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)

Single point mutations in the upstream region of exon 6 of the alpha-galactosidase A gene were found in two Japanese cases of the cardiac form of Fabry disease; 301Arg----Gln (902G----A) in a case that has already been published and 279Gln----Glu (835C----G) in a new case. They both expressed markedly low, but significant, amounts of residual activity in COS-1 cells. In contrast, two unrelated cases with classic Fabry disease were found to have different point mutations, which showed a complete loss of enzyme activity in a transient expression assay; 328Gly----Arg (982G----A) in the downstream region of exon 6 in one case and two combined mutations, 66Glu----Gln (196G----C)/112Arg----Cys (334C----T), in exon 2 in the other. We conclude, on the basis of the results recorded in this study and those in previous reports, that the pathogenesis of atypical Fabry disease is closely associated with point mutations in the upstream region of exon 6 of the alpha-galactosidase A gene.
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PMID:Point mutations in the upstream region of the alpha-galactosidase A gene exon 6 in an atypical variant of Fabry disease. 131 15

The effect of galactose on alpha-galactosidase missense mutants causing Fabry disease was investigated in the COS-1 cell expression system and lymphoblasts. Three mutant enzymes, A156V, L166V and Q279E, showed increases in activity and amount in COS-1 cells cultured with galactose. Another mutant without catalytic activity, C142Y, did not show any changes. In lymphoblasts cultured with galactose, the enzyme activity increased significantly in four classical Fabry patients with the respective mutations, A156V, L166V, G260A and G373S, and in three atypical Fabry patients with the respective mutations, Q279E, R301Q and M296I. Such an increase was not observed in the other four classical Fabry patients, with C142Y, E66Q/R112C, G328R and N320K, respectively. This suggests that many missense mutations in the alpha-galactosidase gene causing Fabry disease allow the expression of catalytically active mutant enzymes regardless of the clinical phenotype, which are rapidly degraded under physiological conditions and stabilized by galactose.
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PMID:Galactose stabilizes various missense mutants of alpha-galactosidase in Fabry disease. 757 33

Five point mutations were identified in unrelated Japanese Fabry disease hemizygotes: three new missense mutations, C142Y (425 G-->A), A156V (467 C-->T), and L166V (496 C-->G) in exon 3; one new splice site mutation at the 3' end of the consensus sequence in exon 4; one previously reported nonsense mutation, W44X (131 G-->A). C142Y expressed 50% of the normal enzyme protein in COS-1 cells, but catalytic activity was not detected. Both A156V and L166V expressed significant amounts of residual enzyme activity (6.7% and 9.8%) and enzyme proteins (10% each), the latter were more thermolabile at neutral pH than at acid pH, in vitro.
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PMID:Alpha-galactosidase gene mutations in Fabry disease: heterogeneous expressions of mutant enzyme proteins. 775 78

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

Angiokeratoma corporis diffusum with glycopeptiduria is a recently recognized inborn error of glycoprotein catabolism resulting from the deficient activity of human alpha-N-acetylgalactosaminidase (E.C. 3.2.1.49; alpha-GalNAc). The first patient with this autosomal recessive disorder, a 46-yr-old consanguineous Japanese woman, presented with diffuse angiokeratoma, mild intellectual impairment, and peripheral neuroaxonal degeneration. Deficient alpha-GalNAc activity also has been reported in consanguineous brothers with an infantile-onset form of neuroaxonal dystrophy resulting from a missense mutation (designated E325K) in the alpha-GalNAc gene. To identify the mutation causing the phenotypically distinct adult-onset disorder, Southern and Northern hybridization analyses of DNA and RNA from the affected homozygote were performed which revealed a grossly normal alpha-GalNAc gene structure and normal transcript size and abundancy. Reverse transcription, amplification, and sequencing of the alpha-GalNAc transcript identified a single C to T transition at nucleotide (nt) 985 that predicted an arginine to tryptophan substitution in residue 329 (designated R329W) of the alpha-GalNAc polypeptide. This base substitution was confirmed by hybridization of PCR-amplified genomic DNA from family members with allele-specific oligonucleotides. Transient expression of an alpha-GalNAc construct containing the R329W mutation resulted in the expression of an immunoreactive polypeptide which had no detectable alpha-GalNAc activity. Comparison of the biosynthesis and stabilities of the transiently expressed and radiolabeled normal, E325K (infantile-onset) and R329W (adult-onset) alpha-GalNAc polypeptides in COS-1 cells indicated that both the mutant precursors were processed to the mature form; however, the E325K mutant polypeptide was more rapidly degraded than the R329W subunit, thereby providing a basis for the distinctly different infantile- and adult-onset phenotypes.
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PMID:The molecular lesion in the alpha-N-acetylgalactosaminidase gene that causes angiokeratoma corporis diffusum with glycopeptiduria. 804 Mar 40

Fabry disease is an X-linked glycosphingolipid storage disorder resulting from a deficiency of lysosomal alpha-galactosidase (alpha-Gal; EC 3.2.1.22). Classical form patients, with clinical manifestations of generalized angiopathy of early onset, usually show no detectable alpha-Gal activity. There are also atypical form patients with residual alpha-Gal activity and late onset cardiomyopathy without other systemic manifestations. We identified a number of alpha-Gal gene mutations including partial deletions and point mutations. They were heterogeneous and more than half of them were missense mutations. Various missense mutants were expressed in COS-1 cells. Two groups have been identified; one expressing a mutant enzyme without catalytic activity, and the other expressing a catalytically active but unstable mutant enzyme. The latter was restored in patient cells by the addition of substrate analogues. The molecular genetic and biochemical analysis for Fabry disease will provide us with significant informations on the pathogenesis and the possibility of the therapeutic approach for this disease.
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PMID:[Fabry disease (alpha-galactosidase deficiency)]. 857 42

Fabry disease is an X-linked disorder of glycosphingolipid metabolism caused by a deficiency of alpha-galactosidase A (alpha-Gal A). We identified a novel mutation of alpha-Gal A gene in a family with Fabry disease, which converted a tyrosine at codon 365 to a stop and resulted in a truncation of the carboxy (C) terminus by 65 amino acid (AA) residues. In a heterozygote of this family, although the mutant and normal alleles were equally transcribed in cultured fibroblasts, lymphocyte alpha-Gal A activity was approximately 30% of the normal control and severe clinical symptoms were apparent. COS-1 cells transfected with this mutant cDNA showed a complete loss of its enzymatic activity. Furthermore, those cotransfected with mutant and wildtype cDNAs showed a lower alpha-Gal A activity than those with wild type alone (approximately 30% of wild type alone), which suggested the dominant negative effect of this mutation and implied the importance of the C terminus for its activity. Thus, we generated mutant cDNAs with various deletion of the C terminus, and analyzed. Unexpectedly, alpha-Gal A activity was enhanced by up to sixfold compared with wild-type when from 2 to 10 AA residues were deleted. In contrast, deletion of 12 or more AA acid residues resulted in a complete loss of enzyme activity. Our data suggest that the C-terminal region of alpha-Gal A plays an important role in the regulation of its enzyme activity.
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PMID:A carboxy-terminal truncation of human alpha-galactosidase A in a heterozygous female with Fabry disease and modification of the enzymatic activity by the carboxy-terminal domain. Increased, reduced, or absent enzyme activity depending on number of amino acid residues deleted. 887 32

Fabry disease is characterized by a deficiency of lysosomal alpha-galactosidase (alpha-Gal) and the accumulation of glycosphingolipid (e.g. predominantly globotriaosylceramide) in various tissues, mainly in lysosomes of the vascular endothelium. This disorder is currently classified into two clinical phenotypes; classical severe type and atypical variant type. Classical form patients, with clinical manifestations of generalized angiopathy of early onset, usually show no detectable alpha-Gal activity. Recently, there are also atypical form patients with residual alpha-Gal activity and late-onset cardiomyopathy without other systemic manifestations. So far, we identified a number of alpha-Gal gene mutations including partial gene deletions, splicing mutations, nonsense mutations and missense mutations. They were heterogeneous and more than half of them were missense mutations. To clarify the molecular mechanism causing the enzyme defect in the patient, various missense mutations were expressed in COS-1 cells. At least, two groups have been identified; one expressing a mutant enzyme without catalytic activity (non-functional type), and the other expressing catalytically active but unstable mutant enzyme (fragile type). The fragile type mutants were widely present in the different clinical phenotypes from classical severe type to atypical milder type including subclinical Fabry hemizygote, and the mutant enzymes were posttranslationally inactivated and degraded in the cells. The inactivation and degradation were prevented by the addition of substrate analogue; galactose or melibiose. These findings provided us with significant informations on the molecular pathology of the enzyme defect in Fabry disease, and suggested the possibility of a new therapeutic approach for this disease.
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PMID:[alpha-Galactosidase gene mutation and its expression product in Fabry disease (alpha-galactosidase deficiency)]. 912 Sep 96

Fabry disease is an inborn error of glycosphingolipid catabolism, resulting from deficient activity of lysosomal alpha-galactosidase A (alpha-Gal A). A rare alternative splicing that introduces a 57-nucleotide (nt) intronic sequence to the alpha-Gal A transcript from intron 4 of the gene has been identified. In addition, a novel midintronic base substitution that results in substantially increased alternative splicing has been identified in a patient with Fabry disease who has the cardiac variant phenotype. The sequence of the patient's intron 4 contains a single G-->A transversion at genomic nt 9331 (IVS4+919 G-->A ), located at the minus sign4 position of the 3' end of the intronic insertion (nts 9278--9334 in the genomic sequence). Minigene constructs containing the entire intron 4 sequence with G, A, C, or T at nt 9331 within an alpha-Gal A complementary DNA expression vector were prepared and expressed in COS-1 cells. Whereas transfection of the G or T minigenes transcribed predominantly normal-sized transcripts, the transfection of the A or C minigenes produced a large amount of the alternatively spliced transcript. These results suggest that the G-->A mutation, within an A/C-rich domain, results in increased recognition of the alternative splicing by an A/C-rich enhancer-type exonic splicing enhancer. The intronic mutation was not observed in 100 unrelated unaffected men but was present in 6 unrelated patients with cardiac Fabry disease. Reverse-transcriptase polymerase chain reaction of total RNA of various normal human tissues revealed that the alternatively spliced transcript was present in all of the samples, and especially at a higher ratio in the lung and muscle. The normal transcript was present in the patients' lymphoblasts and resulted in approximately 10% residual enzyme activity, leading to a cardiac phenotype of Fabry disease.
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PMID:Alternative splicing in the alpha-galactosidase A gene: increased exon inclusion results in the Fabry cardiac phenotype. 1182 41

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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