Abstract |
5R-L-Erythro-5,6,7,8-tetrahydrobiopterin (BH(4)) is an essential cofactor for tyrosine hydroxylase (TH). Recently, a type of dopa-responsive dystonia (DRD) (DYT5, Segawa's disease) was revealed to be caused by dominant mutations of the gene encoding GTP cyclohydrolase I (GCHI), which is the rate-limiting enzyme of BH(4) biosynthesis. In order to probe the role of BH(4) in vivo, we established BH(4)-depleted mice by disrupting the 6-pyruvoyltetrahydropterin synthase (PTS) gene (Pts(-/-)) and rescued them by introducing human PTS cDNA under the control of the human dopamine β- hydroxylase (DBH) promoter (Pts(-/-)-DPS). The Pts(-/-)-DPS mice developed hyperphenylalaninemia. Interestingly, tyrosine hydroxylase protein was dramatically reduced in the dopaminergic nerve terminals of these mice, and they developed abnormal posture and motor disturbance. We propose that the biochemical and pathologic changes of Pts(-/-)-DPS mice are caused by mechanisms common to human DRD, and understanding these mechanisms could give us insight into other movement disorders.
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Authors | Chiho Sumi-Ichinose, Hiroshi Ichinose, Kazuhisa Ikemoto, Takahide Nomura, Kazunao Kondo |
Journal | Journal of pharmacological sciences
(J Pharmacol Sci)
Vol. 114
Issue 1
Pg. 17-24
( 2010)
ISSN: 1347-8648 [Electronic] Japan |
PMID | 20716859
(Publication Type: Journal Article, Review)
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Chemical References |
- Pharmaceutical Preparations
- Tyrosine 3-Monooxygenase
- Dopamine
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Topics |
- Animals
- Dopamine
(physiology)
- Drug Discovery
(methods)
- Humans
- Mental Disorders
(drug therapy, enzymology, pathology)
- Nerve Endings
(drug effects, enzymology)
- Pharmaceutical Preparations
(administration & dosage, chemistry)
- Signal Transduction
(drug effects, physiology)
- Synaptic Transmission
(drug effects, physiology)
- Treatment Outcome
- Tyrosine 3-Monooxygenase
(physiology)
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