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 is an X-linked recessive disorder caused by a deficiency of the lysosomal hydrolase alpha-galactosidase A (alpha-gal). The deficiency of this enzyme leads to the systemic deposition of ceramide trihexoside (CTH) in various tissues and organs. Enzyme replacement using IV doses of recombinant human alpha-gal produced in CHO cells or in human fibroblasts is currently being evaluated in clinical trials as a potential therapy for this disease. However, it requires lifelong therapy involving a large amount of purified alpha-gal. As a novel approach for treatment of Fabry disease we used polymer encapsulated Chinese hamster ovary (CHO) cells genetically modified to express alpha-gal. The secreted high levels of alpha-gal passed through the semipermeable polymeric membrane. Using coculture system with Fabry fibroblasts, the secreted enzyme was taken up in cells, resulting in reduced accumulation of CTH in Fabry fibroblasts. This in vitro study demonstrated that an encapsulated alpha-gal-secreting cell line can be used to treat Fabry mice by transplantation in vivo. Judging from the protection against immune rejection by a semipermeable synthetic membrane, this novel approach may be applied to treat patients with Fabry disease and other lysosomal storage diseases.
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PMID:In vitro study of encapsulation therapy for Fabry disease using genetically engineered CHO cell line. 1216 73

The nature of the molecular lesions in the alpha-galactosidase A (alpha-Gal A) gene causing Fabry disease was determined in 50 unrelated families with the classic phenotype of this X-linked recessive lysosomal storage disease. Genomic DNA was isolated from affected males or obligate carrier females, and the entire alpha-Gal A coding region as well as the flanking and intronic sequences were analyzed by PCR amplification and automated sequencing. Forty-five new mutations were identified including 38 single base substitutions (32 missense and four nonsense) and nine gene rearrangements: MIR, M42T, G43D, G43V, H46Y, F50C, L68F, G132R, T141I, Y152X, K168R, G183S, V199M, P205R, Y207S, Q221X, C223R, C223Y, D234Y, G271C, A288P, P293A, R301G, I303N, I317T, E341D, P362L, R363C, R363H, G373D, I384N, T385P, Q396X, E398K, S401X, P409A, g7325insC, g7384del13, g8341delG, g8391del4/ins3, g10511delTAGT, g10704delACAG, g11019insG, g11021insG, and g11048delAGG. In the remaining five Fabry families, four previously reported mutations were detected (W81X, R112C, g11011delTC, and g11050delGAG) of which the R112C substitution was found in two families who were unrelated by haplotyping. These studies further define the heterogeneity of mutations in the alpha-Gal A gene causing the classical Fabry disease phenotype, and permit precise carrier detection and prenatal diagnosis in these families.
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PMID:Fabry disease: 45 novel mutations in the alpha-galactosidase A gene causing the classical phenotype. 1217 77

Gaucher and Fabry's diseases are lysosomal storage disorders. They are due to glucocerebrosidase or alpha galactosidase deficiency, respectively. Gaucher disease, transmitted as an autosomal recessive trait, is frequent among Ashkenazi Jews. Cloning of the gene has allowed the characterization of few common mutations. Some of them have a prognosis value, in favour of either a non neurological form (type 1) or more severe forms (types 2 and 3). There mutations were found in 70% of the alleles, the other alleles carrying private mutations. Fabry disease is transmitted as an X-linked recessive trait. Genetic counselling in at-risk families relies on the detection of carrier females. As the alpha galactosidase gene shows various mutations, the establishment of phenotype-genotype correlations is limited. These two diseases, well defined at the biochemical and genetic level, are good models of inherited diseases for the development of specific therapies.
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PMID:[Gaucher's and Fabry's diseases: biochemical and genetic aspects]. 1236 Jul 42

Fabry disease is an X-linked recessive disease with a reduction of lysosomal alpha galactosidase A and consecutive storage of glycolipids e.g., in the brain, kidney, skin, and nerve fibers. Cardinal neurologic findings are hypohidrosis, painful episodes, and peripheral neuropathy. So far, the neurophysiological findings regarding the extent of large and small fiber dysfunction are contradictory. This study evaluated large and small nerve fiber function in a homogeneous group of Fabry patients. In 24 of 30 Fabry patients with creatinine below 194.7 mmol/L the authors assessed median, ulnar, and peroneal motor conduction velocity (MCV) and median, ulnar, and sural sensory conduction velocity (SCV) nerve conduction to study the function of thickly myelinated nerve fibers. In addition, the authors studied sympathetic skin responses (SSR) at both hands and feet in 24 patients. To evaluate A beta nerve fiber function, the authors determined vibratory detection thresholds (VDT) at the first toe in 30 patients. Function of A delta and C fibers was assessed by quantitative sensory testing of cold detection threshold (CDT) and heat-pain detection thresholds (HPDT). Nerve conduction studies showed significantly decreased amplitudes of MCVs and SCVs in Fabry patients as compared to controls. However, individual results of MCV and SCV studies were only mildly impaired. SSRs were present in all tested patients but SSR amplitudes were significantly decreased in Fabry patients in comparison to controls. VDT, CDT, and HPDT were significantly elevated in Fabry patients as compared to controls. However, only six patients had pathologic VDT, 19 had increased CDT, and 25 had elevated HPDT at a high level of stimulation. In Fabry patients, small fiber dysfunction is more prominent than large fiber dysfunction, confirming previous findings of sural nerve biopsies. The results suggest a higher vulnerability of small-diameter nerve fibers than of the thickly myelinated fibers.
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PMID:Small fiber dysfunction predominates in Fabry neuropathy. 1248 89

Fabry disease is an X-linked recessive lysosomal storage disorder with variable phenotype characterized by the accumulation of glycosphingolipid in various tissues. Unlike patients with the classical systemic Fabry disease entity, who present with multiple organ involvement, patients with a cardiac variant of Fabry disease are characterized mainly by myocardial hypertrophy. Therefore, the cardiac variant of Fabry disease may be defined as a cardiomyocytic storage disorder, thus, mimicking the clinical features of hypertrophic obstructive and especially non-obstructive cardiomyopathy. In patients with unexplained left ventricular hypertrophy the diagnosis of a cardiac variant of Fabry disease is performed by light- and electron microscopic evaluation of endomyocardial catheter biopsy specimens and/or serologic investigations (decreased activity of alpha-galactosidase A in plasma or leucocytes). Several studies show that between 4% and 8% of unselected patients with the clinical features of hypertrophic non-obstructive cardiomyopathy have a cardiac variant of Fabry disease. In each patient with unexplained myocardial hypertrophy concealed myocardial storage disease, especially cardiac Fabry disease has to be considered and should be ruled out or confirmed by endomyocardial catheter biopsy. This is important because of the recently reported alpha-galactosidase A enzyme replacement therapy in Fabry disease. Randomized, multicenter studies are mandatory to test the hypothesis that enzyme replacement therapy leads to a beneficial clinical effect in the cardiac variant form of Fabry disease and may prevent the progression of the disease in asymptomatic patients.
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PMID:Fabry disease in patients with hypertrophic cardiomyopathy (HCM). 1249 Sep 89

Fabry disease is an X-linked recessive lysosomal storage disorder caused by a partial or complete deficiency of alpha-galactosidase A. Intracellular accumulation of globotriaosylceramide, the glycolipid substrate of this enzyme, leads to severe painful neuropathy with progressive renal, cardiovascular, and cerebrovascular dysfunction and early death. Men are predominantly affected but many female carriers have similar clinical involvement, including increased risk of stroke. Physical stigmata, such as angiokeratomas in skin and mucous membranes and characteristic benign corneal abnormalities, facilitate identification of Fabry disease. The finding of a marked decreased activity of (alpha-galactosidase A in plasma, white blood cells or cultured skin fibroblasts confirms the diagnosis. Treatment thus far has been symptomatic only. Etiology-based therapies are being developed that include enzyme replacement therapy, gene therapy, and substrate deprivation. The recently completed double-blind, placebo-controlled trials of intravenous infusions of (alpha-galactosidase A in patients with Fabry disease demonstrated the safety and efficacy of this treatment. We report a family with Fabry disease composed of hemicygous and heterocygous. The propositus developed chronic renal failure and received a cadaver renal transplant, which remained with adequate renal function during 15 years.
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PMID:[Fabry disease: clinic and enzymatic diagnosis of homozygous and heterozygous. New therapeutic prospects]. 1251 87

Fabry disease (alpha-galactosidase A deficiency) is an X-linked recessive lysosomal storage disorder. Although the disease presents in childhood and culminates in cardiac, cerebrovascular, and end-stage renal disease, diagnosis is often delayed or missed. This paper reviews the key signs and symptoms of Fabry disease and provides expert recommendations for diagnosis, follow-up, medical management, and the use of enzyme replacement therapy. Recommendations are based on reviews of the literature on Fabry disease, results of recent clinical trials, and expertise of the authors, all of whom have extensive clinical experience with Fabry disease and lysosomal storage disorders and represent subspecialties involved in treatment. All males and female carriers affected with Fabry disease should be followed closely, regardless of symptoms or treatment status. Clinical trials have shown that recombinant human alpha-galactosidase A replacement therapy--the only disease-specific therapy currently available for Fabry disease--is safe and can reverse substrate storage in the lysosome, the pathophysiologic basis of the disease. Enzyme replacement therapy in all males with Fabry disease (including those with end-stage renal disease) and female carriers with substantial disease manifestations should be initiated as early as possible. Additional experience is needed before more specific recommendations can be made on optimal dosing regimens for reversal; maintenance; and prevention of disease manifestations in affected males, symptomatic carrier females, children, and patients with compromised renal function.
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PMID:Fabry disease, an under-recognized multisystemic disorder: expert recommendations for diagnosis, management, and enzyme replacement therapy. 1258 33

Fabry disease is an X-linked recessive inborn metabolic disorder characterized by systemic and vascular accumulation of globotriaosylceramide (Gb(3)) caused by a deficiency of the lysosomal enzyme alpha-galactosidase A (alpha-gal A). The condition is associated with an increased morbidity and mortality due to renal failure, cardiac disease, and early onset of stroke. Hemizygous males are primarily affected clinically with variable expression in heterozygous females. Gene-therapy trials have been initiated recently in alpha-gal A knockout mouse models of Fabry disease by using a variety of viral vectors. In the present investigation we administered single i.v. injections of 1 x 10(10) genomes of recombinant adeno-associated virus (rAAV) encoding the human alpha-gal A gene driven by a modified chicken beta-actin (CAG) promoter to alpha-gal A knockout (Fabry) mice. Transgenic mice were analyzed for expression of alpha-gal A activity and Gb(3) levels in liver, kidney, heart, spleen, small intestine, lung, and brain. Administration of the rAAV-CAG-hAGA vector resulted in stable expression of alpha-gal A in organs of the Fabry mice for >6 months. alpha-Gal A activity in the organs became equal to or higher than that of wild-type mice. Accumulated Gb(3) in the liver, heart, and spleen was reduced to that of wild-type mice with lesser but significant reductions in kidney, lung, and small intestine. Injection of the rAAV-CAG-hAGA construct into skeletal muscle did not result in expression of alpha-gal A in it or in other tissues. This study provides a basis for a simple and efficient gene-therapy approach for patients with Fabry disease and is indicative of its potential for the treatment of other lysosomal storage disorders.
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PMID:Long-term correction of globotriaosylceramide storage in Fabry mice by recombinant adeno-associated virus-mediated gene transfer. 1262 85

Mutations in the gene that encodes the lysosomal exoglycohydrolase, alpha-galactosidase A (alpha-GalA), cause Fabry disease, an X-linked recessive inborn error of glycosphingolipid catabolism. Human alpha-GalA is one of the rare mammalian genes that has its polyadenylation signal in the coding sequence and lacks a 3' untranslated region (UTR). We identified two novel frameshift mutations, 1277delAA (del2) and 1284delACTT (del4), in unrelated men with classical Fabry disease. Both mutations occurred in the 3' terminus of the coding region and obliterated the termination codon, and del2 also altered the polyadenylation signal. To characterize these mutations, 3' rapid amplification of cDNA ends (RACE) and polymerase chain reactions (PCR) were performed, and the amplicons were subcloned and sequenced. Both mutations generated multiple transcripts with various lengths of 3' terminal sequences, some elongating approximately 1 kb. Mutant transcripts were classified as follows: type I transcripts had terminal in-frame thymidines that created termination codons when polyadenylated, type II had downstream termination codons within the elongated alpha-GalA sequence, and type III, the most abundant, lacked termination codons at their 3' ends. To determine if the type III transcripts were degraded by the recently described cytosolic messenger RNA degradation pathway for messages lacking termination codons, northern blot analysis was performed. However, the finding of similar levels of nuclear and cytoplasmic alpha-GalA mRNA in normal and patient lymphoblasts suggested that mRNA degradation did not result from either mutation. Expression of representative transcript types revealed differences in intracellular localization and/or protein stability and catalytic activity, with most mutant proteins being nonfunctional. Characterization of these 3' mutations identified a novel molecular mechanism causing classical Fabry disease.
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PMID:Fabry disease: novel alpha-galactosidase A 3'-terminal mutations result in multiple transcripts due to aberrant 3'-end formation. 1279 53

Incidental findings of rare diseases in organ donors can be seen in allograft biopsies that may have profound implications for the recipient and for the donor and their family. Fabry disease is an X-linked recessive lipid storage disease with cardiovascular, renal and lenticular abnormalities. Phenotypic expression in female heterozygote carriers depends on lyonization. Minimal data exists on outcomes of transplanted kidneys from carriers of Fabry disease. We report a patient with ESRD secondary to focal sclerosis who received a HLA-identical transplant from her sister whose pretransplant donor work up was completely negative. Post-transplant, while pregnant, the recipient developed increasing proteinuria and was biopsied. The biopsy showed extensive myelin figures consistent with Fabry disease. Subsequent genetic, enzymatic and pedigree analysis confirmed the diagnosis in the recipient, the donor and the donor's son. Two years post-transplant the patient continues to have non-nephrotic range proteinuria with normal serum creatinine.
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PMID:Fabry disease in a renal allograft. 1285 41


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