EC:3.1.6.1 - FACTA Search

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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 C is a microsomal membrane-bound enzyme previously thought to be the same as steroid sulfatase, the only X-linked enzyme known to escape from X inactivation in man. We had shown that arylsulfatase C actually consists of two biochemically distinct isozymes, s and f. Only the s form has steroid sulfatase activity. The f and s forms were thought to be related through posttranslational or posttranscriptional modification of the same gene product. In part consistent with this hypothesis, we now report that in a panel of 28 rodent-human somatic cell hybrids, expression of both s and f was concordant only with the human X chromosome, thus showing that the f form is also X linked. In three separate somatic hybrids containing human X chromosomes in an inactive state, the f form was still expressed. Thus, similar to the s form, the f form also escapes from X inactivation. However, contrary to expectations, the s and f forms were not related by posttranslational modification of the same gene product. A full-length cDNA for the s form failed to hybridize to transcripts produced from an f-expressing cell line, showing that there is little sequence identity between the two. They are also not related by differential splicing of a common primary transcript, since fibroblasts from some patients with steroid sulfatase deficiency due to gene deletion of the s form continue to express the f form. Therefore, although the f and s isozymes of arylsulfatase C are X linked and escape from X inactivation, they are products from separate genes, thus providing a unique isoenzyme system to study possible gene duplication and regulation in the part of the human X chromosome that escapes inactivation.
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PMID:The human arylsulfatase-C isoenzymes: two distinct genes that escape from X inactivation. 169 May 6

The region surrounding the steroid sulfatase (STS) locus on Xp22.3 is of particular interest since it represents a deletion hot spot, shares homology with the proximal long arm of the Y chromosome (Yq11.2), and contains genes for several well-described X-linked disorders. Here we describe yeast artificial chromosomes (YACs) covering 450 kb around the STS gene. Eight YAC clones were isolated from a human YAC library. Their STS exon content was determined and the overlap of the clones characterized. Two of the YAC clones were found to contain the entire STS gene. The most proximal and the most distal ends of the YAC contig were cloned but neither of them crossed the breakpoints in any of the previously described patients with entire STS gene deletions. This is consistent with deletions larger than 500 kb in all these patients. One of the YAC clones was found to contain sequences from the STS pseudogene on Yq11.2. Two anonymous DNA sequences, GMGXY19 and GMGXY3, previously mapped in the vicinity of the STS locus, were found within the YAC contig and their assignment with respect to the STS locus was thus possible. This contig is useful for the overlap cloning of the Xp22.3 region and for reverse genetic strategies for the isolation of disease genes in the region. Furthermore, it may provide insight into the molecular mechanisms of deletion and translocation events on Xp22.3 and in the evolution of sex chromosomes.
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PMID:Isolation and characterization of a yeast artificial chromosome (YAC) contig around the human steroid sulfatase gene. 173 66

The enzymatic properties of a homogeneous sterylsulfatase preparation isolated from human term placenta were studied. The enzyme exhibited both arylsulfatase and sterylsulfatase activity: it catalysed the hydrolysis of sulfuric acid esters of (in the order of decreasing specific activity) non-steroidal phenols, of a phenolic steroid, and of neutral 3 beta-, 21- and (though at a very low rate) 17 beta-hydroxysteroids. However, among all the substrates tested only the 3-sulfates of phenolic and neutral steroids exhibited high affinity towards the sulfatase. Vitamin D3 sulfate was not hydrolysed by the sterylsulfatase but strongly inhibited its activity. The products of the catalytic reaction, free steroids or phenols as well as the sulfate anion or analogues thereof, likewise interfered with the enzyme's activity. Ki values of unconjugated steroids were ten- to hundredfold higher than Km values of the respective sulfoconjugates. Inorganic sulfate only slightly inhibited the sulfatase activity; its inhibitory potency, however, increased in a time-dependent manner when it was preincubated with the enzyme prior to assay. In contrast to sulfate, the hypothetical transition-state analogues sulfite and vanadate acted as strong inhibitors of the sulfatase activity. According to the results of an analysis of the effect of pH on sterylsulfatase kinetics, enzyme constituents with pK values of approximately 5.8 and 8.0 are involved in a general acid-base catalysed reaction. Treatment of the sulfatase with amino-acid side chain modifying reagents directed against arginine, cysteine, cystine, serine or tyrosine residues did not result in significant alteration of its activity. Diethyl-pyrocarbonate known to react primarily with histidyl groups, however, rapidly inactivated the enzyme; this inactivation reaction was markedly retarded in the presence of substrate. Histidine thus appears to be essential for the catalytic activity of the sulfatase. Taken together, the present results reveal a considerable similarity between the catalytic mechanism of human placental sterylsulfatase and the ones already proposed for the lysosomal arylsulfatases A and B. Taurocholate, salicylate, ouabain, and 4,4'-substituted stilbene-2,2'-disulfonates are well known inhibitors of carrier-mediated transport of anions across cellular membranes. With the exception of ouabain, these compounds likewise turned out to inhibit the enzymatic hydrolysis of steryl sulfates; the pattern of dose dependences of their interference with the sulfatase activity resembles the one reported for inhibition of anion transport. Since the sterylsulfatase in vivo strongly is associated with cellular membranes including the plasma membrane of the syncytiotrophoblast, this finding supports the speculation that similar molecular structures may be involved in both placental transport and hydrolysis of anionic steryl sulfates.
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PMID:Human placental sterylsulfatase. Interaction of the isolated enzyme with substrates, products, transition-state analogues, amino-acid modifiers and anion transport inhibitors. 182 47

1. Hepatic arylsulfatase C (ASC) and steroid sulfatase (SS) from six of eleven mammals (rat, dog, baboon, cow, goat, and sheep) coeluted from DEAE-Sephacel as a single anionic species. A minor cationic peak of ASC and SS activity was also recovered from solubilized microsomes derived from the domestic cat. Characterization of the cationic activities indicated they were most likely contributed by a protein structurally related to the anionic isozyme. Properties of ASC and SS activities occurring in these seven species were most consistent with the presence of both activities in the same enzyme. 2. Guinea-pig liver SS activity was partitioned between an alkylsulfatase (hydrolyzing dehydroepiandrosterone sulfate (DHEAS)) and an arylsulfatase (hydrolyzing both estrone sulfate (E1S) and 4-methylumbelliferyl sulfate (4MUS) at a common active site). These enzymes were physically separable by ion-exchange chromatography and possessed distinct immunological and chemical properties. 3. Porcine, squirrel, and human livers possessed a major isozyme of ASC that lacked both E1S- and DHEAS-sulfatase activities. The human hepatic ASC was separable from SS by electrophoresis and was partially resolved from SS by DEAE-Sephacel chromatography. The ASC isozyme lacking SS activity was heat-labile in all three species.
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PMID:Comparative biochemistry of mammalian arylsulfatase C and steroid sulfatase. 187 87

Testis cancer and ichthyosis are both relatively rare diseases. Hence the finding of six individuals with both these conditions in a small population with testicular cancer is highly conspicuous and indicates some kind of connection among such persons. Despite the identical clinical appearances of their ichthyoses, three of the ichthyotic subjects had no measurable activity of the enzyme, steroid sulfatase (STS) in leucocytes, a distinct characteristic of recessive X-linked ichthyosis (RXLI). However, the remaining three subjects had normal STS activity, a strong indicator of autosomal dominant ichthyosis (ADI). The STS activity in patients with testicular cancer who do not have ichthyosis (N = 30) was also within the normal range. The patients with testicular cancer with no skin disease had elevated serum levels of 4-androstenedione (4-AD), follicle stimulating hormone (FSH), and luteinizing hormone (LH) but had reduced levels of estrone and estrone sulfate. The other serum parameters measured did not significantly differ from normal levels. In essence, the hormone levels obtained for the patients with ichthyotic testicular cancer followed the same pattern, although their dehydroepiandrosterone sulfate (DHEAS) and estrone sulfate levels tended to be slightly higher than normal. However, no conspicuous aberrations in any of the parameters examined were observed, and why men with ichthyosis are at high risk for testicular cancer remains an unresolved issue.
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PMID:Testis cancer. Ichthyosis constitutes a significant risk factor. 189 10

Arylsulfatase C and steroid sulfatase were thought to be identical enzymes. However, recent evidence showed that human arylsulfatase C consists of two isozymes, s and f. In this study, the biochemical properties of the s form partially purified from human placenta were compared with those of the f form from human liver. Only the placental s form has steroid sulfatase activity and hydrolyses estrone sulfate, dehydroepiandrosterone sulfate and cholesterol sulfate. The liver f form has barely detectable activity towards these sterol sulfates. With the artificial substrate, 4-methylumbelliferyl sulfate, both forms demonstrated a similar KM but the liver enzyme has a pH optimum of 6.9 while the placental form displayed two optima at 7.3 and 5.5. The molecular weight of the native enzyme determined with gel filtration was 183,000 for the s form and 200,000 for the f form and their pI's were also similar at 6.5. However, the T50, temperature at which half of the enzyme activity was lost, was 49.5 degrees C for the f form and 56.8 degrees C for the s form. Polyclonal antibodies raised against the placental form reacted specifically against the s and not the f form. They immuno-precipitated concomitantly greater than 80% of the total placental arylsulfatase C and steroid sulfatase activities while less than 20% of the liver enzyme was immuno-precipitable. In conclusion, the two isozymes s and f of arylsulfatase C in humans purified from placenta and liver, respectively, have similar KM, pI' and native molecular weight. However, they are distinct proteins with different substrate specificity, pH optima, heat-lability and antigenic properties. Only the s form is confirmed to be steroid sulfatase.
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PMID:Characterization of arylsulfatase C isozymes from human liver and placenta. 206 92

Human placental and hepatic arylsulfatase C (ASC) were purified to homogeneity and about 1,000-fold, respectively. Placental ASC hydrolyzed sterol sulfates at the same active site, whereas the major hepatic ASC did not. This major hepatic ASC isozyme was more thermolabile than placental ASC and steroid sulfatase from both placenta and liver. It was not precipitated by anti-bovine ASC IgG which quantitatively precipitated both placental ASC and steroid sulfatase activities from placenta and liver. A minor hepatic ASC isozyme with similar electrophoretic mobility to the placental enzyme copurified with the major hepatic ASC and is likely responsible for the steroid sulfatase activity in this organ. Hence, placental ASC and steroid sulfatase are biochemically and antigenically identical to hepatic steroid sulfatase. In contrast, the major hepatic ASC is a distinct protein whose catalytic and structural properties differ from all the above enzymes.
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PMID:Comparison of arylsulfatase C and steroid sulfatase from human placenta and liver. 210 1

Steroidsulfatase and arylsulfatase C were determined in fibroblasts and/or leukocytes of patients affected with different types of ichthyosis. Of the 21 patients studied, 11 showed clinical characteristics of X-linked ichthyosis (XLI) and a deficiency of these 2 enzymatic activities. Patients affected with other types of ichthyosis showed no enzymatic deficiency. In XLI families diagnosis of heterozygotes was performed by enzymatic measurements in the 5 patients' mothers studied. In 2 families enzymatic activities were studied in patients' sisters. The validity of these different enzymatic measurements is discussed.
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PMID:[Ichthyosis and steroid sulfatase: study of enzymatic activity in leukocytes and fibroblasts according to the sex and type of ichthyosis]. 215 60

Deletions are the most common molecular defect in steroid sulfatase (STS) deficiency. We describe the application of multiplex DNA amplification, by polymerase chain reaction, for deletion screening in patients with STS deficiency (STS-PCR). Genomic DNA from 38 unrelated patients was amplified using two sets of primers, corresponding to the 5' and the 3' ends of the STS gene. The analysis of the amplified products was always consistent with the results obtained by Southern analysis. This method represents a sensitive fast non-radioactive test for detecting STS gene deletions.
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PMID:Screening for steroid sulfatase (STS) gene deletions by multiplex DNA amplification. 233 43

The terminal part of the short arm of the human X chromosome has been mapped by pulsed-field gel electrophoresis (PFGE). The map, representing the distal two-thirds of Xp22.3 spans a total of 10,000 kilobases (kb) from Xpter to the DXS143 locus. A comparison with linkage data indicates that 1 centimorgan (cM) in this region corresponds to about 600 kb. CpG islands were essentially concentrated in the 1500 kb immediately proximal to the pseudoautosomal boundary. Several loci, including the gene encoding steroid sulfatase (STS) and the loci for the X-linked recessive form of chondrodysplasia punctata (CDPX) and for Kallmann syndrome (KAL) have been placed relative to the Xp telomere. CDPX is located between 2650 and 5550 kb from Xpter, and STS is located between 7250 and 7830 kb from Xpter. KAL maps to an interval of 350 kb between 8600 and 8950 kb from the telomere. The X-chromosomal breakpoints of a high proportion of XX males resulting from X-Y interchange cluster to a 920-kb region proximal and close to the pseudoautosomal boundary.
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PMID:Long-range restriction map of the terminal part of the short arm of the human X chromosome. 233 11

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