TY - JOUR
T1 - The one-locus silver-blue fur color mutation (pp) in minks affects the dopamine system of the brain
AU - Popova, N. K.
AU - Nikulina, E. M.
AU - Voitenko, N. N.
AU - Avgustinovich, D. F.
AU - Trapezov, O. V.
PY - 1996
Y1 - 1996
N2 - The peculiarities of dopamine metabolism and dopamine receptors in the brain of homozygous silver-blue (pp) minks were examined in comparison with wild-type (PP) minks. A pp mutation was found to affect the dopamine turnover in corpus striatum, which is one of the major dopaminergic brain structures. In silver-blue minks, increased dopamine catabolic enzyme activity monoamine oxidase type B (MAO B), together with the decreased level of dopamine and the tendency for the level of the metabolite 3,4-dihydrophenilacetic acid to in. crease, were demonstrated in this brain region. No significant alterations in the level of another dopamine metabolite, homovanillic acid, or in Dl and D2 receptor density were shown. In the midbrain and hippocampus, an elevated level of MAO B activity was detected. We found no modifications in receptor properties, nor in dopamine turnover in a mesolimbic dopamine structure, the nucleus accumbens. We propose that the primary effect of pp mutation is an increase in MAO B activity resulting in dopamine turnover alterations and probably in dopamine-dependent behavior (pleiotropic cascade).
AB - The peculiarities of dopamine metabolism and dopamine receptors in the brain of homozygous silver-blue (pp) minks were examined in comparison with wild-type (PP) minks. A pp mutation was found to affect the dopamine turnover in corpus striatum, which is one of the major dopaminergic brain structures. In silver-blue minks, increased dopamine catabolic enzyme activity monoamine oxidase type B (MAO B), together with the decreased level of dopamine and the tendency for the level of the metabolite 3,4-dihydrophenilacetic acid to in. crease, were demonstrated in this brain region. No significant alterations in the level of another dopamine metabolite, homovanillic acid, or in Dl and D2 receptor density were shown. In the midbrain and hippocampus, an elevated level of MAO B activity was detected. We found no modifications in receptor properties, nor in dopamine turnover in a mesolimbic dopamine structure, the nucleus accumbens. We propose that the primary effect of pp mutation is an increase in MAO B activity resulting in dopamine turnover alterations and probably in dopamine-dependent behavior (pleiotropic cascade).
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M3 - Article
C2 - 8723640
AN - SCOPUS:0030101588
SN - 0016-6758
VL - 32
SP - 452
EP - 454
JO - Genetika
JF - Genetika
IS - 3
ER -