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

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

Blood groups B and P1 are substrates for the lysosomal enzyme alpha-galactosidase A. Therefore, patients with alpha-Gal A deficiency and blood groups B or P1 may exhibit more severe disease. In 48 Fabry patients distribution of blood group was not different from that in the Dutch population. No patient had blood group B. Clinical symptoms did not differ between bloodgroup P1 or P2 patients. We conclude that blood groups B and P1 are not overrepresented in Dutch Fabry patients. Blood group P1 is not correlated with more severe disease and cannot be considered a significant risk factor.
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PMID:Blood group does not correlate with disease severity in patients with Fabry disease (alpha-galactosidase A deficiency). 1463 46

Fabry disease, an X-linked recessive lysosomal storage disease, results from the deficient activity of the exogalactosidase, alpha-galactosidase A (alpha-Gal A). To date, over 270 disease-causing mutations have been identified; however, no coding sequence variants have been reported. In the course of enzyme diagnostic testing, a normal female control had low plasma and leukocyte alpha-Gal A activities. Sequencing her alpha-Gal A gene revealed the D313Y substitution (GAT to TAT at cDNA nucleotide 937). alpha-Gal A mutation and enzyme analyses of family members revealed X-linked transmission and leukocyte alpha-Gal A enzymatic activities in females, consistent with Lyonization. Since D313Y was reported in a classically affected male who had the double mutation, D313Y and G411D, efforts were undertaken to characterize these lesions. Expression of D313Y, G411D, and the doubly mutated construct, D313Y/G411D, resulted in alpha-Gal A levels of 76, 2.9, and 1.7% of mean expressed wild-type activity, respectively. Biosynthetic studies revealed essentially normal processing of the D313Y subunit, but the absence of the mature subunit encoded by the G411D and D313Y/G411D constructs. Thus, G411D is the disease-causing mutation, while D313Y is the first coding sequence variant identified in the human alpha-Gal A gene.
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PMID:Fabry disease: D313Y is an alpha-galactosidase A sequence variant that causes pseudodeficient activity in plasma. 1468 Sep 77

Alpha-N-acetylgalactosaminidase (alpha-NAGA) deficiency (Schindler/Kanzaki disease) is a clinically and pathologically heterogeneous genetic disease with a wide spectrum including an early onset neuroaxonal dystrophy (Schindler disease) and late onset angiokeratoma corporis diffusum (Kanzaki disease). In alpha-NAGA deficiency, there are discrepancies between the genotype and phenotype, and also between urinary excretion products (sialyl glycoconjugates) and a theoretical accumulated material (Tn-antigen; Gal NAcalpha1-O-Ser/Thr) resulting from a defect in alpha-NAGA. As for the former issue, previously reported genetic, biochemical and pathological data raise the question whether or not E325K mutation found in Schindler disease patients really leads to the severe phenotype of alpha-NAGA deficiency. The latter issue leads to the question of whether alpha-NAGA deficiency is associated with the basic pathogenesis of this disease. To clarify the pathogenesis of this disease, we performed structural and immunocytochemical studies. The structure of human alpha-NAGA deduced on homology modeling is composed of two domains, domain I, including the active site, and domain II. R329W/Q, identified in patients with Kanzaki disease have been deduced to cause drastic changes at the interface between domains I and II. The structural change caused by E325K found in patients with Schindler disease is localized on the N-terminal side of the tenth beta-strand in domain II and is smaller than those caused by R329W/Q. Immunocytochemical analysis revealed that the main lysosomal accumulated material in cultured fibroblasts from patients with Kanzaki disease is Tn-antigen. These data suggest that a prototype of alpha-NAGA deficiency in Kanzaki disease and factors other than the defect of alpha-NAGA may contribute to severe neurological disorders, and Kanzaki disease is thought to be caused by a single enzyme deficiency.
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PMID:Structural and immunocytochemical studies on alpha-N-acetylgalactosaminidase deficiency (Schindler/Kanzaki disease). 1468 26

In men with classical Fabry disease (alpha-galactosidase A [alpha-Gal A] deficiency), kidney failure occurs as early as the second decade of life. In contrast, men with the mild "cardiac variant" have late-onset cardiac involvement and proteinuria but usually do not have renal failure. To investigate the nature of renal involvement in the cardiac variant of Fabry disease, the renal function and morphology were assessed in a 75-year-old affected man. He had mild congestive heart failure, a reduced left ventricular ejection fraction, and hypercholesterolemia but lacked the classical Fabry disease manifestations, including angiokeratoma, acroparesthesias, corneal and lenticular opacities, and hypohidrosis. At age 75 years, he had significant proteinuria, and mildly decreased renal function (serum creatinine, 1.8 mg/dL [159 micromol/L]), presumably secondary to hypertensive arteriosclerosis. He had about 4% residual alpha-Gal A activity in leukocytes, and mutation analysis identified the N215S missense mutation, the common lesion in cardiac variants. Histologic and ultrastructural studies of kidney tissue showed that lysosomal glycosphingolipid deposition was extensive in podocytes, rare in tubular epithelial cells, and absent in mesangial, interstitial, and vascular endothelial and smooth muscle cells. This cardiac variant serves as an "experiment of nature" showing that the residual alpha-Gal A activity precludes glycosphingolipid deposition in the renal endothelial and other cells that lead to early renal failure in classically affected men, whereas marked podocyte accumulation is associated with proteinuria and possibly late-onset renal dysfunction. These findings have important implications for the renal effectiveness of enzyme replacement therapy in classically affected patients and for the aggressive treatment of proteinuria in Fabry disease.
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PMID:Fabry disease: renal involvement limited to podocyte pathology and proteinuria in a septuagenarian cardiac variant. Pathologic and therapeutic implications. 1471 41

Following the diagnosis of Fabry disease in a 45-year-old male, in 31 family members alpha-galactosidase A (alpha-Gal) activity in leucocytes was measured and mutation analysis of the alpha-Gal gene was performed. In the proband, the unique mutation A10523G/N272S in exon 6 was found, which was subsequently detected in seven males (of which one twin) and 10 female subjects. All males showed decreased to absent alpha-Gal A activity in leucocytes, but three out of 10 female subjects had alpha-Gal A activities within normal range. Although all male patients had symptoms of classical Fabry disease, such as acroparesthesias, hypohydrosis and heat-intolerance, there was considerable variability in organ involvement, especially in deterioration of renal function. Detailed studies of large families with Fabry disease may give insight into factors that influence the phenotype of this disorder.
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PMID:Remarkable variability in renal disease in a large Slovenian family with Fabry disease. 1516 24

Fabry's disease is an X-linked inborn error of glycosphingolipid catabolism, resulting from a deficiency in alpha-galactosidase A (alpha-Gal A). A 56-year-old Japanese woman was at first suspected of having hypertrophic cardiomyopathy. The patient and her son had alpha-Gal A activity in leukocytes that was remarkably below the limit of controls. DNA analysis of the alpha-Gal A gene revealed a novel missense mutation at codon 19 in exon 1, resulting in leucine-to-proline substitution. As a result she was confirmed as a classic Fabry heterozygote. Recent advances in enzyme replacement therapy can reverse the storage of glycosphingolipids in Fabry's disease. Thus, in patients with cardiac hypertrophy, it is important to differentiate Fabry's disease from other causes of hypertrophy. Therefore, it is necessary to measure alpha-Gal A activity in all suspected cases and to analyze genetic abnormalities in heterozygotes.
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PMID:Fabry disease female proband with clinical manifestations similar to hypertrophic cardiomyopathy. 1535 80

The lysosomal enzyme alpha-galactosidase A (alpha-Gal A) metabolizes neutral glycosphingolipids that possess alpha-galactoside residues at the non-reducing terminus, and inherited defects in the activity of alpha-Gal A lead to Fabry disease. We describe here an efficient and rapid purification procedure for recombinant alpha-Gal A by sequential Concanavalin A (Con A)-Sepharose and immobilized thio-alpha-galactoside (thio-Gal) agarose column chromatography. Optimal elution conditions for both columns were obtained using overexpressed human alpha-Gal A. We recommend the use of a mixture of 0.9 M methyl alpha-mannoside and 0.9 M methyl alpha-glucoside in 0.1 M acetate buffer (pH 6.0) with 0.1 M NaCl for the maximum recovery of glycoproteins with multiple high-mannose type sugar chains from Con A column chromatography, and that the Con A column should not be reused for the purification of glycoproteins that are used for structural studies. Binding of the enzyme to the thio-Gal column requires acidic condition at pH 4.8. A galactose-containing buffer (25 mM citrate-phosphate buffer, pH 5.5, with 0.1 M galactose, and 0.1 M NaCl) was used to elute alpha-Gal A. This procedure is especially useful for the purification of mutant forms of alpha-Gal A, which are not stable under conventional purification techniques. A protocol that purifies an intracellular mutant alpha-Gal A (M279I) expressed in COS-7 cells within 6h at 62% overall yield is presented.
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PMID:Efficient and rapid purification of recombinant human alpha-galactosidase A by affinity column chromatography. 1535 77

Fabry's disease is a rare X-linked recessive disorder resulting from deficient lysosomal enzyme, alpha-galactosidase A (alpha-Gal A) activity. The deficiency leads to progressive glycosphingolipid globotriaosylceramide (Gb3) accumulation in fluids and tissues, including vascular endothelium, connective tissue, kidney, heart, brain and peripheral nerves. Classic Fabry's disease in hemizygous males has high morbidity and mortality due to end-stage renal disease (ESRD) requiring hemodialysis (HD) or kidney transplantation, myocardial involvement and central nervous system (CNS) complications. Most heterozygous females can also suffer from this severe disease deterioration. Until recently, Fabry's disease management consisted of symptomatic and palliative treatment, but this has changed with the availability of the recombinant human alpha-Gal A enzyme, agalsidase. Two different agalsidase formulations have been obtained: one from human fibroblast (agalsidase alpha), and one from Chinese hamster ovary (CHO) cells (agalsidase beta). Both preparations underwent clinical trials that documented the feasibility, efficacy and safety of the treatment. In addition, several clinical observations have proved that agalsidase reduces the storage of the substrate from several organs and tissues and, consequently, improves signs and symptoms of Fabry's disease. Additional clinical experiences have confirmed the initial clinical trial results, but further studies are needed to evaluate the long-term outcome of enzyme replacement therapy (ERT). We reviewed the clinical trial observations, as well as subsequent clinical experiences with ERT in patients with Fabry's disease.
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PMID:Enzyme replacement therapy in Fabry's disease: recent advances and clinical applications. 1536 54

Fabry disease is an inherited deficiency of the lysosomal hydrolase alpha-galactosidase A (alpha GalA) due to mutations in the Gal gene at Xq22. The result is intralysosomal accumulation of glycosphingolipids. In males who carry the mutation (1/40,000), severe multisystem disease develops in childhood or adolescence. Attacks of acute pain lasting a few minutes to a few days occur in the hands and feet, joints, muscles, and abdomen, sometimes with a fever. Highly suggestive skin lesions called angiokeratomas develop, as well as cornea verticillata characterized by corneal deposits without visual impairment. Stroke, seizures, heart disorders (conduction disturbances, valve disease, and left heart failure) and kidney disorders (proteinuria and chronic renal failure) develop in the third or fourth decade of life. Women who are heterozygous for the Gal gene can transmit the disease to their sons but are usually free of symptoms, although many have cornea verticillata. However, they may have moderate or severe disease related to uneven chromosome X inactivation. Late-onset variants with predominant neurological, cardiac, or renal manifestations have been described. The diagnosis is difficult when the family history is negative for Fabry disease. Tests on plasma and leukocytes show very low levels of alpha GalA activity in affected men, confirming the diagnosis. The Gal gene mutation should be looked for to detect heterozygous women. Symptomatic treatments include analgesics, antihypertensives, antiplatelet agents or anticoagulants to treat ischemic events, and hemodialysis or kidney transplantation to treat chronic renal failure. The recent introduction of enzyme replacement therapy with recombinant agalsidase alpha or beta has been a major breakthrough in the treatment of Fabry disease. Enzyme replacement therapy relieves the pain and decreases the risk of complications. The safety profile is good. Given the high cost of agalsidase therapy (about 160,000 euro/year/patient) and the low incidence of Fabry disease, patients should be referred to highly specialized centers (see addresses on the France Orphanet web site).
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PMID:Fabry disease: a review. 1547 88


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