EC:3.1.6.12 - FACTA Search

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Query: EC:3.1.6.12 (chondroitinase)
2,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Arylsulfatase B was separated from arylsulfatase A in extracts of human lung tissue by anion exchange chromatography and further purified by gel filtration and cation exchange chromatography. Arylsulfatase B of human lung was similar to that enzyme in other tissues and species, exhibiting an apparent mol wt of approximately 60,000, a pH optimum for cleavage of 4-nitrocatechol sulfate (pNCS) of 5.5-6.0, and a sensitivity to inhibition by phosphate ions and especially pyrophosphate in the presence of NaCl. Human lung arylsulfatase B inactivated slow-reacting substance of anaphylaxix (SRS-A) in a linear time-dependent reaction in which the rate was determined by the enzyme-to-substrate ratio. Cleavage of pNCS by human lung arylsulfatase B was competitively suppressed by SRS-A. The finding that human lung tissue contains predominately arylsulfatase B discloses a potential regulatory mechanism for inactivation of SRS-A at or near the site of its generation.
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PMID:Arylsulfatase B of human lung. Isolation, characterization, and interaction with slow-reacting substance of anaphylaxis. 0 18

Pure human arylsulfatase A (EC 3.1.6.1) was found to hydrolyze ascorbic acid 2-sulfate to ascorbic acid and inorganic sulfate at rates from 200 to 2000 mumol/mg per h depending on the method of assay. This rate was lower than that observed with the synthetic substrate 4-nitrocatechol sulfate, but higher than that seen with the physiological substrate cerebroside sulfate. Extracts of cultured fibroblasts from normal subjects were also shown to hydrolyze ascorbic acid 2-sulfate; extracts of fibroblasts from patients with metachromatic leukodystrophy, known to be deficient in arylsulfatase A, did not. Similarly, hydrolysis of ascorbic acid 2-sulfate was not observed when a partially purified preparation of human arylsulfatase B was tested under a variety of conditions. Thus, in the human, arylsulfatase A appears to be the major, if not the only, ascorbic acid-2-sulfate sulfohydrolase.
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PMID:Ascorbic acid-2-sulfate sulfhohydrolase activity of human arylsulfatase A. 0 34

Metachromatic leukodystrophy and Maroteaux-Lamy syndrome can be diagnosed by assay of leukocyte or fibroblast arylsulfatase A and B activity with the fluorogenic substrate 4-methylumbelliferyl sulfate. The arylsulfatases are extracted into a 27000 x g supernatant by sonication in 0.9% sodium chloride and then separated with CM-32 on columns or in test tubes. In 0.05 M sodium acetate pH 6.0, arylsulfatase A is not absorbed while arylsulfatase B is retained by the resin. The arylsulfatase B is then eluted from the resin with 0.3 M sodium chloride. The arylsulfatase A activity obtained from normal leukocytes and fibroblasts is linear for the initial 10 minutes of the reaction, is stimulated 3-fold by 6 mM lead acetate and inhibited 80% by 0.24 mM silver nitrate. After separation with CM-32, the arylsulfatase B activity is stimulated 3-fold by Triton X-100 (0.1%). Arylsulfatase A but not arylsulfatase B is destroyed by heat (60 degrees). Both leukocyte and fibroblast arylsulfatase A activity was reduced to 11% of control values in metachromatic leukodystrophy. Essentially no arylsulfatase B activity was detected in cells from patients with Maroteaux-Lamy syndrome. Metachromatic leukodystrophy heterozygotes but not Maroteaux-Lamy syndrome heterozygotes can also be distinguished by this method. A heat inactivation technique utilizing the differential thermal stabilities of the two enzymes for diagnosis of patients with Marotezux-Lamy syndrome is also described. The advantages of these 4-methylumbelliferyl sulfate assay procedures over the p-nitrocatechol sulfate method of assay are greater sensitivity, selectivity for the desired enzyme and potential for use in large scale testing.
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PMID:Arylsulfatases A and B in metachromatic leukodystrophy and Maroteaux-Lamy syndrome: studies with 4-methylumelliferyl sulfate. 0 5

Serum vitamin A (retinol) levels were generally low in all malnourished children (6-15 microgram/100 ml) compared with control children (50 microgram/100 ml). A significant increase in vitamin A after appropriate therapy was observed in all malnourished groups. Dietary supplements of proteins and calories even without extra vitamin A supplements increased serum vitamin A levels in cases of kwashiorkor indicating active mobilization of liver vitamin A. Total urinary arylsulfatase A activity excreted in 24-h or within 8-h in the morning (6 a.m. to 2 p.m.) was significantly reduced in cases of malnutrition with or without mild vitamin A deficiency symptoms. The excretion of arylsulfatase B was not altered. In cases of severe vitamin A deficiency coupled with malnutrition increased excretion of both arylsulfatases A and B was evident. These results on urinary arylsulfatases excretory pattern have been obtained either in samples collected for 24-h or specifically for 8-h (morning) and it is suggested that this test on urinary arylsulfatases may prove useful for detection of acute vitamin A deficiency with malnutrition in field studies. A ratio of arylsulfatases A/B of 2.0 or less seems to indicate mild malnutrition, the normal ratio being 3.4. Furthermore a low ratio coupled with increased excretion of both arylsulfatases A and B may be considered specific for acute vitamin A deficiency.
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PMID:Urinary excretion of arylsulfatases in malnourished/vitamin A deficient children. 3 22

In continuation of a previous work, we have confirmed the occurrence of arylsulfatase A in 4 samples of human gastric mucosa analysed by the chromatographic procedure described by Stevens et all. By using the chromatographic method we have also evidentiated the occurrence of arylsulfatase B, which was not detected by using the method of Baum et all. The B form was lower than the A form in 3 samples while it was higher in another sample. In the latter sample of gastric mucosa it was also detected the unusual form Bm of arylsulfatase. It was concluded that both forms A and B of arylsulfatase are present in human gastric mucosa, in variable amounts and that the simple procedure developed by Baum et all., although suitable for the analysis of these enzymes in the urine, is not useful for the determination of arylsulfate B in the gastric mucosa.
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PMID:[Chromatographic determination of arylsulfatases A and B in human gastric mucosa]. 4 47

The net percentage of release of arylsulfatase activity from purified rat mast cells induced by rabbit anti-rat F(ab')2 was consistently only about 1/3 that of histamine. Isoelectric focusing of the released and residual arylsulfatase activities demonstrated specific release of the A type without B and a net percentage of immunologic release of arylsulfatase A equivalent to that of histamine. When the net percentage of histamine and arylsulfatase A release were nearly maximal (88 and 76%) in response to the calcium ionophore A23187, specific release of arylsulfatase B did not occur. Thus, arylsulfatase A and not B was associated with the secretory granule released from the rat mast cell by reversed anaphylaxis or the calcium ionophore. In contrast, subcellular fractionation of water-lysed mast cells yielded arylsulfatase B with the heparin- and chymase-containing granule fraction and arylsulfatase A in the aqueous fraction comprised of cell sap and granule water eluate. It may be that arylsulfatase B resides in a minor second granule, whereas arylsulfatase A is loosely associated with the predominant secretory granule of the rat mast cell.
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PMID:Release of arylsulfatase A but not B from rat mast cells by noncytolytic secretory stimuli. 8 Dec 31

The distribution of soluble arylsulfatase (aryl-sulfate sulfohydrolases, EC 3.1.6.1) in human tissues was investigated by DEAE-cellulose chromatography, All tissues examined contained arylsulfatase A and arylsulfatase B. In addition, brain singularly contained significant quantities (15-25% of total arylsulfatase) of a minor anionic arylsulfatase from designated arylsulfatase Bm, whereas only trace amounts of arylsulfatase Bm were found in liver, kidney, testis and placenta. Arylsulfatase B and arylsulfatase Bm had equal activity toward methyl-umbelliferyl sulfate, nitrocatechol sulfate and a physiological substrate UDP-N-acetylgalactosamine 4-sulfate, but both forms were inactive toward the arylsulfatase A substrates cerebroside sulfate and ascorbic acid 2-sulfate. Purified preparations of placental arylsulfatase B, brain arylsulfatase Bm, and urinary arylsulfatase A did not hydrolyze estrone sulfate, dehydroepiandrosterone sulfate or pregnenolone sulfate. The physico-chemical properties of arylsulfatase Band arylsulfatase Bm differed with respect to thermal lability, DEAE-cellulose chromatography, polyacrylamide gel electrophoresis and isoelectric focussing. In the latter technique, utilizing thin polyacrylamide slab gels, the isoelectric point for placental arylsulfatase B was 8.2, while brain arylsulfatase Bm resolved into 3 activity bands with pI values 6.8, 7.0 and 7.2. Although the physico-chemical properties differed, arylsulfatase B and arylsulfatase Bm appear to be functionally equivalent as well as generically related.
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PMID:Arylsulfatase of human tissue. Studies on a form of arylsulfatase B found predominantly in brain. 87 49

Multiple sulfatase deficiency (MSD) is an inherited lysosomal storage disease characterized by the deficiency of at least seven sulfatases. The basic defect in MSD is thought to be in a post-translational modification common to all sulfatases. In accordance with this concept, RNAs of normal size and amount were detected in MSD fibroblasts for three sulfatases tested. cDNAs encoding arylsulfatase A, arylsulfatase B, or steroid sulfatase were introduced into MSD fibroblasts and fibroblasts with a single sulfatase deficiency by retroviral gene transfer. Infected fibroblasts overexpressed the respective sulfatase polypeptides. While in single-sulfatase-deficiency fibroblasts a concomitant increase of sulfatase activities was observed, MSD fibroblasts expressed sulfatase polypeptides with a severely diminished catalytic activity. From these results we conclude that the mutation in MSD severely decreases the capacity of a co- or post-translational process that renders sulfatases enzymatically active or prevents their premature inactivation.
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PMID:Multiple sulfatase deficiency: catalytically inactive sulfatases are expressed from retrovirally introduced sulfatase cDNAs. 134 58

Sperm cells and seminal plasma of various mammals contain high levels of arylsulfatase. In the present study, we investigated the composition of soluble AS in these compartments of boar semen by analysing sperm cells and seminal plasma using anion-exchange chromatography. Seminal plasma contained both arylsulfatase B (2.4 units per ml), an enzyme which desulfates sulfoglycosaminoglycans and probably sulfoglycoproteins, and arylsulfatase A (10.2 units per ml), an enzyme which desulfates sulfogalactolipids. Sperm cells contained only arylsulfatase A, which differed biochemically from the extracellular arylsulfatase A of seminal plasma (2.6 units per ml). Both types of arylsulfatase A desulfate seminolipid, the natural sulfolipid substrate in sperm, as well as two brain sulfatides. The possible physiological consequences of the presence of extracellular arylsulfatases in seminal plasma for spermatozoa are discussed.
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PMID:Characterization of three arylsulfatases in semen: seminolipid sulfohydrolase activity is present in seminal plasma. 135 1

Arylsulfatases A (EC 3.1.6.1) and B (EC 3.1.6.12) are lysosomal enzymes that can remove sulfate groups from sulfatides and sulfo-glycosaminoglycans, respectively. The activities of these enzymes in cerebral cortex and in spinal cord of developing rat pups were measured. The tissues were homogenized and the arylsulfatases A and B in the soluble fraction were separated from each other by anion exchange chromatography on DE-52 cellulose. Subsequently, the enzyme activities were assayed with p-nitrocatechol sulfate as substrate at 37 degrees C and pH 5.6. We observed a developmental profile of arylsulfatase A, similar to that previously reported for cerebroside sulfatase (EC 3.1.6.8; (Van der Pal et al. (1990) Biochim. Biophys. Acta 1043, 91-96]. The activity of arylsulfatase A increased gradually during development, whereas arylsulfatase B rose more steeply, peaked around day 15 and declined thereafter. As a consequence the ratio between B and A forms of arylsulfatase dropped from about 4 in 1-week-old pups to 2.2 (cortex) and 0.7 (cord) in 7-week-old rat pups.
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PMID:Developmental profiles of arylsulfatases A and B in rat cerebral cortex and spinal cord. 167 24

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