Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.2.1.22 (cystathionine beta-synthase)
 965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homocystinuria is an autosomal recessive inborn error of metabolism that is most often caused by mutation in the cystathionine beta-synthase (CBS) gene. Patients may develop serious clinical manifestations such as lens dislocation, mental retardation, osteoporosis, and atherothrombotic vascular disease. Over 100 mutations have been reported, but so far, none have been reported in Korea. Mutation analysis of the CBS gene in six Korean patients with homocystinuria was performed by direct sequencing. Eight mutations were identified, including four known mutations (T257M, R336C, T353M, and G347S) and four novel mutations (L154Q, A155V, del234D, and A288T). All patients were compound heterozygotes. To characterize these mutations, normal or mutated forms of CBS were cloned into pcDNA3.1 expression vector followed by transfection into mammalian cells for transient expression. Whereas the expression levels of mutant proteins were comparable to that of normal control, enzyme activities of all the mutant forms were significantly decreased. In addition, a novel single nucleotide polymorphism, R18C, was identified, which showed one-third to two-thirds the enzyme activity of wild type and 1% of the allele frequency in normal control. The spectrum of mutations observed in Korean patients bears less resemblance to those observed in Western countries.
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PMID:Identification and functional analysis of cystathionine beta-synthase gene mutations in patients with homocystinuria. 1620 33

Down's syndrome (DS) or trisomy 21 is the most common genetic cause of mental retardation, and adults with DS develop Alzheimer type of disease (AD). Cystathionine beta-synthase (CBS) is encoded on chromosome 21 and deficiency in its activity causes homocystinuria, the most common inborn error of sulfur amino acid metabolism and characterized by mental retardation and vascular disease. Here, we show that the levels of CBS in DS brains are approximately three times greater than those in the normal individuals. CBS is localized to astrocytes and those surrounding senile plaques in the brains of DS patients with AD. The over-expression of CBS may cause the developmental abnormality in cognition in DS children and that may lead to AD in DS adults.
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PMID:Cystathionine beta-synthase is enriched in the brains of Down's patients. 1627 69

Homocystinuria is a metabolic disorder caused by a deficiency of cystathionine beta-synthase (CBS). The major clinical symptoms of this disease are mental retardation, lens dislocation, vascular disease with life-threatening thromboembolisms, and skeletal deformities. The major treatments for CBS deficiency include pharmacologic doses of pyridoxine or dietary restriction of methionine. There is currently no effective long-term treatment to lower the elevated plasma levels of homocysteine. However, gene therapy could be an effective novel approach for the treatment of homocystinuria. A recombinant adeno- associated virus vector carrying human CBS cDNA (rAAV-hCBS) was constructed and administered to CBS-/- mice by intramuscular (IM) and intraperitoneal (IP) injections. Serum homocysteine concentrations significantly decreased in treated mice compared with age-matched controls two weeks after treatment. The treated CBS-/- mice had life spans 3-7 days longer compared with untreated CBS-/- mice. In CBS-/- mice treated with rAAV-hCBS via IP injection, the vector was detected in all organs examined including liver, spleen, and kidney, and CBS gene expression was observed by immunohistochemical staining in the liver. These results indicate the efficacy of gene delivery and demonstrate the possibility of gene therapy mediated by AAV gene transfer in this mouse model of homocystinuria.
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PMID:Recombinant adeno-associated virus mediated gene transfer in a mouse model for homocystinuria. 1720 41

Nitric oxide (NO) and carbon monoxide (CO) synthesized from L-arginine by NO synthase and from heme by heme oxygenase, respectively, are the well-known neurotransmitters and are also involved in the regulation of vascular tone. Recent studies suggest that hydrogen sulfide (H(2)S) is the third gaseous mediator in mammals. H(2)S is synthesized from L-cysteine by either cystathionine beta-synthase (CBS) or cystathionine gamma-lyase (CSE), both using pyridoxal 5'-phosphate (vitamin B(6)) as a cofactor. H(2)S stimulates ATP-sensitive potassium channels (K(ATP)) in the vascular smooth muscle cells, neurons, cardiomyocytes and pancreatic beta-cells. In addition, H(2)S may react with reactive oxygen and/or nitrogen species limiting their toxic effects but also, attenuating their physiological functions, like nitric oxide does. In contrast to NO and CO, H(2)S does not stimulate soluble guanylate cyclase. H(2)S is involved in the regulation of vascular tone, myocardial contractility, neurotransmission, and insulin secretion. H(2)S deficiency was observed in various animal models of arterial and pulmonary hypertension, Alzheimer's disease, gastric mucosal injury and liver cirrhosis. Exogenous H(2)S ameliorates myocardial dysfunction associated with the ischemia/reperfusion injury and reduces the damage of gastric mucosa induced by anti-inflammatory drugs. On the other hand, excessive production of H(2)S may contribute to the pathogenesis of inflammatory diseases, septic shock, cerebral stroke and mental retardation in patients with Down syndrome, and reduction of its production may be of potential therapeutic value in these states.
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PMID:Hydrogen sulfide (H2S) - the third gas of interest for pharmacologists. 1737 2

Cystathionine beta-synthase-deficient mice (Cbs(-/-)) exhibit several pathophysiological features similar to hyperhomocysteinemic patients, including endothelial dysfunction and hepatic steatosis. Heterozygous mutants (Cbs(+/-)) on the C57BL/6J background are extensively analyzed in laboratories worldwide; however, detailed analyses of Cbs(-/-) have been hampered by the fact that they rarely survive past the weaning age probably due to severe hepatic dysfunction. We backcrossed the mutants with four inbred strains (C57BL/6J(Jcl), BALB/cA, C3H/HeJ and DBA/2J) for seven generations, and compared Cbs(-/-) phenotypes among the different genetic backgrounds. Although Cbs(-/-) on all backgrounds were hyperhomocysteinemic/hypermethioninemic and suffered from lipidosis/hepatic steatosis at 2 weeks of age, >30% of C3H/HeJ-Cbs(-/-) survived over 8 weeks whereas none of DBA/2J-Cbs(-/-) survived beyond 5 weeks. At 2 weeks, serum levels of total homocysteine and triglyceride were lowest in C3H/HeJ-Cbs(-/-). Adult C3H/HeJ-Cbs(-/-) survivors showed hyperhomocysteinemia but escaped hypermethioninemia, lipidosis and hepatic steatosis. They appeared normal in general behavioral tests but showed cerebellar malformation and impaired learning ability in the passive avoidance step-through test, and required sufficient dietary supplementation of cyst(e)ine for survival, demonstrating the essential roles of cystathionine beta-synthase in the central nervous system function and cysteine biosynthesis. Our C3H/HeJ-Cbs(-/-) mice could be useful tools for investigating clinical symptoms such as mental retardation and thromboembolism that are found in homocysteinemic patients.
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PMID:Genetic background conversion ameliorates semi-lethality and permits behavioral analyses in cystathionine beta-synthase-deficient mice, an animal model for hyperhomocysteinemia. 1836 86

Cystathionine beta-synthase (CBS) catalyzes the condensation of homocysteine (Hcy) and serine to cystathionine, which is then hydrolyzed to cysteine by cystathionine gamma-lyase. Inactivation of CBS results in CBS-deficient homocystinuria more commonly referred to as classical homocystinuria, which, if untreated, results in mental retardation, thromboembolic complications, and a range of connective tissue disorders. The molecular mechanisms that underlie the pathology of this disease are poorly understood. We report here the generation of a new mouse model of classical homocystinuria in which the mouse cbs gene is inactivated and that exhibits low-level expression of the human CBS transgene under the control of the human CBS promoter. This mouse model, designated "human only" (HO), exhibits severe elevations in both plasma and tissue levels of Hcy, methionine, S-adenosylmethionine, and S-adenosylhomocysteine and a concomitant decrease in plasma and hepatic levels of cysteine. HO mice exhibit mild hepatopathy but, in contrast to previous models of classical homocystinuria, do not incur hepatic steatosis, fibrosis, or neonatal death with approximately 90% of HO mice living for at least 6months. Tail bleeding determinations indicate that HO mice are in a hypercoagulative state that is significantly ameliorated by betaine treatment in a manner that recapitulates the disease as it occurs in humans. Our findings indicate that this mouse model will be a valuable tool in the study of pathogenesis in classical homocystinuria and the rational design of novel treatments.
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PMID:A novel transgenic mouse model of CBS-deficient homocystinuria does not incur hepatic steatosis or fibrosis and exhibits a hypercoagulative phenotype that is ameliorated by betaine treatment. 2063 79

Cystathionine beta-synthase (CBS) deficient homocystinuria is an inherited metabolic defect that if untreated typically results in mental retardation, thromboembolism and a range of connective tissue disturbances. A knockout mouse model has previously been used to investigate pathogenic mechanisms in classical homocystinuria (Watanabe et al., PNAS 92 (1995) 1585-1589). This mouse model exhibits a semi-lethal phenotype and the majority of mice do not survive the early neonatal period. We report here that the birth incidence of cbs (-/-) mice produced from heterozygous crosses is non-Mendelian and not significantly improved by treatment with either the Hcy lowering compound betaine or the cysteine donor N-acetylcysteine. Betaine treatment did improve survival of cbs (-/-) mice and restored fertility to female cbs (-/-) mice but did so without significantly lowering Hcy levels. Surviving cbs (-/-) mice failed to show any alteration in coagulation parameters compared to wild-type controls. Moribund cbs (-/-) mice exhibited severe liver injury and hepatic fibrosis while surviving cbs (-/-) mice although less severely affected, still exhibited a level of severe liver injury that is not found in the human disease. The hepatopathy observed in this model may offer an explanation for the failure of cbs (-/-) mice to respond to betaine or exhibit a hypercoagulative phenotype. We conclude that although this model provides useful data on the biochemical sequelae of classical homocystinuria, it does not successfully recapitulate a number of important features of the human disease and its use for studying mechanisms in homocystinuria should be treated with caution as the hepatopathy produces changes which could influence the results.
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PMID:Cystathionine beta-synthase null homocystinuric mice fail to exhibit altered hemostasis or lowering of plasma homocysteine in response to betaine treatment. 2063 82

Objective Homocystinuria is an inborn error of amino acid metabolism caused by cystathionine beta-synthase deficiency that affects methionine metabolism. The clinical features are heterogeneous ranging from mental retardation, ectopia lentis, and osteoporosis to vascular events such as deep vein thrombosis, sagital sinus thrombosis, and myocardial infarction. Cerebral sinovenous thrombosis (CVST) is an unusual disorder in children and requires prompt and accurate management. Some causal factors for the development of CVST differ between children and adults. The majority of cases with CSVT are found to have an underlying cause for thrombosis like dehydration, infections, prothrombotic and hematologic disorders, malignancy and trauma. Although homocystinuria is usually associated with ischemic strokes, CVST as initial clinical presentation of homocystinuria is rare in children. In this article, we presented a 10-year old boy with seizure, hemiparesis, and ataxia due to CSVT caused by homocystinuria.
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PMID:Homocystinuria: A Rare Disorder Presenting as Cerebral Sinovenous Thrombosis. 2622 Nov 64


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