Neurotensin modulates the binding characteristics of dopamine D2 receptors in rat striatal membranes also following treatment with toluene

Abstract

The effects of neurotensin in vitro (1–100 nm) on the binding characteristics of [³H]N-propylnorapomorphine ([³H]NPA) were analysed in striatal membrane preparations of the adult male rat. Subsequently, it was investigated whether the modulatory effects of To nmt neurotensin on [³H]NPA binding were altered by treatment with toluene in vivo (80 p.p.m., 3 days, 6 h day^-1) and in vitro (19 μmol ml_-1). Displacement of [³H]NPA binding by raclopride (IC⁵⁰ about 15 nm) and SCH 23390 (without effect) indicated that [³H]NPA labelled only D₂ dopamine receptors in the present study. Neurotensin was found to reduce the affinity of D₂ receptors with a maximum response at to ma. At this concentration the KD value was increased by 30–40% without any consistent changes in the number of binding sites. The modulatory effect of neurotensin remained intact also following toluene treatment in vivo and in vitro, although at a higher K_D range, since toluene alone increased the KD value of [³H]NPA binding by 40–50%. Thus, the mechanisms mediating the effects of neurotensin and toluene on the D₂ receptor are likely to be different. When neurotensin and toluene treatments were combined, the K_D values of [³H]NPA binding were about twice as high as in non-treated controls. These additive effects may lead to a severely decreased efficiency of dopamine D₂ mediated neurotransmission in vivo.