EC:3.1.6.1 - FACTA Search

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)

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

Two glycosulfatases [EC 3.1.6.3], I and II, were purified 31.3- and 33.9-fold respectively, from a crude extract of the liver of Charonia lampas. The purification was carried out by the following chromatographic procedures; phosphocellulose, Sephadex G-150, Concanavalin A-Sepharose and isoelectric focussing. The enzyme preparations obtained were practically free from arylsulfatase [EC 3.1.6.1] contamination. Both glycosulfatases are probably glycoproteins differing in their carbohydrate moieties. The molecular weights of glycosulfatase I and II were estimated to be about 112,000 and 79,000 respectively. They had the same optimum pH of 5.5, and the same Km value of 25.0 mM for glucose 6-sulfate.
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PMID:Two glycosulfatases from the liver of a marine gastropod, Charonia lampas. Partial purification and properties. 0 53

Slow reacting substance of anaphylaxis (SRS-A) was released from human lung passively sensitized with ragweed antibody and challenged with specific antigen E. After purification by ethanol extraction, incubation with alkali (0.1 M NaOH for 30 min at 37 degrees C) and chromatography on silicic acid and DEAE-cellulose, human SRS-A was separated into four biologically active fractions (Fractions I to IV). Arylsulfatase (Type H-1) in 0.1 M sodium acetate buffer, pH 4.5, destroyed the biologic activity of only Fraction I. All four fractions, like SO4=, inhibited the arylsulfatase activity at pH 4.5 but not at pH 6.0 when p-nitrocatechol sulfate was used as substrate. These results suggest that SRS-A contain a sulfur group and that human STS-A, like the prostaglandins, may be a family of compounds. The instability of the purified SRS-A to storage remains a major barrier to their further purification and chemical identification.
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PMID:Separation of slow reacting substance of anaphylaxis (SRS-A) from human lung into four biologically active fractions. 0 68

The enzyme liberated by some treatments and the changes in arylsulfatase C activity in chronic hepatic damage were investigated in rat liver. 1. The enzyme activity liberated by ultrasound was the highest in the conditions studied. 2. Arylsulfatase C was assayed using p-nitrophenyl sulfate in 0.25 M Tris/acetate buffer as substrate. It is shown that this method can be used to measure arylsulfatase C activity in a mixture of arylsulfatases A and B. 3. The enzyme is mainly located in the microsomal fraction in rat liver. In toxic hepatic damage, the enzyme activity decreases from the early stage; decreasing markedly in chronic hepatic damage. The activity seems to reflect damage to the microsomes and therefore arylsulfatase C activity can be a good indicator of injury to liver microsomes.
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PMID:Degradation of arylsulfate by hepatic microsomes. 0 16

Human arylsulfatase A (cerebroside-3-sulfate 3-sulfohydrolase, EC 3.1.6.8) exhibited microheterogeneity on isoelectric focusing in polyacrylamide gels. Pure urinary enzyme gave 3 bands of activity with pI values of 4.7, 4.8 and 4.9, whereas purified liver enzyme yielded six equally spaced bands from pI 4.4 to 4.9. Detection of enzyme in the gel was made by either methylumbelliferyl sulfate or nitrocatechol sulfate. Crude enzyme preparations from human liver, kindey, placenta, brain and testis showed the six-banded pattern with varying amounts of activity in the different bands. The banding pattern of cultured human fibroblast extracts was distinctive: in addition to activity in the area of Bands 1-6 a sharp band at pI 5.1 was observed with both enzyme stains. This latter band was also present in metachromatic leukodystrophy fibroblast extracts. However, in this case the band did not appear when the specific aryl-sulfatase A stain was used. Enzyme Bands 1, 2 and 3 from urine were isolated by extraction of the gel. The three bands refocused in their initial positions; showed nearly identical enzymatic activities toward methylumbelliferyl sulfate, mitrocatechol sulfate, cerebroside sulfate and ascorbic acid 2-sulfate; and demonstrated equivalent immunological competence by antibody titration. The banding pattern of urinary arylsulfatase A was unchanged with neuraminidase treatment, whereas Bands 4-6 of the liver enzyme were converted to Bands 1-3 by this treatment. It appears that Bands 4-6 are due to sialylation of aryl-sulfatase A but that Bands 1-3 are probably due to some other type of post-ribosomal protein modification.
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PMID:Microheterogeneity of arylsulfatase A from human tissues. 0 92

Cultured normal human articular cartilage chondrocytes exhibited decreasing levels of arylsulfatase A and B activities when grown in the presence of increasing levels of ascorbic acid (0 to 90 mug/ml) in the media. That this was not a general effect on all lysosomal enzymes was supported by the increase in acid phosphatase activity and no change in beta-glucuronidase activity observed with increasing levels of vitamin C under identical culture conditions. No decrease in either arylsulfatase activity was observed when ascorbic acid was replaced by ascorbate-2-sulfate. Ascorbic acid did not inhibit either arylsulfatase activity when added directly to the assay mixture. These data, combined with results of mixing experiments, suggest that the effect of vitamin C is mediated through cellular factors produced in response to its inclusion in the growth media.
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PMID:Effect of ascorbic acid on arylsulfatase A and B activities in human chondrocyte cultures. 1 Oct 78

This study describes the isolation of arylsulfatases A and B (arylsulfate sulfohydrolase EC 3.1.6.1) from human articular cartilage. These enzymes were extracted from collagenase digests of tissue homogenates. After fractionation with ammonium sulfate the enzymes were separated from each other by DEAE-cellulose chromatography and further purified by gel filtration on Sephadex G-200. Sulfatase B, subsequently chromatographed on CM-cellulose was apparently homogenous as judged by polyacrylamide gel electrophoresis in the presence and absence of sodium dodecyl sulfate. The enzyme has a pH optimum of 5.6, a molecular weight of 51,000 and Km of 2.6 mM for 4-nitrocatechol sulfate. Sulfatase A was found to be a glycoprotein with a pH optimum of 4.8, a molecular weight of 105,000 and a Km of 0.16 mM for 4-nitrocatechol sulfate. The competitive inhibition of both enzymes by inorganic sulfate, sulfite and phosphate support the likelihood of a common reaction mechanism. In contrast to sulfatase B which showed minimal inhibition, sulfatase A was totally inhibited by 5 mM N-ethylmaleimide.
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PMID:Enzymes from human articular cartilage: isolation of arylsulfatase B and its comparison with arylsulfatase A. 1 Oct 79

A correlation between increased arylsulfatase activities and decreased sulfated proteoglycan content in human osteoarthritic articular cartilage suggested a possible interrelationship between these parameters. Since we had previously shown that ascorbate caused a decrease in levels of arylsulfatase A and B activities in normal chondrocyte cultures, the validity of the above relationship was examined by measuring the effect of vitamin C on the biosynthesis and distribution of 35S-labeled proteoglycans and arylsulfatase A and B activities in cell extracts of chondrocytes derived from normal and osteoarthritic tissue. Arylsulfatase A and B activities were found to be reduced in the presence of ascorbic acid in all normal and osteoarthritic cell lines examined when measured 3, 6, 10, and 13 days after the introduction of the vitamin in the culture medium. Acid phosphatase activity, on the other hand, was found to be elevated in the presence of ascorbate. The inhibitory effect by ascorbic acid on arylsulfatase activities could be reversed by withdrawing the vitamin from the nutrient medium. Addition of EDTA to the cell extracts before assay also reversed the inhibiton. Sulfated proteoglycan biosynthesis as reflected in 35S-sulfate uptake per milligram of DNA was significantly increased in the presence of ascorbic acid. The distribution of the newly synthesized molecules between the cell layer and medium fractions was altered. In the presence of ascorbate, more deposition into the cell layer of newly synthesized macromolecules occurred. These data suggest an inverse relationship between arylsulfatase activities and the stability of the newly synthesized sulfated proteoglycans in the extracellular matrix.
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PMID:Effect of ascorbic acid on arylsulfatase activities and sulfated proteoglycan metabolism in chondrocyte cultures. 1 19

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