Serine racemase as a prime target for age-related memory deficits

Abstract

The learning and memory deficits associated with non-pathological ageing mainly result from alterations to the plasticity of neuronal network dynamics within the hippocampus. In addition to the broad spectrum of changes that affect the morphology and function of hippocampal excitatory circuits in the ageing brain, the impaired activation of the N-methyl-D-aspartate subtype of glutamate receptors (NMDA-R) is a typical feature, altering the induction and maintenance of long-term potentiation, a major form of synaptic plasticity. In addition to glutamate, the binding of a co-agonist at the strychnine-insensitive glycine-binding site is required for NMDA-R activation. This review presents recent evidence that: (i) the amino acid D-serine is an endogenous co-agonist of synaptic NMDA-R and necessary for long-term potentiation expression, (ii) reduced d-serine levels in the hippocampus contribute to synaptic plasticity and memory deficits in normal ageing, and (iii) age-related oxidative stress selectively targets hippocampal serine racemase to impact D-serine availability in neuronal networks. These results emphasize the critical role of the hippocampal d-serine-dependent pathway in changes affecting neuronal network dynamics in physiological ageing that underlie memory deficits. In addition, the central role of serine racemase in these changes opens new perspectives in the search for relevant therapeutic strategies aimed at reducing age-related memory defects.