NMDA receptors play a central role in neuronal plasticity and in several pathological situations. Transient activation of this receptor triggers long-term potentiation, whereas sustained activation leads to cell death. Evidence for control of this activity by a redox site in cell cultures, brain tissues and in recombinant NMDA receptors are discussed by Henri Gozlan and Yehezkel Ben-Ari. The characteristics of this modulation and the consequences of redox state modifications on NMDA-mediated events are examined in vitro under physiological and pathological conditions. Since metabolic disorders enhance NMDA receptor function, the redox site could constitute a new target for selectively preventing in vivo the deleterious consequences of overactivation without blocking neuronal plasticity mediated by NMDA receptors.