Are Isoprostanes a Clinical Marker for Antioxidant Drug Investigation?

Numerous pathological conditions are suspected to involve free radical production as part of their pathogenic process. Therefore, a pharmacological control of oxidative stress could probably benefit many vascular, inflammatory or degenerative diseases. However, the development of antioxidant drugs and their clinical evaluation are limited by the absence of an accurate, reliable and easy-to-handle marker of tissue oxidative events. Isoprostanes (isoPs), a prostaglandin-related series of metabolites, are emerging as major candidates for clinical measurement of oxidative stress. They are chemically stable products of lipid peroxidation, formed in cellular membranes and subsequently released and excreted in the urine. Many recent clinical studies have reported that urinary and plasma levels of isoPs (in particular the iPF2alpha-III isomer also called 8-epi-PGF2alpha) are increased in clinical conditions where oxidative stress is suspected to play a pathogenic role. Moreover, isoPs have been detected in tissue extracts from atherosclerotic plaques and Alzheimer patients brain tissue. Finally, antioxidant treatments such as vitamin E supplementation appear to reduce isoPs levels in biological fluids of treated patients. These preliminary observations argue for a further investigation of isoPs as a practical pharmacodynamic endpoint for the clinical evaluation of antioxidant therapies.