Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.6.1 (sulfatase)
 3,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interaction of the sulfatide activator protein with different glycosphingolipids have been studied in detail. The following findings were made. 1. The sulfatide activator protein forms water-soluble complexes with sulfatides [Fischer, G. and Jatzkewitz, H. (1977) Hoppe-Seyler's Z. Physiol. Chem. 356, 6588-6591] and various other glycospingolipids. 2. In the absence of degrading enzymes the activator protein acts in vitro as a glycosphingolipid transfer protein, transporting glycosphingolipids from donor to acceptor liposomes. Lipids having less than three hexoses, e.g. galactosylceramide, sulfatide and ganglioside GM3 were transferred at very slow rates, whereas complex lipids such as gangliosides GM2, GM1 and GD1a were transferred much faster than the former. The transfer rate increased with increasing length of the carbohydrate chain of the lipid molecules. 3. Both the acyl residue in the ceramide moiety and the nature of the carbohydrate chain are significant for recognition of the glycosphingolipids by the sulfatide activator protein. Apparently, both residues serve as an anchor and the longer they are the better they are recognized by the protein. 4. In the absence of activator protein, degradation rates of sulfatide derivatives by arylsulfatase A, and of ganglioside GM1 derivatives by beta-galactosidase, increase with decreasing length of acyl residues in their hydrophobic ceramide moiety. Addition of activator protein stimulates the degradation of only those GM1 and sulfatide derivatives that have long-chain fatty acids in their hydrophobic ceramide anchor.
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PMID:Glycosphingolipid specificity of the human sulfatide activator protein. 188 21

Saposins are small, heat-stable glycoproteins required for the hydrolysis of sphingolipids by specific lysosomal hydrolases. Saposins A, B, C, and D are derived by proteolytic processing from a single precursor protein named prosaposin. Saposin B, previously known as SAP-1 and sulfatide activator, stimulates the hydrolysis of a wide variety of substrates including cerebroside sulfate, GM1 ganglioside, and globotriaosylceramide by arylsulfatase A, acid beta-galactosidase, and alpha-galactosidase, respectively. Human saposin B deficiency, transmitted as an autosomal recessive trait, results in tissue accumulation of cerebroside sulfate and a clinical picture resembling metachromatic leukodystrophy (activator-deficient metachromatic leukodystrophy). We have examined transformed lymphoblasts from the initially reported saposin B-deficient patient and found normal amounts of saposins A, C, and D. After preparing first-strand cDNA from lymphoblast total RNA, we used the polymerase chain reaction to amplify the prosaposin cDNA. The patient's mRNA differed from the normal sequence by only one C----T transition in the 23rd codon of saposin B, resulting in a threonine to isoleucine amino acid substitution. An affected male sibling has the same mutation as the proband and their heterozygous mother carries both the normal and mutant sequences, providing additional evidence that this base change is the disease-causing mutation. This base change results in the replacement of a polar amino acid (threonine) with a nonpolar amino acid (isoleucine) and, more importantly, eliminates the glycosylation signal in this activator protein. One explanation for the deficiency of saposin B in this disease is that the mutation may increase the degradation of saposin B by exposing a potential proteolytic cleavage site (arginine) two amino acids to the amino-terminal side of the glycosylation site when the carbohydrate side chain is absent.
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PMID:Characterization of a mutation in a family with saposin B deficiency: a glycosylation site defect. 232 May 74

A 28-month-old black male died with severe complications of mental and motor deterioration, seizures, and aspiration. Autopsy demonstrated moderate liver enlargement, normal spleen and kidneys, small testes, and a grossly normal brain. Further examination showed irregular macrogyrae with evidence of a storage or sclerotic process. Thin layer chromatography of the lipids in formalin-fixed tissue demonstrated elevated levels of ceramide trihexoside and possibly sulfatides in liver and a decrease in the ratio of galactosylceramide to sulfatide in brain. Examination of the gangliosides in formalin-fixed brain indicated a slight increase in the percentage of GM1 ganglioside and a clear elevation in GM2 and GM3 gangliosides. Cultured skin fibroblasts had a normal activity for a large number of lysosomal enzymes including arylsulfatase A and galactocerebrosidase. When the cells were loaded with [14C]sulfatide only about 12% of the sulfatide was metabolized after 3 days. Extracts of the cells were subjected to SDS-PAGE and immunoblotting with antisphingolipid activator protein-1 (SAP-1) rabbit antiserum, and no cross-reacting material was detected confirming the diagnosis of metachromatic leukodystrophy caused by SAP-1 deficiency. This patient was clinically more severe than the other patients described previously with this deficiency. Further studies are underway to define the nature of the mutation in this patient.
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PMID:Clinical, pathological, and biochemical studies on an infantile case of sulfatide/GM1 activator protein deficiency. 276 35

In order to study the biochemical changes associated with the cell body response to axonal crush injury, two systems, hypoglossal nucleus and spinal cord ventral horn, were used. The time intervals chosen were 7, 14, and 28 days after unilateral crushing of the right hypoglossal nerve and cervicothoracic nerves of the rabbit. Non-crushed, contralateral nerves were used as controls. Three groups of enzyme activities were tested: (a) phospholipase A2, acyl CoA:2-acyl-sn-glycero-3-phosphocholine acyltransferase, and choline phosphotransferase, as indicators of phospholipid degradation and biosynthesis; (b) seven hydrolases, namely, beta-D-glucuronidase, beta-N-acetyl-D-hexosaminidase, arylsulfatase A, galactosylceramidase, GM1-ganglioside beta-galactosidase, and acid RNase, as indicators of lysosomal activity; and (c) free and inhibitor-bound alkaline RNase, as an index of RNA metabolism. Changes could be grouped into three distinct patterns. Compared to contralateral control, choline phosphotransferase showed a slight increase, whereas phospholipase A2 and most lysosomal hydrolases showed a significant increase of activity, especially evident in the ventral spinal cord neurons 14-28 days after crushing. These changes correlate with known increases of membrane and organelle numbers, including lysosomes, in motor and sensory neurons during peripheral regeneration. In contrast, free and acid alkaline RNase activity significantly decreased in the injured sides compared to the controls. This change can probably be correlated with a stabilization of RNAs needed for increased protein synthesis. No changes in total alkaline RNase and acyltransferase activities in either regeneration model were observed.
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PMID:Changes of phospholipid-metabolizing and lysosomal enzymes in hypoglossal nucleus and ventral horn motoneurons during regeneration of craniospinal nerves. 283 34

Bone marrow-derived leukocytes of murine epidermis can express two phenotypes: typical Langerhans cells, which are Ia+ and Thy-1-, and a recently discovered second population that is Thy-1+ and Ia-. To verify that these phenotypes are expressed by two different cell types, and to help understand their lineage and function, we have studied morphology and reactivity with a large panel of antibodies. Dual antibody immunofluorescence combined with electron microscopy showed that Thy-1+ and Ia+ cells were each distributed in a regular fashion and formed adjacent dendritic systems in or close to the basal layer. Double-labeling studies with anti-Ia and a second monoclonal antibody revealed that all Langerhans cells expressed F4/80 (macrophage), Mac-1 (C3bi receptor), and 2.4G2 (Fc receptor), as well as the thymus leukemia (TL) and heat-stable (M1.69/16) antigens. A large fraction expressed S100 and all exhibited membrane ATPase and nonspecific esterase. In contrast, Thy-1+ cells lacked all these features of Langerhans cells, except that a minority were strongly reactive with 2.4G2. Thy-1+ cells also lacked differentiation antigens of most other types of leukocytes, except they were rich in asialo GM1. By electron microscopy, Thy-1+ cells had cytoplasmic granules that were similar in structure and in their aryl sulfatase content to those previously described in natural killer cells. The granules were enlarged in beige mice, suggesting a lysosomal origin, and were present in mast cell-deficient W/Wv mice, indicating no relation to mast cells. We conclude that Thy-1+ epidermal cells are thoroughly distinct from Langerhans cells. On the basis of morphology and phenotype, they may represent a type of tissue natural killer cell. Thy-1+ natural killer cells are now being identified in several nonlymphoid sites, such as gut epithelium and the livers of mice given adjuvants. If Thy-1+ epidermal cells prove to be natural killer cells, it is noteworthy that they represent a resident population regularly distributed in the basal layer of all mouse strains. The notion that Thy-1+ epidermal cells are immature natural killer cells is intriguing in light of recent evidence that Ia+ Langerhans cells are also immature with respect to accessory cell function. The epidermis may not have the functional capacities of a lymphoid organ, but it could contribute immature cells important for both natural and acquired resistance.
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PMID:The Thy-1-bearing cell of murine epidermis. A distinctive leukocyte perhaps related to natural killer cells. 286 Dec 45

Urine specimens from two sibs affected with cerebroside sulfatase activator deficiency were examined to ascertain whether the deficiency of the supplementary activator protein required for the enzymatic hydrolysis of cerebroside sulfate was also evident in urine. Material from chromatographic fractionations was examined for the activator activity to avoid ambiguities resulting from protein inhibition. There were substantial deficits in all chromatographic fractions corresponding to activator-containing fractions of control urines. Since patient urines contained elevated amounts of lactosylceramide, digalactosylceramide, and globotriaosylceramide and since similarities between activators for cerebroside sulfate and GM1 ganglioside hydrolyses had been noted previously, the chromatographic fractions were also examined for activators in other glycosphingolipid hydrolase systems. There was coincidence of activators for the GM1 ganglioside/beta-galactosidase and the globotriaosylceramide/alpha-galactosidase A reactions with the cerebroside sulfatase activator in control urine fractions, and the patients' urines were deficient in activator activities for the three reactions. Identity of the three activators was suggested and antiserum to purified GM1 ganglioside activator was used to test this possibility. There were depressed levels of cross-reacting material in fractions of patient urines by Ouchterlony double diffusion and in unfractionated urine by enzyme-linked immunosorbent assay. Purified activators for the cerebroside sulfate and GM1 ganglioside systems showed lines of identity with no spurring on Ouchterlony double diffusion, identical mobility on immunoelectrophoresis, and similar stimulatory activities toward hydrolysis of the three glycosphingolipid species by their respective enzymes. Finally, the three activator activities were retained by anti-GM1-activator IgG coupled to Sepharose 4B. The results suggest strongly that the same protein entity serves as activator for the enzymatic hydrolysis of cerebroside sulfate, GM1 ganglioside, and globotriaosylceramide.
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PMID:Activator protein required for the enzymatic hydrolysis of cerebroside sulfate. Deficiency in urine of patients affected with cerebroside sulfatase activator deficiency and identity with activators for the enzymatic hydrolysis of GM1 ganglioside and globotriaosylceramide. 298 75

The incubation of murine spleen cells in the lymphokine interleukin 2 (IL 2) gives rise to lymphokine-activated killer (LAK) cells capable of lysing fresh tumor cells in short-term lytic assays. During the course of cultures used to generate LAK cells, cytoplasmic granules were prepared and were analyzed for the presence of the cytolysin previously described in large granular lymphocytes (LGL) and cytotoxic T lymphocytes (CTL). Such cytolysin activity is initially undetectable, appears after 2 days of culture, and continues to increase until day 7. The LAK cytolysin has properties similar to those of previously described cytolysins with respect to nonspecific killing of various target cells, rapid kinetics, and absolute dependence on calcium. Antibodies raised against purified LGL tumor granules neutralized the activity of the LAK cytolysin. The precursors of both the LAK cells and the cells bearing the cytolysin are eliminated by treatment with anti-asialo-GM1 and complement, strongly suggesting that the actual LAK effector cells and the cytolysin-bearing cells are identical. Biochemical analysis of the LAK granules indicate that they contain the lysosomal enzyme arylsulfatase. The protein content of granules isolated from various days of culture with r-IL 2 undergoes a dramatic change, with major protein bands around 30,000 daltons becoming prominent, as well as the cytolysin protein band at 70,000 daltons. These data suggest that the mechanism of cell lysis by LAK cells is similar to that of CTL and natural killer-mediated lysis, and each of these forms of lymphocyte-mediated cytolysis is based on a granule exocytosis mechanism.
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PMID:Cytolytic and biochemical properties of cytoplasmic granules of murine lymphokine-activated killer cells. 348 69

Activator protein for galactosylceramide sulfatase (GSase) was purified from human liver. The activator has an approximate molecular weight of 22,000, is glycoprotein in nature, and is most probably a trimer consisting of an 8,000 dalton monomer. Monospecific rabbit antiserum raised against the activator strongly inhibited the activity of the activator. In the presence of a 10-fold or more excess of galactosylceramide sulfate (GS) on a molar basis, GS binding to the GSase activator occurred, and was saturated at an equimolar ratio. Binding studies on the GSase activator were conducted using affinity chromatography on derivatives of GS as ligands, and gel filtration of mixtures containing glycolipids and the activator. A "GS-acid" derivative, which was prepared by oxidative cleavage of sphingosine moiety in GS, and a sulfonamide derivative of GS as ligands still retained affinity for the GSase activator, while a hydrophobic ligands, an aminohexyl group did not bind completely the activator. A ligand of "galactosylceramide-acid" had weak affinity for GSase activator. These results suggest that the sulfate group and one of the two hydrocarbon chains in GS are not essential for the binding of the activator. The affinity of galactosylceramide for the GSase activator was confirmed by the detection of the lipid-protein complex on gel filtration. The activator weakly stimulated porcine GM1-beta-galactosidase activity.
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PMID:Purification and properties of galactosylceramide sulfatase activator from human liver. 408 63

Cultured skin fibroblasts from the patient described by Shapiro and co-workers as having a variant form of metachromatic leukodystrophy (MLD) [Shapiro, L.J., Aleck, K. A., Kaback, M.M., Itabashi, H., Desnick, R.J., Brand, N., Stephens, R.L., Fluharty, A.L. & Kihara, H. (1979) Pediatr. Res. 13, 1179-1181] were confirmed to have a partial deficiency (25-40% of controls) of arylsulfatase A activity in vitro and a severe inability to metabolize [14C]stearic acid-labeled sulfatide presented in the medium. When 150 micrograms of purified activator protein for GM1 ganglioside beta-galactosidase and sulfatide sulfatase was added in 4 ml of medium with the 14C-labeled sulfatide, correction of the sulfatide metabolism to the normal range was found. Monospecific antibodies to this activator protein were prepared in rabbits, and they were used to examine cultured cells for the presence of crossreacting material by Ouchterlony double immunodiffusion and rocket immunoelectrophoresis. Cell extracts from controls and from patients with GM1 gangliosidosis and MLD were found to have a single line of identity. By comparison to known concentrations of purified activator protein, cell extracts from controls were found to have 0.76 +/- 0.32 micrograms of activator protein (mean +/- 1 SD, n = 10) per mg of solubilized protein, whereas those from patients with type 1 GM1 gangliosidosis and late infantile MLD had 1.53 and 1.41 micrograms/mg, respectively. Cell extracts from the patient with a variant form of MLD had no visible precipitin line by Ouchterlony double immunodiffusion and only a diffuse nonspecific region of staining by rocket immunoelectrophoresis. These immunologic studies provide evidence for a deficiency in the activator protein required for normal catabolism of sulfatide in the cells from this patient and possibly provide a method for diagnosis of similar patients.
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PMID:Immunological evidence for deficiency in an activator protein for sulfatide sulfatase in a variant form of metachromatic leukodystrophy. 613 82

Cerebroside sulfatase (CSase) activator was isolated from human liver by acetone precipitation, anion-exchange chromatography, gel filtration and polyacrylamide gel electrophoresis. The CSase activator was a heat-stable protein with an isoelectric point of 4.54. Molecular weight (Mr) of the activator was estimated as 22,000 with the gel permeation and about 8,000 by gel electrophoresis in the presence of sodium dodecyl sulfate, suggesting that the native activator is a trimer of a subunit with Mr 8,000. The CSase activator formed a complex with an equimolar amount of cerebroside sulfate (CS), when examined by gel permeation experiments. The activator also bound to galactosylceramide and GM2 ganglioside but scarcely to GM1 ganglioside, and activated to some extent beta-N-acetyl-hexosaminidase A and beta-galactosidase, although the CSase activator could be clearly distinguished from the GM1 beta-galactosidase activator so far known. Though the affinity chromatography using glycolipid ligands, the CSase activator did not recognize sulfate group of CS, but appeared to have a relatively broad specificity for lipid-linked hexose.
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PMID:[Purification and characterization of cerebroside sulfatase activator]. 614 Nov 30


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