Effects of chronic lithium treatments on central dopaminergic receptor systems: G proteins as possible targets

Abstract

Numerous biochemical and electrophysiological studies have proposed a role for dopamine (DA) in the therapeutic efficacy of lithium (Li+) salts. The effects of ex vivo chronic Li+ treatments on neostriatal DA receptors, as well as on the G protein adenylyl cyclase complex and on tissue cAMP levels were investigated in adult rats. The animals were administered LiCl in their drinking water (1 g/l) for varying periods of time, i.e. 1, 15 and 28 days. After sacrifice by decapitation, their brains were removed and the neostriatum dissected out to assay DA receptors and adenylyl cyclase activity. The antagonists [3H]SCH23390 and [3H]raclopride were employed to label D1 and D2 receptors, respectively. Chronic Li+ treatments did not modify the saturation binding of either ligand. However, competition studies of the same antagonists by DA revealed biphasic curves, and the inhibition constant of the high-affinity site was significatively increased after chronic Li+. The data suggest an alteration in the coupling efficacy between G proteins and DA receptors. Moreover, chronic (28 day) Li+ treatment, but not a 1 day Li+ administration, lead to a reduction of the GTP-induced and DA-sensitive adenylyl cyclase activity, without changes in the basal activity or in forskolin-induced cAMP production. The results demonstrate that chronic Li+ treatments diminish neostriatal dopaminergic activity, probably through a direct action on the G protein itself. The underlying mechanisms do not appear to involve modifications in either the D1 or the D2 receptor primary ligand recognition sites, but may represent alterations in both the coupling process and the capacity of the G proteins, once activated, to stimulate adenylyl cyclase.