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Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0040822 (
tremor
)
18,428
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Segawa disease (hereditary progressive dystonia with marked diurnal fluctuation) is an autosomal dominant, childhood onset, postural dystonia and the first hereditary basal ganglia disorder whose causative enzyme and gene defect were clarified. The initial symptom is unilateral pes equinovarus with marked diurnal fluctuation. Progression becomes slower after mid-teens and stationary after thirties. Postural tremor may occur after 10 years of age, especially after thirties. Parkinsonian resting
tremor
action and torsion dystonia. and disturbed locomotion do not occur. L-Dopa shows marked and sustained effect without side effects. F-Dopa PET and [11C] raclopride PET of over 20-year-old cases are normal. Deficiency of GTP cyclohydrolase I (GCH-I) was suggested from low CSF biopterin and neopterin. Mutation of
GCH
-I gene and decreased
GCH
-I were clarified as etiology. Twenty-five mutations discordant among families have been found. Autopsy of a gene proven case revealed decreased striatal tyrosine hydroxylase (TH) and dopamine (DA) in ventral striatum where direct pathway is predominant. Decreased
GCH
-I causes decreased tetrahydrobiopterin (BH4), TH and DA in nigrostriatal (NS) terminal. The lowest affinity of BH4 to TH causes selective involvement of DA. Postural dystonia is caused by decreased TH and DA affecting D1-direct pathway. Thalamic ventrolateral and pedunculo-pontine nuclei are spared. Diurnal fluctuation of symptoms is due to diurnal fluctuation of TH and DA at NS-DA terminal. Decreased DA to below 20% of normal, shown by polysomnographical studies, and its physiological age related decremental changes in NS-DA terminal underlies characteristic clinical course. High D2 receptor before early thirties masks D1 related hypertonus and manifest progression before 20 years of age. Other pteridine abnormalities also cause dopa responsive postural dystonia with diurnal fluctuation. A case of juvenile parkinsonism without dystonia showed decreased TH in dorsolateral putamen where indirect pathway is predominant. These suggest that decreased TH due to decreased BH4 involves D1-direct pathway causing dystonia, and decreased TH itself involves D2-indirect pathway causing parkinsonism.
...
PMID:[Segawa disease]. 957 70
Hereditary progressive dystonia with marked diurnal fluctuation or the strictly defined dopa-responsive dystonia (HPD/DRD) is an autosomally dominantly inherited dystonia caused by abnormalities of the gene of the GTP cyclohydrolase I (
GCH
1) located on the 14q22. 1-q22.2. The heterozygotic gene abnormality induces partial decrement of tetrahydrobiopterin (BH4) and affects synthesis of tyrosine hydroxylase (TH) rather selectively. The reduction of TH exists at the terminals of the nigrostriatal (NS) dopamine (DA) neuron, predominantly in the ventral area of the striatum and disfacilitates the D1 receptor-striatal direct pathway. This consequently disinhibit the inhibitory efferent pathways and develops postural dystonia via the particular descending pathways to the reticulospinal tract and postural
tremor
via the ascending pathways to the ventralis lateralis (VL) nucleus of the thalamus. This also inhibits the efferents to the superior colliculus, and affects voluntary saccade but spares that to the pedunculo-pontine nucleus (PPN) preserving locomotive movement clinically. The DA-D2 receptors, the striatal indirect pathways or the efferent connecting to these pathways are not involved in the pathophysiology of HPD/DRD. So parkinsonian plastic rigidity, parkinsonian resting
tremor
, cogwheel rigidity or levodopa induced dyskinesia are not observed. In some patients, particularly in compound hetereozygotes, there are symptoms suggesting the involvement of serotonergic neurons or those thought to be caused by exaggeration of DA-D2 receptors. Neuropathologically there is no degenerative changes. Clinical laboratory examinations suggest that levels of TH and DA activities are around 20% of the normal values throughout the course of illness. Therefore, the age-dependent clinical course, marked progression in the first one and one half decades, its subsiding in the third decade and almost stationary course from the fourth decade are just the reflection of age-related decremental variation of the TH activities at the terminal of the normal NS-DA neuron. The diurnal fluctuation is also the reflection of circadian oscillation of the TH activities at the terminal. Functional maturation of the striatal indirect pathways in the first one and one half decades and developmental decremental variation of the DA-D2 receptor in the first three decades also reflect in the age-dependent variation of symptoms by modulating the background tone of muscle. The later functional development of the ascending efferents of the basal ganglia to the thalamus, may cause the postural
tremor
which appears in the second decade and becomes predominant in the fourth decade. Early decrease of TH due to deficiency of BH4 in HPD/DRD also affects the DA-D4 receptor of the tuberoinfundibular DA neuron and cause stagnation of increase of body length in childhood. With normal preservation of the fundamental function of the NS-DA neuron, levodopa, by replacing the DA content at the terminal, alleviates the motor symptoms completely and the effects sustain without any side effects. Levodopa also improves the short body length, if it is administrated before puberty. Up to now 60 mutations have been detected in the
GCH
1 gene. The locus of mutation differs among families except for two pare of families with different ethnic background which showed identical mutations. Experimentally, one abnormal heterozygotic gene decreased the production of the enzyme to less than 50%, e.g. some below 20% and others around 30-40%, which clinically as symptomatic patients and asymptomatic carriers, respectively. Other experiments show dominant negative effects which differ among families or the loci of mutation. These might be the background for developing the intra-familial variation, that is, in some there is anticipation, and in the other the symptoms and clinical course are identical or vary in a family without any relation to the generation. (ABSTRACT TRUNCATED)
...
PMID:Hereditary progressive dystonia with marked diurnal fluctuation. 1098 64
Primary dystonia is a movement disorder characterized by involuntary and sustained muscle contractions causing twisting or abnormal postures and mutations in several genes have been identified. Our goal was to investigate, whether the clinical presentation would differ between patients with a positive family history, and patients without. Furthermore, we have performed mutation analysis in the subgroup of patients with a positive family history. A total of 175 patients with primary dystonia were evaluated. Data on gender, presence and frequency of pain and
tremor
, age of onset, and the distribution of affected body parts were compared between patients with positive and negative family history. All exons of the torsion dystonia 1,
GTP cyclohydrolase 1
and epsilon-sarcoglycan genes were examined in 40 patients by SSCP analysis of PCR products followed by sequencing of variant conformers. Dystonia patients with a positive family history of dystonia had an earlier age of onset and those with a positive family history of
tremor
more often associated
tremor
than those with a negative family history. Four new polymorphisms in the epsilon-sarcoglycan gene were found and others confirmed, but no known or new mutations could be detected. Our study supports the notion that primary dystonia is a genetically heterogeneous disease.
...
PMID:Clinical and molecular genetic evaluation of patients with primary dystonia. 1567 1
Parkinson's disease is the second most common neurodegenerative disease. It is charaterized by a progressive loss of dopamine (DA) producing neurons in the midbrain, which result in a decline of DA innervations present in the forebrain, in particular, the striatum. The disease leads to appearance of motor symptoms involving akinesia/bradykinesia, gait disturbances, postural imbalance and
tremor
. Oral administration of L-3,4-dihydroxyphenylalanine (L-DOPA), the precursor of DA, provides very good symptomatic relief, but this intermittent and pharmacological treatment is compromised by severe side effects, such as the appearance of abnormal involuntary movements. Viral vector-mediated direct gene transfer techniques are currently being explored in order to provide continuous and stable synthesis of DA in the brain. This review focuses on the basic idea of DA replacement, first describing the enzymatic machinery important for DA synthesis and secondly the various alternative strategies pursued in several laboratories. The DOPA delivery strategy, based on the co-transduction of tyrosine hydroxylase (TH), and
GTP cyclohydrolase 1
(
GCH1
) genes, has been shown to be a powerful approach providing a robust behavioral recovery and reversal of side effects of the pulsatile administration of L-DOPA medication. The DA delivery strategy, on the other hand, aims at triple transduction of the TH,
GCH1
and aromatic amino-acid decarboxylase (AADC) enzymes, and thereby provide a higher rate of conversion of DOPA to DA. Finally, transduction of AADC alone has been proposed as a means to improve the conversion of peripherally administered L-DOPA. As the basic scientific rationale behind these strategies are well understood and the results of the animal experiments are very encouraging, we are now entering into an exciting phase with increasing momentum toward the first clinical applications using this experimental therapy in patients suffering from PD.
...
PMID:Restoration of the striatal dopamine synthesis for Parkinson's disease: viral vector-mediated enzyme replacement strategy. 1743 Jan 30
Dopa-responsive dystonia (DRD) is a familial childhood-onset disease characterized by fluctuating dystonia, associated with
tremor
and parkinsonism in some patients. In most families the disease displays autosomal dominant inheritance due to mutations in the
GTP cyclohydrolase 1
gene (GCH1). Penetrance and symptom severity display strong female predominance for which gender-specific GCH1 expression has been hypothesized. In this study, GCH1 mRNA expression was measured in cerebellar tissue from 66 healthy human subjects (30 women), and in cerebellar and nigral tissue from eight individuals. No significant difference was found between men and women with small effect sizes observed. Although the correlation between cerebellar and nigral GCH1 expression remains to be further examined, this exploratory study does not support gender-specific GCH1 expression being the basis for the skewed gender distribution observed in DRD patients.
...
PMID:GCH1 expression in human cerebellum from healthy individuals is not gender dependent. 1957 77
Dopa responsive dystonia results from abnormalities in the dopamine synthesis pathway which produces an array of phenotypic presentations with equally numerous genotypes. First documented in children in 1971, the 'classic' phenotype is childhood onset, predominantly lower limb dystonia which gradually progresses to generalised dystonia. Other hallmarks of 'classical' dopa responsive dystonia include marked diurnal variation in symptom severity (worse in the evening), subsequent development of parkinsonism and an excellent, sustained response to levodopa. More recently, adult onset variants have been reported. Here we discuss two siblings with dopa responsive dystonia caused by a mutation in the
GTP cyclohydrolase 1
gene. Both presented in adulthood with
tremor
rather than the 'classic' phenotype. A video is presented (available online) followed by a brief discussion of the literature.
...
PMID:Two in the hand, an essential lesson in tremor management. 2049 89
Hereditary progressive dystonia with marked diurnal fluctuation (HPD) is a dopa-responsive dystonia, now called autosomal dominant
GTP cyclohydrolase 1
deficiency or Segawa disease, caused by mutation of the GCH-1 gene located on 14q22.1 to q22.2. Because of heterozygous mutation, partial deficiency of tetrahydrobiopterin affects tyrosine hydroxylase (TH) rather selectively and causes decrease of TH in the terminals of the nigrostriatal dopamine (NS DA) neurons, projecting to the D1 receptors on the striosome, the striatal direct pathways and the subthalamic nucleus (STN) and the D4 receptors of the tuberoinfundibular tract. The activities of TH in the terminal are high in early childhood decrease exponentially to the stational level around early twenties, and show circadian oscillatron. TH in HPD follows these variations with around 20% of normal levels and with development of the downstream structures show appears characteristic clinical symptoms age dependently. In late fetus period to early infancy, through the striosome-substantia nigra pars compacta pathway failure in morphogenesis of the DA neurons in substantia nigra, in childhood around 6 years postural dystonia through the D1 direct pathways and the descending output of the basal ganglia. Diurnal fluctuation is apparent in childhood but decrease its grade with age. TH deficiency at the terminal on the STN causes action dystonia from around 8 years and postural
tremor
from around 10 years, focal dystonia in adulthood. Adult onset cases in the family with action dystonia start with writer's cramp, torticollis or generalized rigid hypertonus with
tremor
but do not show postural dystonia. TH deficiency on the D4 receptors causes stagnation of the body length in childhood. With or without action dystonia depends on the locus of mutation. Postural dystonia is inhibitory disorder, while action dystonia is excitatory disorder. The TH deficiency at the terminal does not cause morphological changes or degenerative process. Thus, levodopa shows favorable effects without any relation to the duration of illness.
...
PMID:Hereditary progressive dystonia with marked diurnal fluctuation. 2109 87
Primary monogenic forms of dystonia manifest solely or mainly with dystonia; they have been linked to a number of genes and loci and assigned "DYT" numbers. The pure dystonia syndrome early-onset primary dystonia (DYT1) manifests with dominantly-inherited generalized dystonia, often with focal onset in a limb. DYT1 is caused by a GAG deletion in the TOR1A gene. Mutations in the THAP1 gene cause DYT6, a form of pure dystonia that primarily involves cranio-cervical and upper limb muscles. Patients with the dystonia plus syndrome
DYT5
display levodopa-responsive dystonia sometimes associated with
tremor
or parkinsonism (DYT5a, mutations in GCH1); a more severe phenotype with psychomotor involvement can be seen in recessive forms (DYT5b with TH mutations, SPR-deficiency syndrome). Other forms of dystonia plus syndromes include myoclonic dystonia (DYT11) and rapid-onset dystonia-parkinsonism (DYT12). Finally, paroxysmal exertion-induced dystonia (DYT18, GLUT1 deficiency) is caused by mutations in the SLC2A1 gene (DYT9 and DYT18). It is part of the paroxysmal dystonia group and manifests with paroxystic movements sometimes associated with seizures and psychomotor developmental delay.
...
PMID:Overview of primary monogenic dystonia. 2216 20
