A. Honkanen et al., ALTERATIONS IN DOPAMINE METABOLISM BY INTRAPERITONEAL ETHANOL IN RATSSELECTED FOR HIGH AND LOW ETHANOL PREFERENCE - A 3-METHOXYTYRAMINE STUDY, Alcohol, 11(4), 1994, pp. 323-328
Effects of an ethanol dose (1 g/kg, IP) on the metabolism of dopamine
(DA) in the nucleus accumbens, striatum and hypothalamus of ethanol-na
ive alcohol-preferring (AA) and alcohol-avoiding (ANA) rats were studi
ed. Rats were sacrificed by focused-beam microwave irradiation of the
brain 20 minutes after ethanol administration, and the concentrations
of 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA),
assumed to reflect DA metabolism, and of 3-methoxytyramine (3-MT), as
sumed to reflect DA release, were measured using gas chromatography-ma
ss spectrometry. Basal striatal DOPAC and HVA concentrations were high
er in the AA rats in comparison with ANA rats. Ethanol increased HVA,
but not DOPAC, concentration in the nucleus accumbens and striatum, bu
t not in the hypothalamus. There was a significant rat line X ethanol
treatment interaction with respect to HVA concentration in the nucleus
accumbens. The increase in HVA was higher in the AA than ANA rats. Ba
sal 3-MT concentration was not changed by ethanol, except in the nucle
us accumbens, where a significant rat line X ethanol treatment interac
tion was found. A decrease in 3-MT concentration was only detected in
the ANA rats. After inhibition of monoamine oxidase with pargyline hyd
rochloride (75 mg/kg, IP, 10 min before sacrifice), 3-MT accumulation
was decreased by ethanol, especially in the nucleus accumbens of both
AA and ANA rat lines as well as in that of nonselected Wistar rats. Th
e results suggest that 1) DA metabolism to DOPAC and KVA is dissociabl
e from DA release as reflected by 3-MT production, 2) ethanol, if anyt
hing, reduces DA release, and that 3) the AA and ANA rats differ in th
eir basal DA metabolism and in the ethanol effects thereupon, but not
in ethanol-induced changes in DA release.