How antidepressants work: New perspectives on the pathophysiology of depressive disorder

Abstract

Background New research in animals is beginning to change radically our understanding of the biology of stress and the effects of antidepressant agents. Aims To relate recent findings from the basic neurosciences to the pathophysiology of depressive disorder. Method Drawing together findings from molecular and physiological studies in rats, social studies in primates and neuropsychological studies in humans, we review the neurotrophic and neuroplastic effects of antidepressants and stress. Results Stress and antidepressants have reciprocal actions on neuronal growth and vulnerability (mediated by the expression of neurotrophins) and synaptic plasticity (mediated by excitatory amino acid neurotransmission) in the hippocampus and other brain structures. Stressors have the capacity to progressively disrupt both the activities of individual cells and the operating characteristics of networks of neurons throughout the life cycle, while antidepressant treatments act to reverse such injurious effects. Conclusions We propose a central role for the regulation of synaptic connectivity in the pathophysiology of depressive disorder.