Functional change of NMDA receptors related to enhancement of susceptibility to neurotoxicity in the developing pontine nucleus.

The developing neurons have been reported to be extremely susceptible to toxicity of NMDA during a restricted developmental period. Pontosubicular neuronal necrosis is a typical type of perinatal human brain lesion and often coexists with other forms of cerebral hypoxic and ischemic injuries. To determine whether functional changes of NMDA receptors related to the susceptibility to NMDA toxicity are involved in developing neurons in the pontine nucleus, we have examined the lesion produced by in vivo direct injection of NMDA into the pontine nucleus of rats at postnatal days 1-30, recorded NMDA-induced whole-cell currents from neurons in the pontine nucleus in the developing rat brainstem slices, and performed in situ hybridization for NMDA receptor subunit mRNAs in the pontine nucleus. The susceptibility to NMDA neurotoxicity peaked near postnatal day 15, and the NMDA-induced currents showed prominent reduction of the voltage-dependent block by Mg2+ near postnatal day 15. The pontine nucleus near postnatal day 15 showed distinct expression of the NMDA receptor subunit NR2C mRNA. These results suggest that the susceptibility to NMDA neurotoxicity that is enhanced in the rat pontine nucleus near postnatal day 15 is mediated by the NMDA receptor channels that are relatively insensitive to Mg2+ and that the reduction in the sensitivity of NMDA receptors to Mg2+ correlates with the expression of the NR2C. We present the possibility that functional changes in the NMDA receptor channels play a crucial role in the occurrence of developmentally specific neuronal injury.