Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Two brothers with dystonia and slight MRI changes in the basal ganglia had normal urinary glutaric acid excretion, but slightly increased 3-hydroxyglutarate and conjugated glutarate excretions. Both siblings have high residual glutaryl-CoA dehydrogenase activity, and are compound heterozygotes for two mutations - R227P and V400M reported to be disease-causing in patients with glutaric aciduria type I.
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PMID:Glutaric aciduria type I with high residual glutaryl-CoA dehydrogenase activity. 988 81

Glutaryl-CoA dehydrogenase (GCDH) deficiency causes glutaric aciduria type I (GA I), an inborn error of metabolism that is characterized clinically by dystonia and dyskinesia, biochemically by excretion of glutaric and 3-hydroxyglutaric acids in urine, and pathologically by neural degeneration of the caudate and putamen. To date, over 70 mutations in GCDH gene have been identified, single prevalent mutations have been found in communities in which GA I is particularly common, but generally GA I is heterogeneous. The most frequent mutation in Caucasians, R402W, has been identified in 12-16% of alleles. Here we report the frequency of mutation R402W in GA I Spanish patients, the characterization of three novel GCDH polymorphisms (IVS2+48T>C, IVS2-82T>G and 3'UTR 1518A>G) which, in combination with the two polymorphisms previously described (IVS2+64G>C, 1209G>T) gave rise to the first definition of GCDH haplotypes and their frequencies in control population. Linkage disequilibrium has been found between mutation R402W and a specific haplotype, suggesting a single origin for this mutation. Hum Mutat 15:207, 2000.
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PMID:Evidence of a single origin for the most frequent mutation (R402W) causing glutaryl-CoA dehydrogenase deficiency: identification of 3 novel polymorphisms and haplotype definition. 1064 3

Glutaric acidemia type I (GAI) is an autosomal recessive organic acidemia caused by a mutation in the gene encoding glutaryl-CoA dehydrogenase (GCD). Clinically, GAI is characterized by progressive dystonia, resulting from degeneration of neurons in the caudate and putamen nuclei of the striatum. In an attempt to understand the basis for the specific neuropathology in GAI, we have analyzed the expression of the murine GCD gene using both in vitro and in vivo approaches. Transfection studies mapped the mouse GCD promoter to a 500-bp region of DNA 5' of the translation start site. The promoter lacks a TATA consensus sequence, but includes possible binding sites for several transcription factors with roles in the regulation of nuclear genes encoding mitochondrial proteins. Western blot and RT/PCR analyses of mouse tissues demonstrated that GCD is ubiquitously expressed, with the highest levels of expression in liver and kidney, consistent with its role in amino acid oxidation. Expression in multiple regions of the brain was also detected by Western blotting. Based on these results we conclude that the specific neuropathology associated with GCD deficiency in GAI cannot be accounted for by its expression pattern.
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PMID:Analysis of the expression of murine glutaryl-CoA dehydrogenase: in vitro and in vivo studies. 1072 Apr 38

Glutaryl-CoA dehydrogenase (GCDH) deficiency causes glutaric aciduria type I (GA I), an inborn error of metabolism that is characterized clinically by dystonia and dyskinesia and pathologically by neural degeneration of the caudate and putamen. Studies of metabolite excretion allowed us to categorize 43 GA I Spanish patients into two groups: group 1 (26 patients), those presenting with high excretion of both glutarate and 3-hydroxyglutarate, and group 2 (17 patients), those who might not be detected by routine urine organic acid analysis because glutarate might be normal and 3-hydroxyglutarate only slightly higher than controls. Single-strand conformation polymorphism (SSCP) screening and sequence analysis of the 11 exons and the corresponding intron boundaries of the GCDH gene allowed us to identify 13 novel and 10 previously described mutations. The most frequent mutations in group 1 were A293T and R402W with an allele frequency of 30% and 28%, respectively. These two mutations were also found in group 2, but always in heterozygosity, in particular in combination with mutations V400M or R227P. Interestingly, mutations V400M and R227P were only found in group 2, and at least one of these mutations was found in 11 of 15 unrelated alleles, accounting together for 53% of the mutant alleles in group 2. Therefore, it seems clear that two genetically and biochemically distinct groups of patients exist. The severity of the clinical phenotype seems to be closely linked to the development of encephalopathic crises rather than to residual enzyme activity or genotype. Comparison of GCDH protein with other acyl-CoA dehydrogenases (whose x-ray crystal structure has been determined) reveals that most of the mutations identified in GCDH protein seem to affect folding and tetramerization, as has been described for a number of mutations affecting mitochondrial beta-oxidation acyl-CoA dehydrogenases.
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PMID:Glutaryl-CoA dehydrogenase deficiency in Spain: evidence of two groups of patients, genetically, and biochemically distinct. 1096 Apr 96

Glutaric acidemia type I is caused by mutations of the glutaryl-CoA dehydrogenase (GCDH) gene resulting in loss of GCDH enzyme activity. Patients present with progressive dystonia and lesions in basal ganglia. Dietary treatment, when instituted from the early neonatal period, markedly reduces dystonia and morbidity. Early diagnosis and prenatal diagnosis will be facilitated by knowledge of locally prevalent GCDH mutations. Several common GCDH mutations have been found in different ethnic groups. GCDH mutations were studied in 5 Chinese glutaric acidemia type I families. We detected two novel recurrent mutations (A219T and IVS10-2A>C) which were found in two unrelated families. An asymptomatic carrier of IVS10-2A>C was also found on screening of 120 individuals. Other mutations were identified, including two other novel (R386G & IVS3+1G>A) and two known mutations (G178R & R355H). Fibroblasts from patients carrying the novel mutations were confirmed to be deficient for GCDH activity. This is the first report of GCDH mutations describing recurrent mutations in Chinese patients. The carrier rate of IVS10-2A>C may be particularly high in Chinese.
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PMID:Recurrent and novel mutations of GCDH gene in Chinese glutaric acidemia type I families. 1105 7

We report a child initially diagnosed with promethazine-induced dystonia despite a lack of response to diphenhydramine therapy. On further evaluation, the child was diagnosed with glutaric acidemia, type I (GA-I), an autosomal recessive inborn error of metabolism caused by the deficiency of glutaryl-CoA dehydrogenase. The characteristic clinical feature of GA-I is an acute encephalopathic and neurologic crisis typically occurring during a catabolic state. Despite slow improvement, many patients do not fully recover from a neurologic crisis, and residual neurologic morbidity can be significant. Although newborn screening using tandem mass spectrometry is expected to enable presymptomatic diagnosis of GA-I, this patient was not detected by newborn screening with tandem mass spectrometry. Therefore, a high suspicion of GA-I must be maintained in the evaluation of childhood dystonia, even when newborn screening results are reportedly normal.
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PMID:Glutaric acidemia, type I, missed by newborn screening in an infant with dystonia following promethazine administration. 1133 7

Glutaric aciduria typo I (GA I) is an uncommon metabolic disease with autosomal recessive inheritance. It usually presents in the first years of life and frequently causes movement disorders. Only a few cases have been diagnosed in adulthood. Two siblings who were diagnosed of GA I after a course of more than 20 years are reported here. The elder brother, after 9 months of normal psychomotor development, suffered from an acute encephalopathy with generalized hypotonia and, later on, dyskinetic movements. Throughout the following years severe generalized dystonia developed. The younger brother presented at 16 months with acute encephalopathy, hypotonia and generalized choreoathetoid movements. Cranial computed tomography showed in both patients an slight enlargement of Silvian cisures and diffuse white matter hypodensities. Magnetic resonance imaging performed in the second case disclosed in addition bilateral hyperintensities in putamen and caudate nucleous. At 29 and 24 years of age, respectively, an increased urinary excretion of glutaric and 3-hydroxiglutaric acids was detected in both patients. Glutaryl-CoA deshidrogenase activity in fibroblasts was absent in both. The patients were treated with carnitine and riboflavine, with no response. The present report shows that diagnosis of GA I should be considered in adults presenting a range of movement disorders from childhood.
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PMID:[Glutaric aciduria type I: diagnosis in adulthood and phenotypic variability]. 1173 16

Glutaric acidemia type I (GA-I) is an autosomal recessive disorder of amino acid metabolism resulting from a deficiency of glutaryl-CoA dehydrogenase (GCDH). Patients accumulate glutaric acid (GA) and 3-OH glutaric acid (3-OHGA) in their blood, urine and CSF. Clinically, GA-I is characterized by macrocephaly, progressive dystonia and dyskinesia. Degeneration of the caudate and putamen of the basal ganglia, widening of the Sylvian fissures, fronto-temporal atrophy and severe spongiform change in the white matter are also commonly observed. In this report we describe the phenotype of a mouse model of GA-I generated via targeted deletion of the Gcdh gene in embryonic stem cells. The Gcdh-/- mice have a biochemical phenotype very similar to human GA-I patients, including elevations of GA and 3-OHGA at levels similar to those seen in GA-I patients. The affected mice have a mild motor deficit but do not develop the progressive dystonia seen in human patients. Pathologically, the Gcdh-/- mice have a diffuse spongiform myelinopathy similar to that seen in GA-I patients. However, unlike in human patients, there is no evidence of neuron loss or astrogliosis in the striatum. Subjecting the Gcdh-/- mice to a metabolic stress, which often precipitates an encephalopathic crisis and the development of dystonia in GA-I patients, failed to have any neurologic effect on the mice. We hypothesize that the lack of similarity in regards to the neurologic phenotype and striatal pathology of GA-I patients, as compared with the Gcdh-/- mice, is due to intrinsic differences between the striata of mice and men.
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PMID:Biochemical, pathologic and behavioral analysis of a mouse model of glutaric acidemia type I. 1185 67

Type I glutaric aciduria (GA1) results from mitochondrial matrix flavoprotein glutaryl-CoA dehydrogenase deficiency and is a cause of acute striatal necrosis in infancy. We present detailed clinical, neuroradiologic, molecular, biochemical, and functional data on 77 patients with GA1 representative of a 14-year clinical experience. Microencephalic macrocephaly at birth is the earliest sign of GA1 and is associated with stretched bridging veins that can be a cause of subdural hematoma and acute retinal hemorrhage. Acute striatal necrosis during infancy is the principal cause of morbidity and mortality and leads to chronic oromotor, gastroesophageal, skeletal, and respiratory complications of dystonia. Injury to the putamen is heralded by abrupt-onset behavioral arrest. Tissue degeneration is stroke-like in pace, radiologic appearance, and irreversibility. It is uniformly symmetric, regionally selective, confined to children under 18 months of age, and occurs almost always during an infectious illness. Our knowledge of disease mechanisms, though incomplete, is sufficient to allow a rational approach to management of encephalopathic crises. Screening of asymptomatic newborns with GA1 followed by thoughtful prospective care reduces the incidence of radiologically and clinically evident basal ganglia injury from approximately 90% to 35%. Uninjured children have good developmental outcomes and thrive within Amish and non-Amish communities.
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PMID:Type I glutaric aciduria, part 1: natural history of 77 patients. 1288 85

Glutaric aciduria type 1 is an inborn error of metabolism due to deficiency of glutaryl-CoA dehydrogenase. This disorder mainly affects children. The majority of patients develop a dystonic-dyskinetic syndrome. The dystonia is painful and can cause significant disability. This report documents an 18-month-old child, the youngest reported, who underwent pallidotomy for disabling dystonia. The surgery improved dystonic symptoms, especially pain in this child with minor complications related to the procedure. Pallidotomy is a reasonable option for children with dystonic symptoms secondary to glutaric aciduria.
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PMID:Bilateral pallidotomy for severe dystonia in an 18-month-old child with glutaric aciduria. 1530 79


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