibrinolysis factors. As expected, there was a significant reduction in postprandial glycaemia after nateglinide administration compared to placebo (P<0.001). Plasma insulin levels were significantly higher after nateglinide than after placebo (P=0.002). Nateglinide administration resulted in a lower overall postprandial reduction of tissue-plasminogen activator than placebo (-2.9+/-1.3 vs. -8.3+/-3.7 ng/ml h, P=0.003). In addition, a significant reduction of postprandial plasminogen activator inhibitor-1 was observed in comparison with the baseline values after nateglinide (P=0.001), although the overall response was not significantly different after nateglinide and placebo (P=0.31). Plasma concentrations of C-peptide, lipids and the remaining coagulation parameters studied were not different between nateglinide and placebo. CONCLUSIONS: Acute nateglinide administration improves postprandial glycaemia and fibrinolytic activity in patients with type 2 diabetes. This combined effect, if confirmed by a long-treatment study, might reduce cardiovascular risk in type 2 diabetes.

Trimetazidine protects low-density lipoproteins from oxidation and cultured cells exposed to H(2)O(2) from DNA damage.

Trimetazidine is a well-established anti-ischemic drug, which has been used for long time in the treatment of pathological conditions related with the generation of reactive oxygen species. However, although extensively studied, its molecular mode of action remains largely unknown. In the present study, the ability of trimetazidine to protect low-density lipoproteins (LDL) from oxidation and cultured cells from H(2)O(2)-induced DNA damage was investigated. Trimetazidine, tested at concentrations 0.02 to 2.20 mM, was shown to offer significant protection to LDL exposed to three different oxidizing systems, namely copper, Fe/ascorbate, and met-myoglobin/H(2)O(2). The oxidizability of LDL was estimated by measuring, (i) the lag period, (ii) the maximal rate of conjugated diene formation, (iii) the total amount of conjugated dienes formed, (iv) the electrophoretic migration of LDL protein in agarose gels (REM), and (v) the inactivation of the enzyme PAF-acetylhydrolase present in LDL. In addition, the presence of trimetazidine decreased considerably the DNA damage in H(2)O(2)-exposed Jurkat cells in culture. H(2)O(2) was continuously generated by the action of glucose oxidase at a rate of 11.8 +/- 1.5 microM per min (60 ng enzyme per 100 microl), and DNA damage was assessed by the single cell gel electrophoresis assay (also called comet assay). The protection offered by trimetazidine in this system (about 30% at best) was transient, indicating modification of this agent during its action. These results indicate that trimetazidine can modulate the action of oxidizing agents in different systems. Although its mode of action is not clarified, the possibility that it acts as a lipid barrier permeable transition metal chelator is considered.