salicylates and lipoamide

A reproducible, rapid procedure for the determination of glutathione in human blood by micellar electrokinetic chromatography has been developed. Whole blood samples were deproteinized with 5% w/v sulfosalicylic acid (final concentration). After centrifugation, the supernatant was directly injected for analysis, without further derivatization. Separations were performed by using an uncoated capillary of 30 cm effective length and 50 microns internal diameter (ID), 50 mM Tris-HCl, 30 mM sodium dodecyl sulfate (SDS), pH 7.00, as running buffer, and 10-20 kV. On-line detection was carried out at 214 nm and a detection limit in the range of femtomoles was achieved. Under the same experimental conditions, we resolved a mixed standard solution containing glutathione in its oxidize and reduced forms, lipoamide and alpha-lipoic acid. The corresponding migration times were reproducible. The present method allows rapid determination of these compounds, which play a critical role in oxidative stress, in cellular defense against injurious agents and whose levels are related to the toxicology and metabolism of several toxins and drugs, such as antineoplastic agents.

Topics: Benzenesulfonates; Chromatography; Electrochemistry; Glutathione; Humans; Kinetics; Micelles; Oxidation-Reduction; Salicylates; Thioctic Acid

This study was undertaken to search for the endogenous dithiol cofactor of the reductases of the vitamin K cycle. As a starting point, the redox-active lipophilic endogenous compounds lipoic acid and lipoamide were looked at. The study shows that microsomes contain NADH-dependent lipoamide reductase activity. Reduced lipoamide stimulates microsomal vitamin K epoxide reduction with kinetics comparable with those for the synthetic dithiol dithiothreitol (DTT). Reduced lipoic acid shows higher (4-fold) Km values. No reductase activity with lipoic acid was found to be present in microsomes or cytosol. The reduced-lipoamide-stimulated vitamin K epoxide reductase is as sensitive to warfarin and salicylate inhibition as is the DTT-stimulated one. Both vitamin K epoxide reductase and lipoamide reductase activity are recovered in the rough microsomes. NADH/lipoamide-stimulated vitamin K epoxide reduction is uncoupled by traces of Triton X-100, suggesting that microsomal lipoamide reductase and vitamin K epoxide reductase are associated. The results suggest that the vitamin K cycle obtains reducing equivalents from NADH through microsomal lipoamide reductase.

Topics: Animals; Dihydrolipoamide Dehydrogenase; Dithiothreitol; Microsomes, Liver; Mixed Function Oxygenases; NADH, NADPH Oxidoreductases; Rats; Salicylates; Salicylic Acid; Thioctic Acid; Vitamin K Epoxide Reductases; Warfarin