ISSN:
1432-1912
Keywords:
Trans-7-OH-1,2,3,4,4a,5,6,10b-octahydrobenzo(f)quinoline
;
HW-165
;
Enantiomers
;
3-PPP congener
;
Atypical dopamine agonist
;
In vivo pharmacological characterisation
;
Rat
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Summary In the further development of CNS dopamine autoreceptor active compounds related to 3-PPP, the trans-fused 7-hydroxy-1,2,3,4,4a,5,6,10b-octahydrobenzo(f)quinoline HW-165 and its enantiomers were synthesised. This paper describes the basic pharmacological properties of these latter, novel “atypical” dopaminergic agents, based on an extensive series of biochemical and behavioural experiments in rats. By and large, the pharmacological activities of HW-165—essentially, if not exclusively, residing in its (4aS,10bS)-(−)-enantiomer—were similar to those displayed by (S)-(−)-3-PPP, indicating the simultaneous presence of central dopamine (autoreceptor) agonist and weak (postsynaptic) antagonist properties in the molecule. Thus, in non-pretreated animals HW-165 and its active species monotonically suppressed the spontaneous locomotion without causing catalepsy or other appreciable motor disabilities, and at the same time selectively reduced the dopamine synthesis, release/turnover and utilisation. Some differences in these biochemical responses to HW-165 [racemate or (−)-enantiomer] were, however, noted in the limbic vs. striatal brain areas (e.g. decrease of dopamine synthesis particularly in the limbic parts). On the other hand, while failing to reverse reserpine-induced akinesia or to elicit stereotyped behaviour, the agents markedly inhibited the dopamine synthesis in either of the dopamine-dominated cerebral regions in the reserpinised as well as in γ-butyrolactone (GBL)-treated rats. As shown for racemic HW-165 after reserpine pretreatment, the inhibition of dopamine synthesis was completely and sterecselectively blocked by (+)-butaclamol, thereby supporting direct dopamine receptor interaction. Racemic HW-165 readily antagonised the d-amphetamine-induced locomotor hyperactivity. Apomorphine-induced hyperactivity was, however, distinctly more resistant to antagonism by HW-165 [racemate or (−)-enantiomer]. Moreover, the latter agents fully prevented the apomorphine-induced inhibition of striatal dopamine synthesis in otherwise non-pretreated rats, while only partly counteracting this effect of apomorphine in the limbic regions of such animals, and in either brain area of rats treated with γ-butyro-lactone. The findings are interpreted within the context of the mixed dopamine agonist/antagonist properties (referred above) of HW-165 and its active (−)-species in relation to the adaptive state of central dopamine receptors and possible regional variations in feedback strength and organisation. Taken together, for reasons discussed, the observations indicated that racemic and (−)-HW-165 may exert a preferential, net “limbic” anti-dopaminergic impact of action in normal animals. This interesting pharmacological profile might thus suggest the usefulness of these agents both as novel neuropsychopharmacological research tools and in the treatment of dopamine-related CNS disorders.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00512931
