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)

Two unrelated families with metachromatic leukodystrophy have been examined for the leukocyte enzyme arylsufatase A. The enzyme activities clearly reflect an autosomal recessive mode of inherence. All four parents showed heterozygote enzyme levels 40-60 percent of the control range while the two affected children had less than 20 percent normal activity. The two sibs of one affected child were shown to be heterozygote carriers. A simple screening method for sulfatase activity in tears has been developed which distinguished between metachromatic leukodystrophy patients and a control population which included other neurological disorders. Enzyme screening on tears may also be used to detect other lysosomal storage diseases including Tay-Sachs and Fabry disease.
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PMID:Enzymic detection of metachromatic leukodystrophy patients and heterozygotes. 2 8

1. Presentation of the commomly used procedures for the extraction and separation of total lipids, glycolipids and phosholipids from fresh and formalin-fixed organs tissues (brain, liver, spleen, kidney) as well as from serum, CSF and urine. II. Description of the qualitative and quantitative analysis of individual lipid fractions (glycolipids, gangliosides, phospholipids, neutral lipids) by thin-layer chromatograhy and photodensitometry. III. Results of investigations performed on biopsy material, autopsy material, serum and urine in the following diseases: 1. Infantile, juvenile and adult Gaucher's disease: accumulation of glucocerebroside in liver and spleen. 2. Infantile and adult Niemann-Pick disease: accumulation of sphingomyelin in liver, spleen, kidney and lung. 3. Fabry's disease: increased urinary excretion of trihexosyl-ceramide and dihexosyl-ceramide. 4. Infantile and adult metachromatic leukodystrophy: accumulation of sulfatides in the central and peripheral nervous system and kidney, increased urinary excretion of sulfatides. 5. Austin's variant of metachromatic leukodystrophy: besides an increase of sulfatides in the white matter of brain accumulation of glycolipids in the cerebral cortex. 6. Tay-Sachs disease (GM2-gangliosidosis): cerebral accumulation of GM2-ganglioside and trihexosylceramide (enzyme variant B), additional visceral accumulation (liver, spleen, kidney) of tetrahexosyl-ceramide = globoside (enzyme variant 0). 7. Infantile generalized GM1-gangliosidosis: cerebral (and visceral) accumulation of GM1-ganglioside and tetrahexosyl-ceramide. 8. Late infantile GM1-gangliosidosis: Cerebral accumulation of GM1-ganlioside and tetrahexosylceramide. 9. GM3-gangliosidosis (lactosyl-ceramidosis): neuronal accumulation of lactosyl-ceramide, GM2-ganglioside and GM3-ganglioside. 10. Refsum's disease: demonstration of phytanic acid esters of cholesterol in serum.
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PMID:[Differential diagnosis of congenital lipidoses by lipid analyses of body fluids, biopsy and autopsy tissue]. 5 74

An outline of the pathways of catabolism of four sphingolipids to ceramide, along with structural details of a few constituents, serves as a framework for better understanding of the sphingolipidoses. The four sphingolipids are sulfatide, sphingomyelin, globoside, and ganglioside GM1. Diseases which can be incorporated into the scheme include Niemann-Pick disease, Gaucher disease, metachromatic leukodystrophy, Krabbe disease, ceramide lactoside lipidosis, Tay-Sachs disease, generalized gangliosidosis, Fabry disease, and Sandhoff disease. Fucosidosis probably also belongs with this group. GM3 (hematoside) sphingolipodystrophy involves blocks in synthetic rather than catabolic pathways.
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PMID:The sphiningolipidoses: an overview. 40 52

The use of electron microscopy as a further method of diagnosis of disease in cultured skin fibroblasts and cultured amniotic fluid fibroblasts is presented. It was demonstrated that Tay-Sachs disease, Fabry's disease, and metachromatic leukodystrophy had distinctive abnormalities in both cultured skin fibroblasts and cultured amniotic fluid fibroblasts. It was shown that control of culturing conditions made it possible to distinguish normal cell lines from certain cell lines carrying known genetic diseases.
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PMID:Utilization of electron microscopy in the prenatal diagnosis of genetic disease. 40 24

Ultrastructural pathology on sweat gland epithelium was studied in various neurodegenerative disorders; neuronal ceroid-lipofuscinosis (NCL), Lafora disease, mucopolysaccharidosis, GM1 gangliosidosis, Nieman-Pick disease, Fabry disease, Krabbe disease and metachromatic leukodystrophy (MLD). Every disease had its own characteristic inclusions in sweat gland epithelium. Curvilinear profiles and fingerprint patterns were seen in NCL, but there were no morphological differences among late infantile, early juvenile and juvenile types. On the other hand, the granular matrix was characteristic of the infantile type. The presence of specific inclusions in a 23-year-old female carrier with Fabry disease indicated that a skin biopsy was one of the useful methods to detect a female carrier. In MLD and Krabbe disease, there were disease specific inclusions in sweat gland epithelium. These results indicate that the sweat glands should be investigated when a skin biopsy is performed for the diagnosis of neurodegenerative diseases.
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PMID:[Sweat gland pathology in neurodegenerative disorders]. 184 93

Saposins (A, B, C, and D) are small glycoproteins required for the hydrolysis of sphingolipids by specific lysosomal hydrolases. Concentrations of these saposins in brain, liver, and spleen from normal humans as well as patients with lysosomal storage disease were determined. A quantitative HPLC method was used for saposin A, C, and D and a stimulation assay was used for saposin B. In normal tissues, saposin D was the most abundant of the four saposins. Massive accumulations of saposins, especially saposin A (about 80-fold increase over normal), were found in brain of patients with Tay-Sachs disease or infantile Sandhoff disease. In spleen of adult patients with Gaucher disease, saposin A and D accumulations (60- and 17-fold, respectively, over normal) were higher than that of saposin C (about 16-fold over normal). Similar massive accumulations of saposins A and D were found in liver of patients with fucosidosis (about 70- and 20-fold, respectively, over normal). Saposin D was the primary saposin stored in the liver of a patient with Niemann-Pick disease (about 30-fold over normal). Moderate increases of saposins B and D were found in a patient with GM1 gangliosidosis. Normal or near normal levels of all saposins were found in patients with Krabbe disease, metachromatic leukodystrophy, Fabry disease, adrenoleukodystrophy, I-cell disease, mucopolysaccharidosis types 2 and 3B, or Jansky-Bielschowsky disease. The implications of the storage of saposins in these diseases are discussed.
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PMID:Distribution of saposin proteins (sphingolipid activator proteins) in lysosomal storage and other diseases. 211 Mar 65

This paper reports the ultrastructural findings for the epidermis of biopsied skin specimens in numerous lysosomal diseases, which can be grouped as follows: a) presence of vacuolar lysosomal residual bodies in mucopolysaccharidoses I, II and III, Salla disease, GM1-gangliosidoses and infantile type II glycogenosis; b) avacuolar lysosomal residual bodies in Niemann-Pick disease type C, mucolipidosis IV, Farber disease, Fabry disease, and late infantile and juvenile neuronal ceroid-lipofuscinoses; c) absence of lysosomal residual bodies in GM2-gangliosidoses, metachromatic leukodystrophy, Gaucher disease and sialidosis type III. Whenever possible, a biopsy of the skin for morphological diagnosis of lysosomal disorders ought not to be confined to the epidermis.
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PMID:Intraepidermal morphologic manifestations in lysosomal diseases. 255 41

For the purpose of evaluating electron microscopy of tissue culture in making the diagnosis of sphingolipidoses, an ultrastructural study was made on the cultured fibroblasts from 23 patients with the disorders. The characteristic cytoplasmic inclusions were observed in the cultured cells of Fabry disease, Tay-Sachs disease, Sandhoff disease, generalized gangliosidosis, Niemann-Pick disease, metachromatic leukodystrophy, and multiple sulfatase deficiency, and differ in fine structure with these diseases. All these cytoplasmic inclusions were surrounded by a single limiting membrane and enzyme cytochemically showed acid phosphatase activity, indicating their lysosomal origin. Ultrastructurally, the cytoplasmic inclusions showed pleomorphic osmiophilic inclusions in Fabry disease, membranous cytoplasmic bodies (MCB) in Tay-Sachs disease and Sandhoff disease, MCB and vacuolar inclusions containing finely reticulogranular materials in generalized gangliosidosis, myelin-like inclusions in Niemann-Pick disease, concentric lamellar inclusions in metachromatic leukodystrophy, and polymorphic cytoplasmic inclusions in multiple sulfatase deficiency. In the heterozygous carriers of Fabry disease, pleomorphic osmiophilic inclusions were also detected. However, any specific inclusions were not detectable in the cultured fibroblasts of Gaucher disease and Krabbe disease. Availability of electron microscopy in the cultured fibroblasts of sphingolipidoses is discussed.
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PMID:Lipid storage disease: Part III. Ultrastructural evaluation of cultured fibroblasts in sphingolipidoses. 303 47

Electron microscopic studies were performed on cultured fibroblasts from patients with metachromatic leukodystrophy, Fabry's, Gaucher's, Niemann-Pick's (Type A and C), Sanfilippo's (Type A and B) disease, chondroitin-4-sulfate mucopolysaccharidosis, lipofuscinosis (Spielmeyer-Vogt's disease) and ceroid-lipofuscinosis (Batten's disease with curvilinear bodies). Specific cytoplasmic inclusions with a limiting membrane were identified in Fabry's disease, Niemann-Pick syndrome, chondroitin-4-sulfate mucopolysaccharidosis and Sanfilippo's Type B disease. In Fabry's disease, the lipid inclusions tended to form stacks of parallel and concentric membranes. In Niemann-Pick syndrome, the lipid inclusions were made of wavy, loosely packed membranes. In chondroitin-4-sulfate mucopolysaccharidosis and Sanfilippo B, the lysosomes were enlarged and contained a reticular matrix with little electron-dense material. No specific ultrastructural changes were observed in Gaucher's, Sanfilippo's (Type A) disease, metachromatic leukodystrophy (sulfatidosis) and Batten's disease.
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PMID:Cultured skin fibroblasts in storage disorders. An analysis of ultrastructural features. 420 73

The eye provides unique opportunities for the detection, during life, of deposits of storage substances and other characteristic changes resulting from inborn metabolic defects. The cornea shows the macromolecular polysaccharides of Hurler's disease, the cystine crystals in cystinosis, and the copper deposits of Wilson's disease. The sclera shows characteristic pigmentation in alcaptonuria. The iris shows the lack of pigmentation in various types of albinism. The lens is cataractous in galactosemia and dislocated in homocystinuria. The vitreous is opacified in familial amyloidosis. The retina shows different and characteristic deposits with the diseases of Tay-Sachs, Niemann-Pick, metachromatic leukodystrophy, and Farber's lipogranulomatosis. The retinal veins show pronounced tortuosity with Fabry's disease. There is some evidence that optic neuropathy occurs in glucose-6-phosphate dehydrogenase deficiency. Curiously, few abnormalities in the eye have been described in subjects with the glycogen storage diseases.
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PMID:Ocular correlates of inborn metabolic defects. 533 50


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