UMLS:C0002986 - FACTA Search

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Query: UMLS:C0002986 (Fabry)
5,646 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human lymphoid cell lines established by Epstein-Barr viral transformation of peripheral B-lymphocytes from normal subjects and from Fabry patients, were investigated for their ability to biosynthesize neutral glycosphingolipids from [14C]galactose and [14C]glucose as precursors. Galactose was taken up in the presence of high concentrations of glucose and selectively utilised by the cells in the synthesis of galactosphingolipids. The pattern of neutral glycosphingolipids labelled from [14C]galactose was slightly modified with time of labelling in either lymphoid cell line: the first labelled glycosphingolipid was lactosylceramide (LacCer) in the normal line and globotetraosylceramide (GbOse4Cer) in the Fabry line. After labelling for 96 h, a steady state was reached and the percentage of every type of labelled glycosphingolipid was stable in each cell line; however, differences in the neutral sphingolipid composition appeared between the various cell lines. When using radiolabelled glucose as precursor, the major part of the radioactivity was incorporated into neutral lipids and phospholipids; neutral sphingolipids were much less labelled than when using galactose. Catabolism of endogeneous labelled glycosphingolipids (synthesized by the cells during the 'pulse') was studied after cultivating the cells without radiolabelled precursors ('chase'). In the cells from normal subjects, all the neutral glycosphingolipids were slowly degraded (half-life time around 15-25 days for LacCer and GbOse3Cer). In contrast, in a lymphoid line from a Fabry patient, no appreciable degradation of GbOse3Cer occurred during 30 days. This block in the catabolism of GbOse3Cer is in good agreement with the previously reported deficiency of alpha-galactosidase A activity in this Fabry lymphoid cell line [Salvayre, R. et al. (1981) Biochim. Biophys. Acta 659, 445-456] and demonstrates that alpha-galactosidase B does not hydrolyze GbOse3Cer in the living cell (in contrast to the situation in vitro).
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PMID:[Neutral glycosphingolipids of Fabry's disease lymphoblastoid lines established by Epstein-Barr virus transformation]. 298 12

The expression product of a mutant alpha-galactosidase gene, Q279E (279Gln-->Glu), found in an atypical variant (cardiac form) of Fabry disease, was purified and characterized. It had kinetic properties similar to those of normal alpha-galactosidase, but was markedly thermolabile at neutral pH. Galactose and melibiose at high concentrations stabilized the mutant enzyme in vitro. Its catalytic activity was 15% of that for the normal enzyme, when it was expressed in COS-1 cells at 37 degrees C. The activity increased at 30 degrees C or in the presence of galactose at 37 degrees C. An increase was also observed in lymphoblasts from a patient with this mutation in the presence of galactose or melibiose. We conclude that this mutant protein is posttranslationally inactivated under the neutral conditions in the cells. The possibility of a new therapeutic approach is suggested.
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PMID:Characterization of a mutant alpha-galactosidase gene product for the late-onset cardiac form of Fabry disease. 790 61

The Xq22 region of the human X chromosome contains genes for a number of inherited disorders. Sixty-nine yeast artificial chromosome clones have been isolated and assembled into a 6.5-Mb contig that contains 33 DNA markers localized to this region. This contig extends distally from DXS366 to beyond DXS87 and includes the genes involved in X-linked agammaglobulinemia (btk), Fabry disease (GLA), and Pelizaeus-Merzbacher disease (PLP). The order of markers in this contig is consistent with the known genetic and physical mapping information of Xq22. This cloned material provides a source from which to isolate other genes located in this part of the X chromosome.
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PMID:A 6.5-Mb yeast artificial chromosome contig incorporating 33 DNA markers on the human X chromosome at Xq22. 818 39

A point mutation in exon 6 of the alpha-galactosidase A gene (alpha-GAL A) was found in a Japanese hemizygous male without typical manifestations of Fabry disease other than renal involvement. This 45-year-old man developed moderate proteinuria and was diagnosed with Fabry disease on the basis of renal histologic findings and prominent decreases in alpha-GAL A activity in his plasma, urine, leukocytes, and skin fibroblasts. Determination of the cDNA sequence of his alpha-GAL A gene revealed substitution of a G to A in codon 301, resulting in a glutamine rather than an arginine residue. Our case is unique in that this patient only demonstrated renal manifestations while all other reported patients with atypical Fabry disease, including a case with the identical point mutation, present with a cardiomyopathy. Direct DNA sequencing of exon 6 and measurement of alpha-GAL A activity among the patient's family confirmed that the mutation was transmitted from his mother.
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PMID:Point mutation in the alpha-galactosidase A gene of atypical Fabry disease with only nephropathy. 873 59

Human lysosomal alpha-galactosidase predominantly hydrolyzes ceramide trihexoside. A transgenic mouse line, C57BL/6CrSIc-TgN(GLA) 1951 Rin, highly expressing human alpha-galactosidase, has been established and investigated biochemically and immunohistochemically in order to clarify the distribution of the expressed enzyme proteins and to evaluate it as a donor model of organ transplantation therapy for Fabry disease caused by a genetic defect of alpha-galactosidase. In these transgenic mice, about five copies of the transgene were integrated, and alpha-galactosidase activity was expressed in liver, kidney, heart, spleen, small intestine, submaxillary gland, skeletal muscle, cerebrum, cerebellum, bone marrow cells and serum. The enzyme activity was about 22 to 11,080-fold higher than that in non-transgenic mice. In liver, heart and kidney tissues, which are important organs for transplantation studies, sufficient amounts of alpha-galactosidase mRNAs were transcribed, and the expressed enzymes, with molecular weights of 54-60 kDa, are abundant in the liver (enzyme activity: 53,965 nmol h-1 mg-1 protein) and heart (39,906 nmol h-1 mg-1 protein), followed by in the kidney tissue (9177 nmol h-1 mg-1 protein), respectively. An immunohistochemical microscopic study clearly demonstrated the distribution of the expressed enzyme proteins in kidney and liver tissues. Highly expressed alpha-galactosidase was detected in glomerular cells, tubular cells and hepatocytes. These transgenic mice will be useful as a donor model for experimental organ transplantation, and also it will enable recurrent biopsies and long-term observation. The organ transplantation data on mice will provide us with important information.
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PMID:Immunohistochemical characterization of transgenic mice highly expressing human lysosomal alpha-galactosidase. 963 Jun 64

In the lysosome, glycosidases degrade glycolipids, glycoproteins, and oligosaccharides. Mutations in glycosidases cause disorders characterized by the deposition of undegraded carbohydrates. Schindler and Fabry diseases are caused by the incomplete degradation of carbohydrates with terminal alpha-N-acetylgalactosamine and alpha-galactose, respectively. Here we present the X-ray structure of alpha-N-acetylgalactosaminidase (alpha-NAGAL), the glycosidase that removes alpha-N-acetylgalactosamine, and the structure with bound ligand. The active site residues of alpha-NAGAL are conserved in the closely related enzyme a-galactosidase A (alpha-GAL). The structure demonstrates the catalytic mechanisms of both enzymes and reveals the structural basis of mutations causing Schindler and Fabry diseases. As alpha-NAGAL and alpha-GAL produce type O "universal donor" blood from type A and type B blood, the alpha-NAGAL structure will aid in the engineering of improved enzymes for blood conversion.
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PMID:The 1.9 A structure of alpha-N-acetylgalactosaminidase: molecular basis of glycosidase deficiency diseases. 1200 40

Fabry disease is a lysosomal storage disease caused by deficiency in the enzyme alpha-galactosidase (alpha-GAL). To understand the molecular defects responsible for Fabry disease, we have collected more than 190 reported point and stop mutations and mapped them onto a model of human alpha-GAL based on the X-ray structure of the closely related enzyme alpha-N-acetylgalactosaminidase (alpha-NAGAL). The locations of the human alpha-GAL point mutations reveal two major classes of Fabry disease protein defects: active site mutations and folding mutations. Active site mutations reduce enzymatic activity by perturbing the active site without necessarily affecting the overall alpha-GAL structure. Folding mutations reduce the stability of alpha-GAL by disrupting its hydrophobic core. Examining the frequency of mutation around each alpha-GAL residue identifies the active site as a hotspot for mutations leading to Fabry disease. This study furthers our understanding of the structural basis for mutations leading to Fabry disease, from which new avenues for the treatment of lysosomal storage diseases may be developed.
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PMID:Structural basis of Fabry disease. 1235 24

Fabry disease (FD, OMIM 301500) is an X-linked inherited disorder of metabolism due to mutations in the gene encoding alpha-galactosidase A, a lysosomal enzyme. The enzymatic defect leads to the accumulation of neutral glycosphingolipids throughout the body, particularly within endothelial cells. Resulting narrowing and tortuosity of small blood vessels lead to tissue ischaemia and infarction. Inability to prevent the progression of glycosphingolipid deposition causes significant morbidity (acroparesthesia, angiokeratoma, autonomic dysfunction, cardiomyopathy and deafness), and mortality from early onset strokes, heart attack and renal failure in adulthood. Demonstration of alpha-galactosidase A deficiency in leukocytes or plasma is the definitive method for the diagnosis of affected hemizygous males. Most heterozygotes present with a cardiac, renal or neurological symptomatology, although to a lesser extent than what is observed in hemizygotes. Due to random X-chromosomal inactivation, enzymatic detection of carriers is often inconclusive. Molecular testing of possible carriers is therefore mandatory for accurate genetic counselling. The GLA gene has been cloned and more than 200 mutations have been identified. Medical management is symptomatic and consists of partial pain relief with analgesic drugs (gabapentin, carbamazepine), whereas renal transplantation or dialysis is available for patients experiencing end-stage renal failure. However, the ability to produce high doses of alpha-galactosidase A in vitro has opened the way to clinical studies and enzyme replacement therapy has recently been validated as a therapeutic agent for FD patients in clinical trials. Long term safety and efficacy of replacement therapy are currently being investigated.
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PMID:[Fabry's disease (alpha-galactosidase-A deficiency): physiopathology, clinical signs, and genetic aspects]. 1236 Jul 45

Aim of this study was to confirm the initial results of a clinical trial on the treatment of Fabry's disease carried out in 13 Italian Nephrology Units. Fabry's disease is a rare, X-linked inherited disease, characterized by a-galactosidase (a-GAL) deficiency, a lysosomial enzymatic activity that results in the accumulation of neutral glycosphingolipids in the endothelial cells of the whole body, and causes painful crises, acroparesthesiae, angiokeratomas, corneal and lens dystrophy, and progressive damage to kidneys, heart and central nervous system, as well as potentially leading to death. The present availability of the recombinant form of a-GAL allows us to prevent or stop the long-term complications of this disease. A clinical trial, generously supported by Genzyme, was started on February 2001. In this trial 20 patients affected by Fabry's disease were periodically treated with agalsidase-beta, the commercial form of the enzyme. The initial results of the trial have indicated that the drug is capable of reducing both the number and intensity of painful crises, improving the patient's sensation of well-being, thus suggesting that this therapeutic approach might theoretically increase life expectancy in these patients.
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PMID:[Anderson-Fabry's disease: diagnostic problems, therapeutic relevance, and clinical experience in the treatment of the disease with enzyme replacement therapy in nephropathic patients]. 1274 95

Fabry disease, an X-linked inborn error of glycosphingolipid catabolism, results from mutations in the gene encoding the lysosomal exoglycohydrolase, alpha-galactosidase A (alpha-Gal A; GLA). In two unrelated classically affected males, two alpha-Gal A missense mutations were identified: R112C + D313Y (c.334C>T + c.937G>T) and C172G + D313Y (c.514T>G + c.937G>T). The D313Y lesion was previously identified in classically affected males as the single mutation [Eng et al., 1993] or in cis with another missense mutation, D313Y + G411D (c.937G>T + c.1232G>A) [Guffon et al., 1998]. To determine whether the D313Y mutation was a deleterious mutation or a coding region sequence variant, the frequency of D313Y in normal X-chromosomes, as well as its enzymatic activity and subcellular localization in COS-7 cells was determined. D313Y occurred in 0.45% of 883 normal X-chromosomes, while the R112C, C172G, and G411D missense mutations were not detected in over 500 normal X-chromosomes. Expression of D313Y in COS-7 cells resulted in approximately 60% of wild-type enzymatic activity and showed lysosomal localization, while R112C, C172G, G411D, and the double-mutated constructs had markedly reduced or no detectable activity and were all retained in the endoplasmic reticulum. The expressed D313Y enzyme was stable at lysosomal pH (pH 4.6), while at neutral pH (pH 7.4), it had decreased activity. A molecular homology model of human alpha-Gal A, based on the X-ray crystal structure of chicken alpha-galactosidase B (alpha-Gal B; alpha-N-acetylgalactosaminidase) was generated [Garman et al., 2002], which provided evidence that D313Y did not markedly disrupt the alpha-Gal A enzyme structure. Thus, D313Y is a rare exonic variant with about 60% of wild-type activity in vitro and reduced activity at neutral pH, resulting in low plasma alpha-Gal A activity.
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PMID:Fabry disease: characterization of alpha-galactosidase A double mutations and the D313Y plasma enzyme pseudodeficiency allele. 1463 8

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