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:C0917816 (mental retardation)
15,867 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homocystinuria with elevated plasma homocysteine and methionine levels is the result of deficient activity of cystathionine synthetase, the enzyme catalyzing conversion of homocysteine to cystathionine. It is inherited as an autosomal recessive trait with a worldwide distribution. The major clinical manifestations result from the elevated plasma homocysteine level. The excitotoxic effect of homocysteic acid accounts for mental retardation and seizures. Interference with collagen cross-linking by sulfhydryl groups of homocysteine causes ectopia lentis and skeletal deformities. Sulfation factor-like effects contribute to disruption of vascular endothelium, which is followed by platelet thrombosis and widespread arterial and venous occlusions. Low methionine homocystinuria, with deficient remethylation of homocysteine, results from deranged vitamin B(12) metabolism and from deficient 5,10-methylene-tetrahydrofolate reductase. Administration of azaribine produces homocystinuria by mechanism not yet elucidated.
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PMID:Homocystinuria: pathogenetic mechanisms. 32 77

This, to our knowledge, is the first report of homocystinuria in the South African Negro. Two siblings are presented who developed normally until the age of 5 years but then showed mental retardation. Both were tall and thin, had genu valgum and arachnodactyly. The elder sib also had kyphoscoliosis, pes cavus and bilateral ectopia lentis. The diagnosis was confirmed by the presence of homocystine in the urine, elevated plasma homocystine and methionine and diminished plasma cystine levels.
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PMID:Homocystinuria in two South African Negro siblings. 89 68

We describe the molecular characterization of two mutations responsible for galactosemia, an inherited disorder of galatose metabolism that causes jaundice, cataracts, and mental retardation in humans. The coding region of galactose-1-phosphate uridylyltransferase (GALT; UDPglucose:alpha-D-galactose-1-phosphate uridylyltransferase, EC 2.7.7.12) was amplified by the polymerase chain reaction from total cDNA of a classic galactosemic individual and was characterized by direct sequencing of the products. Two missense mutations were identified: (i) replacement of valine-44 by methionine and (ii) replacement of methionine-142 by lysine. These mutations led to a drastic reduction in GALT activity when individual mutant cDNAs were overexpressed in a mammalian cell system, although full-length protein is synthesized in this assay. The two galactosemia mutations account for 3 of the 15 galactosemia alleles analyzed. These results suggest that galactosemia is caused by a variety of mutations, which might be responsible for the observed clinical heterogeneity of this disorder. We also present the molecular characterization of two GALT polymorphisms: (i) replacement of leucine-62 by methionine and (ii) replacement of asparagine-314 by aspartate. It appears that galactosemia mutations tend to occur in regions that are highly conserved throughout evolution while the polymorphisms change variable residues.
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PMID:Molecular basis of galactosemia: mutations and polymorphisms in the gene encoding human galactose-1-phosphate uridylyltransferase. 201 74

The transport of the eight amino acids (phenylalanine, tyrosine, tryptophan, valine, leucine, isoleucine, histidine and methionine) using the large neutral amino acid transporter of the blood-brain barrier (BBB) has been calculated using published kinetic data. The fate of the amino acids has been followed from blood to interstitial space, to cell and through metabolism which included, for tyrosine and tryptophan, the hydroxylases. The system was analysed in terms of flux control coefficients. Since the summation theorem did not hold, the system clearly behaved as a non-homogeneous system. At physiological levels of these eight amino acids, the largest contribution to the control of the flux of tyrosine is given by the hydroxylase step, followed by the diffusional component of the transport across the BBB. For tryptophan it is the hydroxylase step, followed by the carrier-mediated transport across the BBB. For the other amino acids it is the metabolism, followed by the diffusional component of the BBB transport. These parameters for tyrosine and tryptophan were determined at increased levels of blood phenylalanine, tyrosine or histidine. The flux through tryptophan hydroxylase can be affected by high blood levels of tyrosine and histidine to values also observed in hyperphenylalaninaemia. Since hypertyrosinaemia (type II) and hyperhistidinaemia are not associated with mental retardation, it is concluded that interference with transport across the BBB of tyrosine and tryptophan, as well as the flux through tryptophan hydroxylase leading to the synthesis of 5-hydroxytryptamine, do not contribute to the cause of permanent brain dysfunction in hyperphenylalaninaemia. It can be calculated that addition of tyrosine to the diet to raise the blood tyrosine level in phenylketonuria patients may have a beneficial effect for the synthesis of neurotransmitters derived from tyrosine.
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PMID:The control of 5-hydroxytryptamine and dopamine synthesis in the brain: a theoretical approach. 210 47

Homocystinuria is an inborn error of methionine metabolism, of which cause is mainly deficiency of cystathionine synthetase. The major clinical manifestations of homocystinuria are mental retardation, seizures, ectopia lentis, skeletal deformities and occlusive vascular disease. A case of homocystinuria accompanied with deep cerebral venous thrombosis was reported. A 29-year-old woman was admitted to our hospital with unconsciousness and tetraparesis on December 7, 1984. She was diagnosed as homocystinuria due to cystathionine synthetase deficiency at 13-year-old. Amino acid analysis of serum revealed homocystinaemia (1.37 mg/dl, normal 0), hypermethioninaemia (1.27 mg/dl, normal 0.2-0.48) and low cystathionine content. CT scan revealed intraventricular hemorrhage and diffuse low density in basal ganglia and white matter. Cerebral angiograms showed that deep cerebral veins and superior sagittal sinus can not be recognized clearly in any phase, and Sylvian veins are opacified markedly. It is suggested that intraventricular hemorrhage, and low density area in basal ganglia and white matter is due to hemorrhagic infarction by venous thrombosis of internal cerebral vein. The major clinical manifestations of homocystinuria result from the elevated plasma homocysteine level. The excitotoxic effect of homocysteic acid accounts for mental retardation and seizures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Homocystinuria accompanied with cerebral deep venous thrombosis--a case report]. 236 35

Classic homocystinuria is an autosomal recessive metabolic disease due to a cystathionine-beta-synthase deficiency with consequent blocking of homocysteine and serine condensation for producing cystathionine. The characteristic biochemical abnormalities in the blood and urine are: abnormal accumulation of methionine, abnormal presence of homocystine and low values of cystathionine, cysteine or cystine (disulfide of the cysteine). The most frequent clinical signs are: subluxation of the lenses, mental retardation of different degrees, long bones excessively lengthened, scoliosis, susceptibility to arterial and venous thromboembolism. The latter is frequent after surgery, and may be life-threatening. This disease must be differentiated from Marfan's syndrome via laboratory tests.
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PMID:Clinical and laboratory features of homocystinuria. 268 Aug 8

Nutritional approaches are available for the management of several different classes of inborn metabolism errors. In phenylketonuria (PKU), phenylalanine is not properly metabolized; and its accumulation leads to neurologic dysfunction and metal retardation. Altering the diet to limit phenylalanine intake led to remarkable improvement in children with PKU. It was later found that instituting dietary therapy immediately after identification of the disorder in newborns prevented mental retardation. Throughout the 1960s nutritional therapies were found for other inborn disorders, including galactosemia, maple syrup urine disease, and homocystinuria. For the group of disorders associated with defects in the urea cycle, leading to profound hyperammonemia, therapy based on the concept of waste nitrogen excretion (i.e., by increasing excretion of urea cycle intermediates in the urine, nitrogen that would otherwise recycle as ammonia can be eliminated) dramatically produced better control of hyperammonemia and its consequences. Some inborn errors of metabolism respond to vitamin therapy. Biotin-related multiple carboxylase synthetase deficiency can be produced by either of two enzyme defects--holocarboxylase synthetase deficiency or biotinidase deficiency. Both are treatable with biotin supplementation. The symptoms of multiple carboxylase deficiency can also occur after intestinal resection or ingestion of raw eggs. Multiple carboxylase deficiency has been treated successfully in utero by giving the mother biotin supplements. Peroxisomal disorders may respond to dietary management. Liver disease in hereditary tyrosinemia may be accentuated by hypermethioninemia and treated by controlling the blood methionine level. Glycogen storage disease Type I, which causes hypoglycemia, can be controlled by oral administration of cornstarch.
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PMID:Nutritional therapy for selected inborn errors of metabolism. 268 28

An international questionnaire survey has been conducted to define better the natural history of homocystinuria due to cystathionine beta-synthase deficiency and permit evaluation of treatment. Data were compiled for 629 patients. Among patients not discovered by newborn screening, B6-responsive individuals on the average have significantly better mental capabilities (mean IQ, 79) than do B6-nonresponsive individuals (mean IQ, 57). Time-to-event curves are presented for the other major clinical abnormalities produced by this disease. Each occurred at significantly lower rates in untreated B6-responsive than in untreated B6-nonresponsive patients, as shown by the following examples: (1) dislocation of optic lenses (at age 10, chances of dislocation: 55% and 82%, respectively); (2) initial clinically detected thromboembolic events (at age 15, chances of having had such an event: 12% and 27%, respectively); (3) radiologic detection of spinal osteoporosis (at age 15, chances of such osteoporosis having been detected: 36% and 64%, respectively); and (4) mortality (at age 30, chances of not surviving: 4% and 23%, respectively). Methionine restriction initiated neonatally prevented mental retardation, retarded the rate of lens dislocation, and may have reduced the incidence of seizures. Pyridoxine treatment of late-detected B6-responsive patients retarded the rate of occurrence of initial thromboembolic events. Following 586 surgical procedures, 25 postoperative thromboembolic complications occurred, six of which were fatal. Reproductive histories were reported predominantly for B6-responsive patients. Living offspring of either men or women patients had few abnormalities. The evidence is inconclusive whether untreated maternal cystathionine beta-synthase deficiency leads to excessive fetal loss. Only 13% of patients detected in screening programs of newborns and classified as to B6-responsiveness were B6-responsive, compared to 47% among late-detected patients. Current screening programs that identify neonatal hypermethioninemia may be preferentially failing to detect B6-responsive patients.
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PMID:The natural history of homocystinuria due to cystathionine beta-synthase deficiency. 387 65

The autosomal recessive disorder homocystinuria involves, in all its subgroups, an abnormality of methionine metabolism. The metabolism of methionine has been a central focus of interest for those who propose the transmethylation hypothesis of schizophrenia. The "methionine effect," as described in the research literature, is thus a theoretical link between these two disorders. The authors review the literature and describe those cases where both have occurred in the same patient. They indicate that whereas many patients with homocystinuria have been psychotic, few have been actually labeled schizophrenic. A patient with homocystinuria, mental retardation, and episodic psychosis is described and this case is used to point to the difficulties in making a definite psychiatric diagnosis in these patients. A relationship between the two syndromes is suggested.
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PMID:Homocystinuria and schizophrenia. Literature review and case report. 396 12

A Turkish girl presented with a history of fever, diarrhoea, convulsions, recurrent infections and failure to thrive from the age of 5 months. Megaloblastic anaemia was present and profound folate deficiency was evidenced in plasma and in CSF. Treatment with oral folic acid cured the anaemia, diarrhoea and infections but failed to prevent convulsions and the appearance of mental retardation and cerebral calcifications. Loading tests with folic acid and its derivatives led to the conclusion that the folate deficiency was caused by a defect in folate transport both across the gut and the blood-brain barrier. Low plasma concentrations of methionine prompted a therapeutic trial with methionine associated with vitamin B12 and folic acid that spectacularly improved the convulsions.
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PMID:Congenital folate malabsorption. 398 28


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