Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013421 (dystonia)
 8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been reported that intraventricular injection of chlorpromazine methiodide (CPZMI), a quaternary ammonium derivative of chlorpromazine, in rats induces abnormal, twisting postures which may serve as an experimental model of the human movement disorder dystonia. We have shown elsewhere that the behavior induced by intraventricular CPMZI is identical to what has been called "barrel rotation," first observed to follow intraventricular injection of somatostatin (SRIF), which consists of twisting about the long axis, with repetitive lateral rolling. The suitability of barrel rotation, induced by CPZMI or SRIF, as an experimental model for dystonia depends on its physiologic basis. Human dystonia is clinically not a convulsive phenomenon. SRIF-induced barrel rotation has been reported to be associated with epileptiform activity recorded by the electroencephalogram (EEG). The purpose of this study was to investigate EEG activity during CPZMI- and SRIF-induced rotation. We found that CPZMI barrel rotation was not associated with epileptiform activity in cortex, amygdala, or hippocampus, and contrary to prior reports, neither was SRIF rotation. Both CPZMI and SRIF injected in high doses could induce epileptiform activity, but this was associated with clonic motor phenomena and not barrel rotation. We conclude that electroencephalographic criteria do not exclude either CPZMI- or SRIF-induced rotation as models for movement disorders, but their validity as such requires further study.
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PMID:Electroencephalographic studies of chlorpromazine methiodide and somatostatin-induced barrel rotation in rats. 613 Sep 62

In the dt(sz) mutant hamster with idiopathic generalized dystonia, functional abnormalities of several neurotransmitters have been suggested to play a role in the development of symptoms. In the present study, we have used histochemistry with (35)S-ATP labeled oligonucleotides to determine whether these abnormalities are associated with modulation in the expression of neurotransmitter genes in motor regions. We examined the expression of genes encoding cholecystokinin (CCK), somatostatin (SRIF), thyrotropin-releasing hormone (TRH), glutamic acid decarboxylase (GAD), tyrosine hydroxylase (TH) and growth-associated protein 43 (GAP43) in the cortex and basal ganglia of dystonic hamsters and of non-dystonic control hamsters of a related inbred line and of a non-related outbred line. The distribution of these mRNAs in normal hamster brain was similar to that in normal rat brain. In all cortical regions studied (frontal, parietal and piriformis), the expression of CCK was similar in dystonic and inbred controls but was significantly greater than in outbred controls. In the anterior thalamus, CCK expression was lower in dystonic hamsters than in both control groups. SRIF expression was significantly decreased in the cortex and striatum of dystonic animals than in inbred and outbred control hamsters. GAD expression was lower in the striatum and substantia nigra, pars reticulata of dystonic than in outbred hamsters, but similar values were found in all groups in the other regions studied. TH was lower in the substantia nigra of dystonic than in inbred controls. No changes were found in GAP43 expression. This study demonstrates that changes in modulation of the expression of some peptides and neurotransmitter enzymes can be found in the dystonic hamster, which is in contrast to other animal models such as the dystonic rat, where no such changes have been found. The present data are consistent with previous findings in dt(sz) hamsters that suggest a dysfunction within the basal ganglia-thalamocortical circuits.
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PMID:Expression of cholecystokinin, somatostatin, thyrotropin-releasing hormone, glutamic acid decarboxylase and tyrosine hydroxylase genes in the central nervous motor systems of the genetically dystonic hamster. 1055 May 8