EC:3.1.6.12 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

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

Ten lysosomal enzyme activities have been compared during the growth and ageing of adult human liver cell lines. Arylsulfatase A, beta-D-galactosidase and beta-D-glucuronidase activities were significantly lower and arylsulfatase B activity was significantly higher in senescent cells than in actively growing cells. Furthermore, hexosaminidase activity was lower and acid phosphatase activity higher in old cells in every cell line tested but the differences were not significant. On the other hand, no change occurred in alpha-L-fucosidase, alpha-D-mannosidase, alpha-D-galactosidase and alpha-D-glucosidase activities. These results demonstrate that the increase in size and number of secondary lysosomes during ageing is accompanied for a few lysosomal enzymes by an increase or a decrease in activity depending on the enzyme.
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PMID:Lysosomal enzyme activities during ageing of adult human liver cell lines. 52 13

Human eosinophil arylsulfatase (AS) is known to inactivate a slow reacting substance of anaphylaxis (SRS-A). Arylsulfatase A (AS-A) and arylsulfatase B (AS-B) activity was assayed by a modification of the method of Inoue using chromatography, and peripheral eosinophil cell counts were obtained to observe the circadian rhythm of 6 healthy controls and 7 children with asthma. There was no significant diurnal variation in AS between the two groups. Eosinophil counts of both groups were lower in the morning and higher at night. Theophylline and beta 2 stimulants did not affect these activities significantly. Forty asthmatic children were selected to evaluate AS activity and eosinophil counts during and after attacks. AS-B activity was significantly higher in children during attacks than at other times, 5.70 +/- 2.00 vs. 3.74 +/- 0.66 4 MUnmol/ml/2hr (p less than 0.05). This result was more evident within 24 hours of the attack (p less than 0.01). Eosinophil counts were significantly lower during attack, and there was a negative correlation between the eosinophil counts and AS-B activity. AS-B activity in mild asthmatic children was greater than in severe cases. A significant rise in AS-B was seen in EIB negative asthmatics (p less than 0.01), but no remarkable change was seen in either AS-A or AS-B in the EIB positive group. The data suggest that higher AS-B activity during asthma attacks could inactivate SRS-A and modulate allergic inflammatory reaction.
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PMID:[Arylsulfatase activity of asthmatic children]. 257 27

Lysosomal arylsulfatases A and B (aryl-sulfate sulfohydrolases, EC 3.1.6.1) from horse leukocytes were purified about 680-fold and 70-fold, respectively, starting from a crude extract of the azurophil and specific granules of leukocytes, by affinity, ion exchange, and gel filtration chromatography. Purified arylsulfatase A displayed anomalous kinetics, a pH optimum at 5.2, an isoelectric point at 4.3, and a Km value for p-nitrocatechol sulfate (pNCS) of 0.37 mM. This enzyme was found to exist in two association states depending on pH: a high molecular weight form at pH 5.0 and a low molecular weight form at pH 7.5. Arylsulfatase B displayed normal kinetics, a pH optimum at 5.8, two isoelectric points at pH 8.6 and 8.9, and a Km value for pNCS of 3.38 mM. The thermostability of the two enzymes was different: arylsulfatase B was found to be more stable than arylsulfatase A. Arylsulfatase A was inhibited by sulfate, sulfite, silver, magnesium, manganese and calcium ions and arylsulfatase B by chloride, sulfate, sulfite and silver ions.
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PMID:Lysosomal arylsulfatases A and B from horse blood leukocytes: purification and physico-chemical properties. 287 81

Arylsulfatase A hydrolyzes the artificial chromogenic substrate 4-nitrocatechol-sulfate at 0 degree C at a rate of 24% of that at 37 degrees C whereas arylsulfatase B is almost inactive at 0 degree C. Based on this observation, a simple assay was developed which permits the accurate determination of low residual arylsulfatase A activities in cultured skin fibroblasts of infantile, juvenile and adult MLD patients and pseudodeficient individuals. In cultured skin fibroblasts, the following residual activities were found with this assay system: late-infantile patients, 0.0%, one juvenile patient, 1.0%, adult patients, 4.4-14% of normal average. healthy pseudodeficient probands ranged between 18% and 32%.
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PMID:A simple chromogenic assay for arylsulfatase A. 288 12

Arylsulfatase A and B have been demonstrated in preparations of human leukocytes. The level of activity of arylsulfatase A is markedly decreased in the preparations from patients with metachromatic leukodystrophy. Acid phosphatase and arylsulfatase B activities were normal. The assay of arylsulfatase A in leukocyte preparations can be useful in the diagnosis of metachromatic leukodystrophy while obviating the difficulties of current methods.
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PMID:Metachromatic leukodystrophy: diagnosis with samples of venous blood. 566 37

Arylsulfatase A, B and an anionic form of B were separated by DEAE-cellulose column chromatography from the brains of man, monkey, rabbit, rat and chicken. The relative proportion of brain arylsulfatases differed from one species to the other. The anionic form of arylsulfatase B was a minor component as compared to arylsulfatase A or B in human and monkey brains while it was a major component in rat and chicken brains. Anionic arylsulfatase B was found in fetal human brains and in newborn monkey brain. In the rat brain, the activities of arylsulfatases A and anionic B showed an increasing trend during development, reaching a peak around 20 days after birth, without any change in their proportions. Treatment with Escherichia coli alkaline phosphatase resulted in the conversion of a major portion (about 70%) of the anionic arylsulfatase B of human and monkey brains into a less charged form which remained unbound to DEAE-cellulose. This conversion by phosphatase was inhibited by inorganic phosphate. Rat and chicken brain anionic arylsulfatase B was not susceptible to alkaline phosphatase. Vibrio cholerae neuraminidase treatment did not significantly affect the charge on anionic arylsulfatase B from any of the species. The results suggested a phosphorylated form of anionic arylsulfatase B exclusively in the primate brain.
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PMID:Anionic forms of brain arylsulfatase B: evidence for a phosphorylated form in man and monkey. 668 Jun 91

Arylsulfatases A and B were measured in the liver of mice infected with Schistosoma mansoni. The increase of total arylsulfatases paralleled enlargement of the granulomas. It began at 7 weeks after infection and reached a maximum at 10 to 14 weeks when the enzyme activity became about 2.5 times that of normal liver. The elevated enzyme activity was due to granulomatous tissue, because when granulomas were separated from hepatic cells, the former contained the increased activity but the latter did not. Arylsulfatase A, arylsulfatase B, and arylsulfatase Bv, in both normal liver and granulomas, were separated by anion-exchange column chromatography and differences in net charges of these enzymes were demonstrated by polyacrylamide gel electrophoresis. Biochemical properties were indistinguishable between arylsulfatase B and arylsulfatase Bv while they differed from arylsulfatase A. Granulomas at 8 weeks after infection showed 3.0-, 3.5-, and 5.0-fold increases in activity for arylsulfatase A, B, and Bv, respectively. As the granulomas enlarged, by 12 weeks, arylsulfatases B and Bv activities further increased but the arylsulfatase A value remained the same as that of 8 weeks. The finding suggests that arylsulfatases are involved in granuloma development and arylsulfatases B and Bv activities may reflect functions of macrophages and other cells including fibroblasts.
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PMID:Biochemical characterization of arylsulfatases detected in granulomatous inflammation. 669 6

Various sulfatase activities were assayed in cultured skin fibroblasts from patients with multiple sulfatase deficiency (MSD). MSD cell lines displayed deficiencies of arylsulfatase A and iduronate sulfatase, but activities of arylsulfatase B, N-acetylgalactosamine 6-sulfate sulfatase and N-acetylglucosamine 6-sulfate sulfatase were within normal ranges, but not consistently. Arylsulfatase A, minor anionic arylsulfatase and N-acetylgalactosamine 6-sulfate sulfatase in MSD cell lines had similar Km, pH optima, inhibitory or activator sensitivity to that of normal skin fibroblasts. Arylsulfatase B in MSD cell lines also had properties similar to that of normal skin fibroblasts, except an abnormal heat stability. From our results, we conclude that properties of arylsulfatase A, minor anionic arylsulfatase and N-acetylgalactosamine 6-sulfate sulfatase in MSD fibroblasts were intact. On the other hand, arylsulfatase B in MSD might be a functionally abnormal enzyme.
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PMID:Properties of sulfatases in cultured skin fibroblasts of multiple sulfatase deficient patients. 733 23

The presence and composition of arylsulfatases in secretions of various glands of the boar genital tract were studied. Arylsulfatase A was present in seminal plasma but not in extracellular fluids of the testis and epididymis nor in blood serum of boars. On the other hand, arylsulfatase B was present in both seminal plasma and extracellular fluids of the testis but was completely resorbed in the epididymis. The acrosomal arylsulfatase A did not leak out of spermatozoa before ejaculation. We conclude that arylsulfatases A and B present in seminal plasma are secreted by the seminal vesicles, for three reasons: 1) secretions from seminal vesicles contained 2.3-fold higher arylsulfatase activities than did those from seminal plasma, but had an identical composition; 2) cauda epididymal fluids did not contain arylsulfatase; and 3) other accessory glands of the boar genital tract did not secrete arylsulfatase. When intact boar spermatozoa were incubated with arylsulfatase A, complete desulfation of seminolipid was observed. The most important arguments favoring our hypothesis that desulfation of seminolipid does not start before ejaculation are the following: 1) desulfoseminolipid is not detectable in epididymal or freshly ejaculated sperm samples; 2) the acrosomal arylsulfatase A cannot desulfate seminolipid present at the surface of the plasma membrane of intact spermatozoa because of its intracellular localization; 3) extracellular arylsulfatase A is stored in seminal vesicles and thus can interact with spermatozoa during and after ejaculation.
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PMID:Boar seminal vesicles secrete arylsulfatases into seminal plasma: evidence that desulfation of seminolipid occurs only after ejaculation. 809 13

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