Carnitine metabolism during exercise

Abstract

Carnitine is an important cofactor for normal cellular metabolism. Optimal utilization of fuel substrates for ATP generation by skeletal muscle during exercise is dependent on adequate carnitine stores. During short periods of exercise the skeletal muscle carnitine pool is largely segregated from extracellular carnitine. In normal human subjects, only minimal changes in the muscle carnitine pool are observed during exercise at work loads below the lactate threshold. In contrast, at work-loads above the lactate threshold the muscle total carnitine is redistributed from carnitine to acetylcarnitine, with the acetylcarnitine content correlated with the muscle acetyl-CoA and lactate contents. In contrast, in patients with peripheral arterial disease, an accumulation of acylcarnitines is observed at all work loads. Patients with chronic renal failure who are on hemodialysis demonstrate a poor exercise capability which is correlated with a decrease in muscle carnitine content. Carnitine supplementation has been shown to improve exercise tolerance in both peripheral arterial disease and hemodialysis patients. Further work is needed to define the mechanism by which exogenous carnitine improves exercise performance in order to better define potential patient populations for theraphy and to facilitate optimal dosing regimens.