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

A protein which binds dehydroepiandrosterone sulfate and estrone sulfate was detected in the cytosolic fraction of female Guinea-pig liver. It is characterized by a molecular mass of 14,400 Da, its affinity for DHEA sulfate (KD = 8.8 microM) and estrone sulfate (KD = 8.5 microM), and its lack of affinity for free steroids such as dehydroepiandrosterone or estrone. It is eluted by gel filtration on Sephadex G-50 simultaneously with the inhibitor of microsomal DHEA sulfatase recently described by some of us. This protein could be implicated in the intracellular transport or in the metabolism of sulfated steroids.
 ...
PMID:[Characterization, in the guinea pig, of a hepatic cytosol protein binding dehydroepiandrosterone sulfate and estrone sulfate]. 297 Feb 81

A microsomal fraction rich in (Na+ + K+)ATPase activity has been isolated from the outer medulla of pig kidney. The ability of this preparation to form phosphoenzyme on incubation with [gamma-32P]ATP and to bind [3H]ouabain was studied when its sulfatide was hydrolyzed by arylsulfatase treatment. The K+-dependent hydrolysis of the Na+-dependent phosphorylated intermediate as well as the ouabain binding were inactivated in direct relation to the breakdown of sulfatide. Both characteristics of the (Na+ + K+)ATPase preparation, lost by arylsulfatase treatment, were partially restored by the sole addition of sulfatide. These experiments indicate that sulfatide may play a role in sodium ion transport either in the conformational transition of the K+-insensitive phosphointermediate, E1P, to the K+-sensitive intermediate, E2P, or in the configuration of the high-affinity binding site for K+ of the E2P form. In addition, this glycolipid may have a specific role in the proteolipidic subunit that binds ouabain.
 ...
PMID:Role of sulfatide on phosphoenzyme formation and ouabain binding of the (Na+ + K+)ATPase. 298 54

Incubation of nanomolar concentrations of [3H]estrone with ovine liver slices from adult and fetal animals demonstrated, in particular, the production of estrogen sulfates together with smaller amounts of glucuronides, even although microsomal estrogen glucuronyltransferase (GT) and sulfatase activities were high, especially in adult tissue. [3H]Estriol was conjugated almost exclusively as sulfate under the same experimental conditions. Slices of maternal and fetal kidney medulla were also strikingly active in promoting estrogen sulfate production as were slices of fetal kidney cortex. Adult kidney cortex conjugated estrogen only in the glucuronide form. These data indicate the possibility that maternal and fetal liver and kidney might contribute to the high circulating level of estrone sulfate in the pregnant sheep. Through the use of [3H]estrone and [3H]estrone sulfate as substrates, it was possible to demonstrate that adult slices of kidney medulla possessed relatively low sulfatase, considerable sulfotransferase (ST), and virtually no GT activity, whereas cortex had high sulfatase, little or no ST, and low, though demonstrable, GT activity. The ST activity of kidney high-speed supernatants was stimulated by the presence of sulfhydryl groups, whereas that in liver was not. Enzymic reduction of estrone and (or) estrone sulfate by liver and kidney slices indicated that, in the former, 17 alpha-reduction prevailed and, in the latter with the exception of the maternal medulla, 17 beta-reduction was the main pathway, particularly in the fetus.
 ...
PMID:The in vitro formation of sulfates and glucuronides of estrogens by adult and fetal ovine tissues. 299 78

Estrone sulfatase is a membrane-bound enzyme hydrolysing estrone sulfate. In normal and pathological tissues, estrone sulfatase is required for the conversion of estrone sulfate into physiologically active estrogens. In the hepatic cytosol of Guinea-pig, we have demonstrated the existence of a soluble inhibitor of uterine and hepatic microsomal estrone sulfatase. This inhibitor has approximatively a molecular weight of 7,600 and acts as a non-competitive inhibitor of estrone sulfatase. It seems to be a soluble intra-cellular effector of membrane-bound estrone sulfatase.
 ...
PMID:[Demonstration of a cytosolic inhibitory of membrane estrone sulfatase activity in guinea pig liver]. 308 74

The effect of culture conditions on the ultrastructure and enzyme activities of cultured skin fibroblast cells relevant to the diagnosis of lysosomal storage disorders are reported. The parameters examined were: pH of the culture media, type of media, increasing cell passage, and day of harvest. Ultrastructural changes were defined in terms of the number of lysosome-like inclusion bodies per cell according to a method devised in our laboratory and proven reliable in the detection of affected individuals. Our biochemical results included determination of enzyme activities of beta-hexosaminidase, alpha-mannosidase, beta-glucuronidase-lysosomal enzymes, arylsulfatase C, a microsomal marker, and 5' nucleotidase, a plasma membrane marker. Our results indicate that the cellular ultrastructure is more sensitive than enzyme activity to changes in culture conditions. The resulting ultrastructural "artifacts" observed under certain conditions were severe enough to result in a mistaken diagnosis. Due to certain difficulties we had previously encountered in heterozygote cultures (for lysosomal storage disorders) of amniotic cells, we decided to examine heterozygote cultures of skin fibroblasts. From these (preliminary) studies it seems that an elevation in the pH over the physiologic levels in the culture media may help to define between normal individuals and affected heterozygotes. On the basis of our results, we recommend that to minimize false positive ultrastructural results for the diagnosis of lysosomal storage disorders, cultures be grown in minimal essential medium, the pH of the medium carefully monitored to remain below 7.4, examining the cultures not later than cell Passage 8 and no later than Day 10 after subculture.
 ...
PMID:Culture conditions found to minimize false positive diagnosis of lysosomal storage disorders. 320 85

The activity of steroid 21-sulfatase, the enzyme that catalyzes the hydrolysis of deoxycorticosterone sulfate (DOC-SO4) is demonstrable in human placenta. Thus, it is possible that this placental enzyme, by way of the hydrolysis of either DOC-SO4 or 21-hydroxypregnenolone mono- or di-sulfate of fetal origin, may be important in the biosynthesis of DOC, which is present in the plasma of pregnant women in high concentration. To investigate this issue further, we evaluated steroid 21-sulfatase activity in microsomal preparations of a sulfatase-deficient placenta. Immediately after delivery, at term, of a living male fetus with sulfatase deficiency, a microsome-enriched fraction of placental tissue was prepared; sulfatase activity was evaluated by use of three substrates, viz. dehydroisoandrosterone sulfate (DS), estrone sulfate (E1-SO4), and DOC-SO4, in various concentrations. Similar incubations were conducted with aliquots of a microsome-enriched fraction prepared from placental tissue of a normal fetus that was delivered, at term, within minutes of the time of delivery of the infant with sulfatase deficiency. In microsomal fractions from the normal placenta, each of the steroid sulfates was hydrolyzed. In the absence of microsomes, and in the presence of microsomal fractions from the sulfatase-deficient placenta, the hydrolysis of DOC-SO4 and DS was not detected. Moreover, in microsomes prepared from the sulfatase-deficient placenta, E1-SO4 was hydrolyzed at a rate that was only 10% of that in incubations with microsomal preparations of the normal placenta. We conclude that with sulfatase deficiency, the placenta is deficient not only in sulfatase activity for steroid-3-sulfates but for steroid 21-sulfates, e.g. DOC-SO4, as well.
 ...
PMID:Origin of deoxycorticosterone and deoxycorticosterone sulfate in human pregnancy: absence of steroid 21-sulfatase activity in sulfatase-deficient placenta. 334 51

2,4-Toluenediamine [(TDA) CAS: 95-80-7] was administered to rats pretreated with the microsomal enzyme inducers phenobarbital (PB), beta-naphthoflavone (beta NF), or 3-methylcholanthrene (MCA). The 24-hour urines of male F344 rats were examined for their mutagenic potency by means of the Salmonella assay, with the Aroclor 1254-pretreated rat liver S-9 fraction as an activating system. No revertants were found with TDA or its urinary metabolites in the absence of the S-9 fraction. In the presence of S-9, the number of revertants increased as the concentration of TDA or its urinary metabolites increased. The urinary metabolites, generated after the microsomal enzyme inducers (PB, beta NF, MCA), had increased mutagenic activity as compared with the controls (saline, corn oil). In the presence of beta-glucuronidase (beta G), increased numbers of TA98 revertants were noted in the urine of rats pretreated with PB, saline, or corn oil. Addition of sulfatase did not alter the number of TA98 revertants. Conversely, beta G treatment of urine from rats pretreated with MCA or beta NF led to a decrease in the number of TA98 revertants as compared to levels in urine without beta G. Addition of known urinary metabolites of TDA, such as 4-acetylamino-2-aminobenzoic acid or 2,4-diacetylaminobenzoic acid, to beta NF-pretreated rat urine had no inhibitory effect on the mutagenicity in the absence of beta G. However, in the presence of beta G, the inhibitory effect was similar to that noted with beta NF-pretreated rat urine. Upon separation of urinary metabolites (beta NF-pretreated rat urine) into free, conjugated, and water-soluble forms, the maximum number of TA98 revertants was associated with the free ethyl acetate-extractable fraction, which accounted for the total mutagenic activity associated with the original volume of urine. Conjugated metabolites showed much less mutagenic activity, and an inhibitory principle was associated with the water-soluble fraction.
 ...
PMID:Effect of microsomal enzyme inducers on the urinary excretion pattern of mutagenic metabolites of the carcinogen 2,4-toluenediamine. 345 67

Steroid sulfatase (STS) and aryl sulfatase C (ASC) in leucocytes, as well as the electrophoretic mobility of the beta-lipoproteins, were analyzed in 34 patients with autosomal dominant ichthyosis (ADI), 18 patients with X-linked recessive ichthyosis (XRI), 7 patients with congenital nonbullous ichthyosis (CNBI), and 48 controls. The geometric means of both STS and ASC were significantly lower in the group of XRI by a factor of approximately 10. Analysis of ASC showed a clear separation of the whole group of XRI patients opposed to patients with ADI and CNBI and the controls, whereas an overlapping was observed for STS. With one exception, the clinical and biochemical diagnosis (sulfatase) was confirmed by the results of the lipoprotein electrophoresis (LPE). This case, clinically and biochemically diagnosed as XRI, exhibited normal electrophoretic mobility of beta-lipoproteins. We conclude: if the electrophoretic mobility of beta-lipoproteins is enhanced, XRI can be diagnosed; if the LPE is normal, XRI cannot be excluded; in this case, the diagnosis of XRI can be confirmed or rejected by analysis of the microsomal sulfatases.
 ...
PMID:[Biochemical diagnosis of X chromosomal ichthyosis]. 345 82

When arylsulfatase C, a microsomal membrane-bound enzyme, is assayed with its natural substrates, the 3-beta-hydroxysteroid sulfates, it is also known as steroid sulfatase. Whether arylsulfatase C and steroid sulfatase are identical enzymes or not, however, has long been disputed. We now report that two electrophoretic variants of arylsulfatase C occur in normal human fibroblasts: one has a single anodic band of activity, "s," and the other has an additional faster migrating band, "f". The two types, s and "f + s", occur in cells from either sex. When fibroblast strains with the f + s forms of arylsulfatase C were cloned, two types of primary clones were always obtained: s and f + s. A single f band was never seen. When these primary clones were subcloned, however, the arylsulfatase C phenotype remained unchanged: primary s clones gave rise to s subclones and f + s clones to f + s subclones only. Therefore, these forms were clonal in origin and demonstrated a novel inheritance pattern in human cultured cells. The appearance of increasing amounts of the f band was correlated with up to 4-fold increase of arylsulfatase C activity, whereas the steroid sulfatase activity remained constant, thus demonstrating that arylsulfatase C was not identical with steroid sulfatase activity. Polyclonal antibodies raised against the s form immunoprecipitated activities of the s form of arylsulfatase C and steroid sulfatase but not the f form of arylsulfatase C. Therefore, we conclude that only the s form of arylsulfatase C is immunologically related to steroid sulfatase so that arylsulfatase C per se is not necessarily identical with steroid sulfatase. In addition, a novel form of genetic heterogeneity of isozymes in human fibroblasts is demonstrated.
 ...
PMID:Association of steroid sulfatase with one of the arylsulfatase C isozymes in human fibroblasts. 346

The steryl-sulfatase of normal human placental microsomes was solubilized and enriched about 350-fold. Chromatography on Sepharose 6B of the purified enzyme preparation revealed a single protein peak which eluted according to an apparent molecular mass of 270 +/- 30 kDa; when electrophorized on sodium dodecyl sulfate polyacrylamide gel the sulfatase migrated according to a molecular mass of 64 +/- 4 kDa. Estrogensulfatase activity was co-purified with the steryl-sulfatase activity; obviously, both activities belong to the same enzyme species. The purified sulfatase was injected into three rabbits. Antisera produced by the rabbits yielded a single sharp immunoprecipitation line in Ouchterlony double diffusion experiments when tested with the isolated sulfatase or with a solubilized microsomal fraction of normal placentas. The activity of sulfatase preparations incubated with antiserum was precipitated by addition of polyethylene glycol followed by centrifugation; none of the antibodies reacting with the sulfatase therefore appeared to interfere with its enzymatic activity. Using these antisera, steryl-sulfatase protein could be detected by immunoblotting analysis in solubilized microsomal fractions of normal placentas but not in solubilized microsomal fractions of three steryl-sulfatase activity-deficient placentas. This finding argues in favour of human placental steryl-sulfatase deficiency being due to extremely diminished or absent enzyme protein in the placenta.
 ...
PMID:Human placental steryl-sulfatase. Enzyme purification, production of antisera, and immunoblotting reactions with normal and sulfatase-deficient placentas. 347 15


<< Previous 1 2 3 4 5 6 7 8 9 Next >>