NMDA alters rotenone toxicity in rat substantia nigra zona compacta and ventral tegmental area dopamine neurons

Previous patch-clamp studies by our laboratory showed that acute exposure to the pesticide rotenone augments inward currents evoked by N-methyl-d-aspartate (NMDA) in substantia nigra zona compacta (SNC) dopamine neurons in slices of rat brain. The present experiments were done to search for histological evidence of increased neurotoxicity produced by combined rotenone and NMDA treatments. In horizontal slices of rat midbrain, we found that a 30 min superfusion with 100 nM rotenone caused significant injury to tyrosine hydroxylase (TH)-positive proximal dendrites in dorsal and ventral regions of the SNC and ventral tegmental area (VTA). Moreover, treatment with 100 μM NMDA potentiated rotenone toxicity. In contrast, treatment with 30 μM NMDA protected against rotenone-induced injury to dendrites in the ventral SNC and ventral VTA. Interestingly, treatment with 30 μM NMDA-alone produced an apparent increase in proximal dendrite scores in ventral SNC and dorsal VTA. We conclude that NMDA has concentration-dependent actions on rotenone toxicity that differ according to regional subtype of dopamine neuron.

► Slices of rat midbrain were perfused with rotenone and/or NMDA. ► Rotenone caused destruction of dopamine neuron dendrites in SNC and VTA. ► A high concentration of NMDA (100 μM) potentiated rotenone toxicity. ► A lower concentration of NMDA (30 μM) protected against rotenone toxicity. ► NMDA has concentration-dependent effects on rotenone neurotoxicity.