Effects of the administration of amphetamine, either alone or in combination with reserpine or cocaine, on regional brain beta-phenethylamine and dopamine release
by
Karoum F, Wolf ME, Mosnaim AD
Neuropsychiatry Branch Intramural Research Program,
National Institute of
Mental Health Neuroscience Research Center
at St. Elizabeths Hospital,
Washington, DC, USA.
Am J Ther 1997 Oct 1; 4(9/10):333-342
ABSTRACT
The effect of amphetamine sulfate (AMPH) on beta-phenylethylamine (PEA) and
3-methoxytyramine (3MT) levels in the rat frontal and cingulate cortices, the
nucleus accumbens, and the striatum were evaluated after the administration of
either cocaine or reserpine alone and in combination with AMPH. The purpose of
this study was to evaluate the neuromodulator properties of PEA on dopamine (DA)
release as reflected by 3MT steady-state concentrations. The highest
concentration of PEA was found in the nucleus accumbens, followed by the
cingulate and frontal cortices, and then the striatum. Time-course effects of
the intraperitoneal administration of 5 mg/kg AMPH on PEA and 3MT concentrations
were similar but not identical. AMPH at a dosage of 1 mg/kg significantly
increased PEA concentration only in the striatum. A dosage of 2.5 mg/kg
reserpine, which markedly depressed 3MT levels in all brain regions studied
except the striatum, significantly reduced PEA concentrations only in the
nucleus accumbens. This dosage of reserpine reduced DA concentrations by more
than 80% in all regions examined, but its effects on norepinephrine were less
marked. Pretreatment with cocaine (10 mg/kg) or reserpine (2.5 mg/kg)
potentiated the effects of 1 mg/kg AMPH on PEA and 3MT levels in the frontal
cortex and of 3MT in the striatum. Pretreatment with either 1 mg/kg reserpine
(specifically used to partially mobilize DA storage) or cocaine (10 mg/kg)
produced quantitative changes in the effects of 5 mg/kg AMPH on PEA and 3MT
levels that were region-specific. For example, in contrast to the cortical
regions and the nucleus accumbens, the AMPH-induced increase in 3MT was
potentiated in the striatum. On the other hand, the increase in brain PEA
produced by AMPH (5 mg/kg) was not influenced by either increased cytoplasmic DA
(as deduced from the effects of 1 mg/kg reserpine pretreatment) or DA uptake
inhibition (as deduced from the effect of cocaine pretreatment) in the frontal
cortex or the nucleus accumbens. Furthermore, the increase in PEA produced by
AMPH (5 mg/kg) in the cingulate cortex and the striatum were abolished and
potentiated, respectively, by these drug pretreatments. Our results suggest that
although DA release and PEA formation are stimulated by AMPH, these effects
appear to involve mechanisms that are not directly related and hence suggest a
dissociation between 3MT and PEA formation in the brain. Our work also suggests
that PEA is most likely not to be co-released with DA following the
administration of AMPH. Therefore, it is concluded that whatever physiological
role PEA may play in central synaptic transmission, its effects do not appear to
be dependent on DA release.
PEA
Cocaine
Selegiline
Rasagiline
Dopamine
PEA: review
Amphetamine
Brain imaging
PEA and mood
PEA and exercise
Chocolate hotlinks
Chocolate: food or drug?
PEA and antidepressants
The endogenous amphetamine?
HOME