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)

Anderson-Fabry disease (AFd) is a rare, inherited, x-linked disease characterized by the deficiency of the lysosomal enzymatic alpha-galactosidase A activity (alpha-Gal-A). The enzyme defect leads to progressive accumulation of glycosphingolipids (GL) in all kinds of cells, tissues, organs, and body fluids. The clinical manifestations are very protean, the residual activity of alpha-Gal-A and/or different gene mutations might explain different phenotypes, but as yet these concepts have not been proven. Usually, patients with AFd show 3 clinical phases, more evident in men than in heterozygous women. The first phase (childhood and adolescence) is characterized by myalgia, arthralgia, acroparesthesia, fever, cutaneous angiokeratomas, and corneal opacities. The second phase is characterized mainly by renal involvement. In the third phase, severe renal impairment and involvement of cerebrovascular and cardiovascular systems are present. The progression to end-stage renal disease (ESRD) is common in hemizygous males (3rd-5th decade of life); usually, death occurs because of cerebral and/or cardiovascular complications in patients undergoing chronic dialysis therapies. The survival of patients with AFd in dialysis is better than in diabetic patients, but it clearly is decreased compared with uremic patients with other nephropathies, despite a lower mean age of uremia (50 versus 60 y). The outcome of kidney transplantation is similar to that found in other patients with ESRD, despite controversial issues published in the past. The use of a kidney donor with normal alpha-Gal-A activity in the control of the metabolic systemic disease is unproven. The recurrence of GL deposits in the kidney graft has been documented rarely. The definitive treatment for AFd is enzyme replacement therapy with purified alpha-Gal-A produced by a genetically engineered human cell line or Chinese hamster oocytes: relatively short-term studies have shown a significant treatment effect on clinical outcome measures.
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PMID:Chronic renal failure, dialysis, and renal transplantation in Anderson-Fabry disease. 1549 Apr 23

Fabry disease is an inborn error of glycosphingolipid metabolism caused by the deficiency of lysosomal alpha-galactosidase A (alpha-Gal A). We have established transgenic mice that exclusively express human mutant alpha-Gal A (R301Q) in an alpha-Gal A knock-out background (TgM/KO mice). This serves as a biochemical model to study and evaluate active-site specific chaperone (ASSC) therapy for Fabry disease, which is specific for those missense mutations that cause misfolding of alpha-Gal A. The alpha-Gal A activities in the heart, kidney, spleen, and liver of homozygous TgM/KO mice were 52.6, 9.9, 29.6 and 44.4 unit/mg protein, respectively, corresponding to 16.4-, 0.8-, 0.6- and 1.4-fold of the endogenous enzyme activities in the same tissues of non-transgenic mice with a similar genetic background. Oral administration of 1-deoxygalactonojirimycin (DGJ), a competitive inhibitor of alpha-Gal A and an effective ASSC for Fabry disease, at 0.05 mM in the drinking water of the mice for 2 weeks resulted in 13.8-, 3.3-, 3.9-, and 2.6-fold increases in enzyme activities in the heart, kidney, spleen and liver, respectively. No accumulation of globotriaosylceramide, a natural substrate of alpha-Gal A, could be detected in the heart of TgM/KO mice after DGJ treatment, indicating that degradation of the glycolipid in the heart was not inhibited by DGJ at that dosage. The alpha-Gal A activity in homozygous or heterozygous fibroblasts established from TgM/KO mice (TMK cells) was approximately 39 and 20 unit/mg protein, respectively. These TgM/KO mice and TMK cells are useful tools for studying the mechanism of ASSC therapy, and for screening ASSCs for Fabry disease.
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PMID:Transgenic mouse expressing human mutant alpha-galactosidase A in an endogenous enzyme deficient background: a biochemical animal model for studying active-site specific chaperone therapy for Fabry disease. 1551 32

Mutations in the alpha-galactosidase A (alpha-Gal A, GLA) gene cause Fabry disease, an X-linked recessive lysosomal storage disease. The majority of mutations are private, and confirmation of carrier status in females requires the definitive identification of a DNA mutation. In addition, knowledge of a family's mutation enables rapid and precise preimplantation and prenatal genetic testing. Here we report the development and use of DHPLC to rapidly and cost-effectively screen for alpha-Gal A mutations. Optimal DHPLC partial denaturing conditions for mutation detection were established for each PCR amplicon corresponding to the seven alpha-Gal A exons and their adjacent intronic/flanking sequences. At least five known mutations in each exon (45 in total) were screened by DHPLC to validate the method. Mutation detection was then performed in 14 affected males diagnosed by enzyme assay and 39 at-risk females, and the amplicons with abnormal DHPLC profiles were sequenced. In all affected males, and in 32 of the 39 at-risk females, four and 16 previously reported and 10 and 15 new mutations were identified, respectively. Sequencing all seven alpha-Gal A gene amplicons in the seven at-risk females who had normal DHPLC profiles excluded them as mutation carriers. Only one mutation (p.P362L) was not initially identified by its DHPLC profile, but in retrospect the profile was abnormal, emphasizing the need for experience in inspecting the profiles. In addition, this technique detected two new intronic polymorphisms, c.640-16A>G and c.1000-22C>T, with frequencies of 0.14 and 0.25 in both normal individuals and Fabry patients, respectively. This DHPLC method should improve the rapidity and cost-effectiveness of alpha-Gal A mutation identification in affected males and carrier females for Fabry disease.
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PMID:Detection of alpha-galactosidase a mutations causing Fabry disease by denaturing high performance liquid chromatography. 1571 28

Fabry disease is an under-recognized X-linked recessive lysosomal storage disorder resulting from the deficient activity of the enzyme alpha-galactosidase A (alpha-Gal A). The first case of Fabry disease in Slovenia was diagnosed in 1991. This 46 year-old male was referred for dermatologic evaluation of a purpura on his abdomen. He was being treated for proteinuria and cardiac symptoms. The diagnosis of angiokeratoma corporis diffusa (Fabry disease) was made clinically and confirmed by demonstration of the deficient leukocyte alpha-Gal A activity. The patient subsequently developed cerebrovascular symptoms, coronary disease, and renal failure, and died from a recurrent myocardial infarction. Family studies identified several other affected males and carrier female relatives with this X-linked recessive disorder. This case illustrates the typical multi-manifestations of this inherited disease which now can be safely and effectively treated by enzyme replacement therapy. Early diagnosis is important for the most effective treatment of this disease.
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PMID:Fabry disease. A case report. 1581 41

Globotriaosylceramide is a neutral glycolipid containing the trihexoside Gal(alpha1-4)Gal(ss1-4)Glc(ss1-1') covalently bound to N-acylsphingosine. It was identified as the main storage substance in the kidney of patients with Fabry disease, an X-linked deficiency of lysosomal alpha-galactosidase A which can significantly be ameliorated by enzyme replacement therapy. Unlike hemizygote males, affected heterozygote females cannot be identified by enzyme assays and therefore may remain untreated. A quantitation of urinary globotriaosylceramides was proposed as an alternative method for their diagnosis. However, the required studies on physiological and pathological variations in the excretion of trihexosides so far have been prevented by a lack of suitable methods. A validated, robust and quick high-throughput method for the quantitative analysis of globotriaosylceramide isoforms using stable-isotope-dilution/internal standardization and electrospray ionization mass spectrometry (ESI-MS) was developed. An internal standard, stearoyl-d35-globotriaosylceramide, was synthesized by enzymatic coupling of d35-stearic acid to the corresponding lyso-ceramidetrihexoside. Glycolipid isoforms of high purity were obtained from a 5-mL urine portion by extraction on C18 solid-phase columns and a novel washing protocol. ESI-MS analysis was performed in full and neutral loss scan modes. Urinary trihexosyl- and some of the di- and monohexosylceramide isoforms can be quantified within a single experiment. All glycolipid isoforms were above detection limit in healthy male and female subjects (n = 63). Prominent elevations of tetracosanoyl-(C24:0 plus C24:1)-globotriaosylceramides were found in urines from female (>2.5-fold above normals) or male Fabry patients (>5.8-fold above normals), but not among controls. Globotriaosylceramide isoforms shall now be analyzed in Fabry patients, non-genetic kidney disease and healthy subjects to define the conditions for a safe diagnosis of heterozygotes.
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PMID:Rapid determination of urinary globotriaosylceramide isoform profiles by electrospray ionization mass spectrometry using stearoyl-d35-globotriaosylceramide as internal standard. 1588 Jun 67

Fabry disease is an X-linked inherited loss of alpha-galactosidase A (alpha-Gal A). Affected patients experience complications that include neuropathy, renal failure, and cardiovascular disease. Although the genetic and biochemical basis of this sphingolipidosis is well studied, the basis for the vascular disease remains poorly understood. In an attempt to create a suitable in vitro model of this disease, conditions for the growth of primary cultures of aortic endothelial cells from wild-type and alpha-Gal A -/0 mice were established. The cultured cells demonstrated CD-31 expression by flow cytometry and LDL binding by immunofluorescence. The glycolipid expression patterns were compared between wild-type and alpha-Gal A null cells. Importantly, cells from alpha-Gal A -/0 mice but not alpha-Gal A +/0 mice expressed high levels of the globo-series glycosphingolipid globotriaosylceramide (Gb3). The age-dependent elevation in Gb3 was measured. By 4 mo of age, alpha-Gal A -/0 mouse aortic endothelial cells achieved their peak Gb3 levels. The ability to lower Gb3 levels pharmacologically was assessed next. The glucosylceramide synthase inhibitor ethylenedioxyphenyl-P4 significantly lowered but did not eliminate Gb3 levels by 96 h of treatment. Gb3 synthesis was completely blocked as measured by [14C]galactose labeling. Recombinant alpha-Gal A more significantly lowered Gb3 levels by 48 h but had a more limited effect on de novo synthesis. Together, both agents eliminated detectable Gb3. In summary, primary cultures of aortic endothelial cells from Fabry mice retain the phenotype of elevated globo-series glycosphingolipids. These cells provide a useful model for comparing pharmacologic agents used for glycolipid reduction.
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PMID:An in vitro model of Fabry disease. 1603 56

Fabry disease is a rare X-linked lysosomal storage disorder caused by deficient activity of alpha-galactosidase A (alpha-Gal A) resulting in the storage of glycosphingolipids, especially globotriaosylceramide (Gb3), in cells throughout the body, causing life-threatening renal, cardiac, and cerebrovascular complications in hemizygous males and some heterozygous females. Disease manifestations in heterozygotes are being recognized increasingly, but quantitative prospective data on their extent and severity are limited. Prospective clinical and laboratory assessments were performed in a 7-day study of 61 women with signs and symptoms of Fabry disease. Analyses included medical history and physical, neurologic, cardiac, and ophthalmologic assessments; laboratory assessments; renal function tests; magnetic resonance imaging (MRI) and magnetic resonance angiography (MRA) of the head; and Fabry-related blood and urine tests, including Gb3 levels in blood and urine, skin biopsies, and DNA genotype analysis of the alpha-Gal A gene to identify causative mutations. Quality of life, pain and concomitant medication were documented using validated questionnaires and diaries. All patients had normal Gb3 levels in plasma; only 1 patient had visible storage material in the superficial dermal vascular endothelial cells. Cardiac, renal, or cerebrovascular abnormalities were documented in 52 of the 57 patients (91%) with confirmed Fabry genotypes. These included electrocardiographic abnormalities in 38 of 52 patients (73%), echocardiographic abnormalities in 8 of 57 (14%), proteinuria (>150 g protein/24-h urine) in 23 of 38 (61%), low estimated glomerular filtration rate (<90 mL/min per 1.73 m) in 24 of 57 (42%), abnormal MRI in 4 of 54 (7%), and abnormal MRA in 10 of 50 patients (20%). Angiokeratomas and corneal epitheliopathy were documented in 63% and 82% of the 57 patients, respectively. Despite the virtual absence of storage material in plasma and skin vascular endothelial cells, this population of women with Fabry disease exhibited a wide spectrum of clinical abnormalities. Useful outcome measures for assessment of specific therapies need to be developed. Studies limited to homogeneously affected subjects may be possible.
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PMID:The relationship of vascular glycolipid storage to clinical manifestations of Fabry disease: a cross-sectional study of a large cohort of clinically affected heterozygous women. 1614 26

Fabry disease is a lysosomal storage disorder caused by deficiency of alpha-galactosidase A (alpha-Gal A) resulting in lysosomal accumulation of glycosphingolipid globotriosylceramide Gb3. Misfolded alpha-Gal A variants can have residual enzyme activity but are unstable. Their lysosomal trafficking is impaired because they are retained in the endoplasmic reticulum (ER) by quality control. Subinhibitory doses of the competitive inhibitor of alpha-Gal A, 1-deoxygalactonojirimycin (DGJ), stabilize mutant alpha-Gal A in vitro and correct the trafficking defect. We showed by immunolabeling that the chaperone-like action of DGJ significantly reduces the lysosomal Gb3 storage in human Fabry fibroblasts harboring the novel mutations T194I and V390fsX8. The specificity of the DGJ effect was proven by RNA interference. Electron microscopic morphometry demonstrated a reduction of large-size, disease-associated lysosomes and loss of characteristic multilamellar lysosomal inclusions on DGJ treatment. In addition, the pre-Golgi intermediates were decreased. However, the rough ER was not different between DGJ-treated and untreated cells. Pulse-chase experiments revealed that DGJ treatment resulted in maturation and stabilization of mutant alpha-Gal A. Genes involved in cell stress signaling, heat shock response, unfolded protein response, and ER-associated degradation show no apparent difference in expression between untreated and DGJ-treated fibroblasts. The DGJ treatment has no apparent cytotoxic effects. Thus our data show the usefulness of a pharmacological chaperone for correction of the lysosomal storage in Fabry fibroblasts harboring different mutations with residual enzyme activity. Pharmacological chaperones acting on misfolded, unstable mutant proteins that exhibit residual biological activity offer a convenient and cost-efficient therapeutic strategy.
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PMID:Pharmacological chaperone corrects lysosomal storage in Fabry disease caused by trafficking-incompetent variants. 1653 66

Fabry disease, an X-linked recessive inborn error of glycosphingolipid catabolism, results from the deficient activity of the lysosomal exoglycohydrolase, alpha-galactosidase A (EC 3.2.1.22; alpha-Gal A). The molecular lesions in the alpha-Gal A gene causing the classic phenotype of Fabry disease in 66 unrelated families were determined. In 49 families, 50 new mutations were identified, including: 29 missense mutations (N34K, T41I, D93V, R112S, L166G, G171D, M187T, S201Y, S201F, D234E, W236R, D264Y, M267R, V269M, G271S, G271V, S276G, Q283P, A285P, A285D, M290I, P293T, Q312H, Q321R, G328V, E338K, A348P, E358A, Q386P); nine nonsense mutations (C56X, E79X, K127X, Y151X, Y173X, L177X, W262X, Q306X, E338X); five splicing defects (IVS4-1G>A, IVS5-2A>G, IVS5+3A>G, IVS5+4A>G, IVS6-1G>C); four small deletions (18delA, 457delGAC, 567delG, 1096delACCAT); one small insertion (996insC); one 3.1 kilobase Alu-Alu deletion (which included exon 2); and one complex mutation (K374R, 1124delGAG). In 18 families, 17 previously reported mutations were identified, with R112C occurring in two families. In two classically affected families, affected males were identified with two mutations: one with two novel mutations, D264Y and V269M and the other with one novel (Q312H) and one previously reported (A143T) mutation. Transient expression of the individual mutations revealed that D264Y and Q312H were localised in the endoplasmic reticulum and had no detectable or markedly reduced activity, whereas V269M and A143T were localised in lysosomes and had approximately 10 per cent and approximately 35 per cent of expressed wild-type activity, respectively. Structural analyses based on the enzyme's three-dimensional structure predicted the effect of the 29 novel missense mutations on the mutant glycoprotein's structure. Of note, three novel mutations (approximately 10 per cent) were predicted not to significantly alter the glycoprotein's structure; however, they were disease causing. These studies further define the molecular heterogeneity of the alpha-Gal A mutations in classical Fabry disease, permit precise heterozygote detection and prenatal diagnosis, and provide insights into the structural alterations of the mutant enzymes that cause the classic phenotype.
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PMID:Fabry disease: identification of 50 novel alpha-galactosidase A mutations causing the classic phenotype and three-dimensional structural analysis of 29 missense mutations. 1659 74

Fabry disease is an X-linked lysosomal storage disorder caused by deficiency of the lysosomal enzyme alpha-galactosidase A. Manifestations of the disease in placental tissue have been reported only twice. We report for the first time on the biochemical, histological and genetic features of two cases: placenta A derived from a mother heterozygous for Fabry disease who gave birth to a hemizygous son, and placenta B obtained from a healthy mother who carried a heterozygous daughter. Biopsies of placentae A, B and of four healthy controls were taken directly after birth. Assessment of alpha-galactosidase A (alpha-Gal) activity was performed both in fetal leukocytes (derived from umbilical cord blood) and in the biopsy specimens. The tissue was further examined by electron microscopy, immunohistochemistry and biochemical analysis for the presence of storage material (ceramide trihexoside (CTH)). In placenta A, characteristic zebra bodies reflecting accumulated storage material were seen in all biopsies evaluated. CTH values were markedly elevated as compared to the controls and alpha-Gal activity in both fetal leukocytes and placental tissue was very low. Placenta B showed no storage material at all. CTH values were within the control range. alpha-Gal activity ranged from intermediate to near normal; enzyme activity in fetal leukocytes was significantly decreased. As placental tissue is mainly derived from fetal cells, we may conclude that, in a boy suffering from Fabry disease, extensive storage of CTH is already present at birth. As complications develop only around the age of 10 years, it may be not the CTH itself but secondary processes that cause cellular and organ damage.
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PMID:Manifestations of Fabry disease in placental tissue. 1660 76


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