Oxidative mechanisms at rest and during exercise.

Carbohydrates (CHO) and lipids provide the amount of energy required for physical and chemical reactions inside the human body. The various constraints the body has to resolve explain the use of these two substrates, catabolized via distinct pathways to one common final reaction. In the classic model, three main organs/tissues for substrate fluxes (liver, adipose tissue and skeletal muscle) and one organ regulating main reactions by adaptation of hormonal secretions (endocrine pancreas) are described.

Simvastatin induces impairment in skeletal muscle while heart is protected.

3-Hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors (statins) are widely used to reduce plasma cholesterol concentration. However, statins are also known to induce various forms of muscular toxicity. We have previously shown that acute application of simvastatin on human skeletal muscle samples induced a cascade of cellular events originating from mitochondria and resulting in a global alteration of Ca2+ homeostasis.

Relationship between blood lactate concentration and substrate utilization during exercise in type 2 diabetic postmenopausal women.

Increased blood lactate concentration and alterations of substrate utilization have been shown to be partly involved in development of insulin resistance in obese and type 2 diabetic patients. As blood represents the first great distribution space and participates to lactate exchange in whole body, we investigated lactate transport in red blood cells at rest and the potential relationships between elevated blood lactate and substrate utilization in 7 obese controls and 7 obese type 2 diabetic postmenopausal women during an incremental exercise test. Blood samples were collected at rest, 30%, 50%, and 60% of maximal power and at 8 and 20 minutes of recovery time.

Endurance training increases lactate transport in male Zucker fa/fa rats.

The purpose of this study was to investigate the effect of endurance training (10 weeks) on previously reported alterations of lactate exchange in obese Zucker fa/fa rats. We used sarcolemmal vesicles to measure lactate transport capacity in control sedentary rats, Zucker (fa/fa), and endurance trained Zucker (fa/fa) rats. Monocarboxylate transporter (MCT) 1 and 4 content was measured in sarcolemmal vesicles and skeletal muscle.