Baclofen and γ-hydroxybutyrate: similar effects on cerebral dopamine neurones

Abstract

Baclofen (20 mg/kg) caused an increase in the content of homovanillic acid (HVA) and dopamine (DA) in rat brain 2–3 h after drug injection without appreciable changes in the level of other monoamines and their main metabolites. Six and eight hours after baclofen, the content of HVA but not that of DA was reduced. Moreover, baclofen initially (20 min after injection) reduced, but later (105 min post drug) enhanced the accumulation of HVA induced by probenecid. The shortlasting (20 min) initial reduction of HVA elevation in probenecid-pretreated animals as well as the longlasting (6–8 h) decrease of HVA levels in rats injected with baclofen alone are interpreted to be due to a decreased release and metabolism of DA, probably as a consequence of the blockade of impulse flow in mesolimbic and nigro-striatal DA neurones. The increase in HVA and DA seen during the first few hours is thought to result from enhanced DA synthesis similar to that known for γ-hydroxybutyrate (GHB). This initial rise in HVA due to synthesis stimulation probably masked a reduction of HVA to be expected immediately after baclofen injection. The similarity between baclofen and GHB is stressed by the finding that baclofen counteracted the increase of HVA occuring after chlorpromazine and D-amphetamine but not that induced by the benzoquinolizine derivative, Ro 4-1284.