Time Course and Regional Basis of Pb‐Induced Changes in MK‐801 Binding: Reversal by Chronic Treatment with the Dopamine Agonist Apomorphine but Not the D1 Agonist SKF‐82958

Abstract

In the present study we attempted to further define the time course and regional specificity of lead (Pb)-induced changes in the NMDA receptor complex and the influence of dopaminergic system modulations on these changes. Autoradiographic measurements of alterations in MK-801 binding, as evaluated under four different activation conditions (none, spermidine, glycine, or maximal activation), were performed in medial frontal cortex, dorsal striatum, and nucleus accumbens of male rats after 2 weeks or 8 months of chronic postweaning (from 21 days of age on) exposure to 0, 50, or 150 ppm Pb acetate in drinking water. The 8-month groups also received chronic intermittent intraperitoneal injections of saline, or of the dopamine (DA) agonist apomorphine or the D₁ agonist SKF-82958 2–3 times per week beginning at 60 days of age. Two weeks of 50 ppm Pb exposure resulted in small but significant increases in MK-801 binding under conditions of glycine or spermidine activation, whereas decreases were observed in response to 150 ppm under conditions of no or maximal activation in all regions. After 8 months of Pb, concentration-dependent decreases in MK-801 binding were observed across regions under all activation conditions. These effects were noted at blood Pb concentrations averaging as low as 16 µg/dl. Pb-induced decreases in MK-801 binding were either partially or fully reversed by chronic intermittent treatment with the DA agonist apomorphine but not by the D₁ agonist SKF-82958, implicating D₂-based mechanisms in this reversal. Combined findings from this and previous studies based on this exposure protocol indicate a Pb-induced pattern of widespread hypoglutamatergic function accompanied by increased DA function in mesolimbic systems, a pattern of changes reminiscent of those proposed to underlie schizophrenia. Such findings suggest that Pb exposure, even at current environmental levels, could be a risk factor for behavioral and/or neurological disturbances arising from imbalances of glutamate/dopamine function in mesocorticolimbic systems.