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Query: UMLS:C0036341 (
schizophrenia
)
60,220
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The affinity and intrinsic activity of dopamine receptor agonists were determined at the human dopamine hD21 and hD4.4 receptors. (-)-3-Hydroxy-N-n-propylpiperidine ((-)3-PPP) had an intrinsic activity of 46% and 83%, whereas (+)-N-propylnorapomorphine ((+)-
NPA
) had intrinsic activities of 61% and 58% at the dopamine hD21 and hD4.4 receptors, respectively. Affinities also varied. A single, or multiple, dopamine D2-type receptor(s) may be involved in
schizophrenia
and agonists are being tested as therapy. Understanding their properties at the individual dopamine D2-family receptors is important.
...
PMID:Affinities and intrinsic activities of dopamine receptor agonists for the hD21 and hD4.4 receptors. 877 70
Alteration in dopamine (DA) and/or cholecystokinin (CCK) transmission in the CNS may be of relevance for
schizophrenia
. Previous findings in striatal membranes give indications of a modulation of DA D2 receptor affinity by CCKB receptor activation. In the present study receptor binding studies were performed in a mouse fibroblast cell line (L-hD2l/CCK), expressing both human D2 receptors (long form, D2L) and human CCKB receptors, and binding sites for [3H]CCK-8S (sulfated CCK octapeptide), the D2 agonist [3H]
NPA
and the D2 antagonist [3H]raclopride were found and characterized in saturation and competition experiments. 1 nM of CCK-8 caused a significant 38% increase in the KD value of the D2 agonist [3H]
NPA
binding sites in the L-hD2l/CCK cell membranes. This change was blocked by the CCKB receptor antagonist PD 134308 (50 nM). Furthermore, 1 nM of CCK-8 increased the KD value of the D2 antagonist [3H]raclopride binding sites by 34% (P < 0.05) in the L-hD2l/CCK cell membranes. Control cells (L-hD2l cells) expressing D2L receptors showed no specific [3H]CCK-8S binding sites and no modulation by CCK-8 of the D2L receptors. These findings indicate a modulation of the D2L receptor affinity by activation of the CCKB receptor also when they are coexpressed in a fibroblast cell line. One possible explanation of these data may include a receptor-receptor interaction between the CCKB and D2L receptors.
...
PMID:Regulation of dopamine D2 receptor affinity by cholecystokinin octapeptide in fibroblast cells cotransfected with human CCKB and D2L receptor cDNAs. 896 50
Although dopamine supersensitivity is a fundamental aspect of diseases such as
schizophrenia
and Parkinson's disease, the molecular basis of dopamine supersensitivity is not known. Because behavioral dopamine supersensitivity is associated with a marked elevation of striatal dopamine D2(High) receptors in vitro, it is important to develop methods to measure D2(High) receptors in vivo. The present ex vivo study found that the dopamine agonist
NPA
([-]-N-propyl-norapomorphine) inhibited the binding of the agonist [(3)H](+)PHNO to rat striatal D2 receptors significantly more than the D2 antagonist [(3)H]raclopride, when
NPA
was coinjected i.v. with each radioligand. These results suggest that the greater sensitivity of [(3)H](+)PHNO to inhibition by the coinjected
NPA
reflects in vivo competition at D2(High) receptors. Using rats that had been sensitized to amphetamine, this ex vivo method found that the specific binding of [(3)H](+)PHNO that was displaced by 10 microg/kg of
NPA
was 2.4-fold higher than that for control rats. These data agree with in vitro data showing a marked increase in D2(High) sites after amphetamine sensitization. Therefore, it is recommended that this method of co-injecting the D2 radioligand and the dopamine agonist displacer be used in human positron tomography to detect D2(High) receptors in health and disease.
...
PMID:Dopamine D2High receptors measured ex vivo are elevated in amphetamine-sensitized animals. 1908 90
The features of
schizophrenia
are consistent with increased sensitivity to endogenous dopamine. Animal models of
schizophrenia
reveal an increase in the in vitro proportion of striatal dopamine D2 receptors in the high-affinity state for dopamine (i.e., D2High), as measured by dopamine/[(3) H]domperidone competition. However, in vivo studies did not reveal the dopamine agonist [(11) C](+)PHNO to be elevated in amphetamine-sensitized rats. Also, no increase was found in the in vivo binding of [(11) C](+)PHNO in
schizophrenia
patients. This work was done to resolve the contradictory findings. It was found that the in vitro density of rat striatal D2 receptors was 18 pmol/g for [(3) H]raclopride and 12 pmol/g for [(3) H](+)PHNO; most of the latter sites disappeared in the presence of guanine nucleotide. Using 2 nM [(3) H](+)PHNO (K(d) of 0.72 nM at D2) to label D2 receptors in the striata and the human D2 clone, 10 nM to 100 nM dopamine inhibited 10-20% of the [(3) H](+)PHNO bound, representing high-affinity binding of [(3) H](+)PHNO, with the remainder inhibited above 100 nM dopamine, representing low-affinity binding of [(3) H](+)PHNO. It was found that (+)PHNO and (-)
NPA
dissociated from the D2 clone with half-times of 96 and 600 s, respectively. These rates are slower than the reported sub-second dissociation of the G protein from a receptor, suggesting that these two ligands still occupy the D2Low receptor after the G protein has separated. Thus, the radio-agonist label for (+)PHNO is not selective for dopamine D2High receptors, but also binds to the D2Low state of the dopamine receptor.
...
PMID:Dopamine agonist radioligand binds to both D2High and D2Low receptors, explaining why alterations in D2High are not detected in human brain scans. 2195 82
