Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 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

Steroid sulfatase is a membrane-bound microsomal enzyme, present in various tissues. In this report, data on sulfatase activity in peripheral blood leukocytes isolated from normal women and the characterization of its enzyme are studied. In addition, sulfatase activities in placental sulfatase deficiency (PSD) and ichthyosis patients including ichthyosis vulgaris (IV) and recessive X-linked ichthyosis (RXLI) were analysed and were compared with normal subjects. Steroid sulfatase activity was measured by using tritium labeled steroid sulfate as the reaction substrate. It is demonstrated that human leukocytes contain a sulfatase activity for pregnenolone sulfate (P5-S), dehydroepiandrosterone sulfate (DHA-S) and estrone sulfate (E1-S) respectively. This enzyme has a greatest affinity for P5-S, but the activity for E1-S was the highest among the three substrates. The steroid sulfatase activity in female leukocytes is significantly stronger than that in normal males (p less than 0.001) as determined by the cleavage of DHA-S. Sulfatase in leukocytes obtained from the PSD babies and RXLI patients had lower sensitivity. In the case of the mother affected with PSD, the activity was less than half of that in normal men (p less than 0.001) and the levels did not overlap with that in normal women. In patients with IV, the activities were in the normal ranges for both males and females. The measurement of leukocyte sulfatase activity would be a clinically useful tool for the diagnosis of PSD carriers and pedigree analysis.
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PMID:Steroid sulfatase activities in human leukocytes: biochemical and clinical aspects. 184 Apr 19

Estrone sulfatase is an important mechanism of local synthesis of biologically active estrogens in human breast cancer. The human placental microsome and breast carcinoma mitochondrial/microsomal estrone sulfatase activity were characterized and inhibition studies performed. The Km of the placental tissue enzyme was 6.83 microM, Vmax 0.015 nmol/min/mg, and for the breast carcinoma tissue Km was 8.91 microM and Vmax 0.022 nmol/min/mg. Danazol produced a significant inhibition of estrone sulfatase (20% with 50 microM danazol). No significant inhibition was seen in the presence of aminoglutethimide, rogletimide, tamoxifen, 4-hydroxyandrostenedione, stilboestrol, or any metabolites of danazol or tamoxifen. Studies with synthetic and naturally occurring steroids demonstrated that the presence of a sulfate group at the 3 position to be the most important factor in determining inhibition, and the most potent inhibitor was 5 alpha-androstene-3 beta,17 beta-diol-3-sulfate (Ki of 2.0 microM). The naturally occurring 3-sulfated steroids all demonstrated competitive inhibition. These studies could form the basis for the design of a potent estrone sulfatase inhibitor which would have potential therapeutic activity in the management of breast cancer.
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PMID:Inhibition of estrone sulfatase enzyme in human placenta and human breast carcinoma. 191 38

Structural and functional alterations in hepatocytes of the European eel, Anguilla anguilla, following a 4-week-exposure to 5, 50, and 250 micrograms/liter dinitro-o-cresol (DNOC) were investigated by means of electron microscopy and biochemistry and compared to liver pathology in eels exposed to the chemical spill into the Rhine river at Basle in November 1986. Whereas phenological parameters (growth, condition factor) are unaffected, ultrastructural and biochemical alterations are detectable at greater than or equal to 50 and 5 micrograms/liter DNOC, respectively. Structural modifications include: rounding-up of the nuclei; fractionation and reduction of the rough endoplasmic reticulum; proliferation of the smooth endoplasmic reticulum (SER), mitochondria, peroxisomes, and lysosomes; bundles of rod-shaped SER profiles; annulate lamellae; membrane whorls within mitochondria; crystallization of the peroxisomal matrix and glycogen bodies; glycogen depletion and lipid augmentation. Structural changes can be correlated to an increase in hepatic lipid and protein contents as well as stimulation of mitochondrial (cytochrome c oxidase), peroxisomal (catalase, allantoinase, uricase), lysosomal (arylsulfatase), and microsomal (esterase) enzymes. An increase in NADPH-cytochrome c reductase and cytochrome P450 as well as UDP-glucuronyltransferase and arylsulfotransferase activities in the microsomal fraction document an induction of hepatic biotransformation as a functional correlate to SER proliferation. Maximum inducibility of biotransformation enzymes at 50 micrograms/liter indicates a biphasic, concentration-dependent reaction of eel liver. Comparison of DNOC-induced effects with liver pathology in eel exposed to the chemical spill in 1986 reveals striking similarities so that DNOC may not be excluded as a possible factor in the fish kill in the Rhine river.
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PMID:Induction of biotransformation in the liver of Eel (Anguilla anguilla L.) by sublethal exposure to dinitro-o-cresol: an ultrastructural and biochemical study. 206 26

To further document the effect of insulin on intestinal maturation, suckling rats were treated either with exogenous insulin (12.5 mU.g body wt, intraperitoneally, twice daily) or with saline from d 8 to 12 postpartum. Sucrase activity in brush border membrane extracts was precociously induced by insulin, whereas the activities of other brush border membrane enzymes (maltase, aminopeptidase, and neutral lactase) were enhanced (+ 30 to + 131%, p less than 0.01 versus controls). The lysosomal enzyme, N-acetyl-beta-glucosaminidase, which normally declines at weaning was significantly (p less than 0.025) decreased in both villus (-51%) and crypt cells (-57%) isolated from the jejunum of insulin-treated rats. The microsomal enzyme, sulfatase C, and the cytosolic enzyme, lactate dehydrogenase, were also sensitive to insulin with decreases in activity ranging from -37 to -63% (p less than 0.05) compared to saline-treated control rats. Insulin at doses of 0.5 or 12.5 mU did not influence plasma total corticosterone levels, which were about 9-fold lower in suckling than in 25-d-old weaned rats. In weaned rats (from d 25 to 32) insulin treatment (12.5 mU) failed to influence the activity of brush border membrane hydrolases or of lysosomal, microsomal, and cytosolic enzymes. The synthesis rate of mature sucrase-isomaltase, measured in weaned rats (32 d) by the incorporation of 14C-leucine into the enzyme precursor protein, was equivalent in both groups. These data demonstrate that the immature enterocyte of the suckling rat is responsive to insulin, whereas the mature enterocyte of the weaned rat is unresponsive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hormonal regulation of the rat small intestine: responsiveness of villus and crypt cells to insulin during the suckling period and unresponsiveness after weaning. 217 34

Steroid sulfatase (STS) activity was studied in the Long-Evans rat testis. The rate of dehydroepiandrosterone sulfate (DHA-S) hydrolysis determined in whole testis homogenates was low compared to that of the corresponding microsomal fractions, which was, in contrast, as high as that expressed in homogenates from purified Leydig cells. Such an increment in STS activity between total homogenates and the corresponding microsomes was not observed for the seminiferous tubules. The STS affinity reported for total testicular microsomes (Km = 3.47 +/- 0.54 microM; mean +/- SEM) was of the same magnitude as that previously reported for Leydig cells, but was about 3 times higher than that measured for whole testis homogenate (Km = 10.11 +/- 0.92 microM). In vivo hCG treatment decreased the STS affinity in total testicular microsomes without affecting this kinetic parameter in whole testis homogenate. These data suggest that the steroid sulfatase expressed in total testicular microsomes (activity and regulation by hCG) could be considered as a good index of Leydig cell STS activity.
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PMID:Steroid sulfatase activity in homogenates, microsomes and purified Leydig cells from adult rat testis. 253 91

The distribution of binding sites for the calcium-mobilizing second messenger inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) was investigated in subcellular fractions of bovine adrenal cortex. The [3H]Ins(1,4,5)P3-binding capacity was enriched in the microsomal fraction, which contained a single class of high affinity binding sites with a Kd of 21.6 +/- 3.0 nM. The specific [3H]Ins(1,4,5)P3 binding appeared to be sharply pH dependent and was inhibited by millimolar concentrations of ATP. Upon fractionation of microsomes on sucrose density gradient there was a clearcut separation of the Ins(1,4,5)P3 receptor-containing fractions from those enriched in specific endoplasmic reticulum markers such as sulfatase C activity or RNA content. The microsomes enriched in Ins(1,4,5)P3-binding sites were of lower density than the endoplasmic reticulum and co-purified partly with the plasma membrane. In addition, Ins(1,4,5)P3-sensitive 45Ca2+ uptake into the microsomes was maximal in the lighter fractions. This distinction between Ins(1,4,5)P3-binding sites and endoplasmic reticulum-derived microsomes was confirmed upon fractionation according to their electrophoretic mobilities by free flow electrophoresis. These results indicate that in adrenal cortical cells, the source of Ca2+ mobilized by Ins(1,4,5)P3 upon stimulation with an agonist is not located in the endoplasmic reticulum. Our data support the hypothesis that a specialized vesicular organelle, distinct from endoplasmic reticulum and in close apposition with the plasma membrane, is involved in intracellular Ca2+ homeostasis.
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PMID:The inositol 1,4,5-trisphosphate-binding site in adrenal cortical cells is distinct from the endoplasmic reticulum. 254 81

Estrone sulfatase activity was characterized in microsomal preparations from rat brain and anterior pituitary. No differences in apparent Km were found in hypothalamic-preoptic area between male (7.5 microM) and female (7.4 microM) rats. Apparent Km's of anterior pituitaries from males (14.5 microM) and females (22.5 microM) were higher than those found in brain. Estrone sulfatase activity was equally inhibited by estradiol-17 beta-3-sulfate, dehydroepiandrosterone-3-sulfate and estrone-3-sulfate indicating a broad range of substrate specificity for this enzyme. Sulfatase activity in female anterior pituitary was found to be twice that of male. Sulfatase activity was distributed similarly in brain tissues between sexes with cerebellum greater than or equal to medial basal hypothalamus greater than preoptic area = cortex. Following gonadectomy, sulfatase activity in anterior pituitary of males was significantly greater than activity found in intact animals (P less than 0.05). This increase in activity, however, was unaffected by treatment with testosterone, dihydrotestosterone or estradiol-17 beta. Gonadectomy did not change sulfatase activity in brains of males or females or in pituitaries of females. However, sulfatase activity in pituitary glands of females changed significantly (P less than 0.05) with stages of the estrous cycle (metestrus less than diestrus less than proestrus less than estrus). These data indicate sulfatase activity in rat anterior pituitary gland may be controlled by gonadal factors while sulfatase activity in brain is regulated differently.
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PMID:Estrone sulfatase activity in rat brain and pituitary: effects of gonadectomy and the estrous cycle. 260 28

Human placental sterylsulfatase was localised in situ by light and electron microscope immunocytochemical techniques as well as in homogenate and tissue extract fractions by enzyme assays. Light microscope observations on frozen sections of term and preterm placenta revealed sterylsulfatase immunoactivity primarily in the syncytiotrophoblast. Electron microscope observations confirmed the light microscope findings; in addition, they showed that the sulfatase is present in the endoplasmic reticulum of endothelial cells, too. In the syncytiotrophoblast, the enzyme was detectable in the cytoplasmic membrane of the nuclear evelope, in the membranes of the rough endoplasmic reticulum, in the plasma membrane with predominant localisation in coated pits, and in the membranes of endosomes and multivesicular bodies; little or no reactivity was detectable over the membranes of the Golgi complex and of lysosomes. Sterylsulfatase immunoactivity was absent in placentas with hereditary sterylsulfatase deficiency. The observations indicate that human placental sterylsulfatase is normally present in the membranes of compartments along the secretory pathway and the endocytic route of cells lining the fetal and maternal blood. Homogenates of normal term placenta as well as membrane vesicle preparations obtained by extraction of trophoblast tissue with isotonic saline were fractionated by differential centrifugation; the fractions were assayed for specific activities of sterylsulfatase and several marker enzymes of cellular topography. In agreement with our immunocytochemical findings, the results of these biochemical localisation experiments indicate the repeatedly described association of the placental sterylsulfatase with microsomal membranes but also point to the presence of the enzyme's activity in the microvillous plasma membrane of the syncytiotrophoblast. This localisation of sterylsulfatase may have functional implications in the placental uptake of circulating steroid sulfates.
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PMID:Human placental sterylsulfatase: immunocytochemical and biochemical localization. 261 Sep 28

Subcellular preparations from rat liver, brain, and kidney and from human liver were tested for their ability to desulfate T3 sulfate (T3SO4). Activity was found associated with the microsomal fraction: rat liver was the most active, hydrolyzing 76 pmol/min.mg protein of T3SO4 while preparations from rat kidney and brain were about 1/5 and 1/20 as active. Microsomal preparations from human liver obtained at autopsy were as active as fresh rat preparations. Thyroxine sulfate was not an active substrate. Microsomes prepared with dithiothreitol and EDTA in order to detect deiodinating activity maintained T3SO4-desulfating activity. Cytosolic preparations containing arylsulfatase activities failed to desulfate T3SO4. Estrone sulfate, dehydroepiandrosterone sulfate, and nitrophenyl sulfate are known substrates for microsome-associated arylsulfatase activities, and these compounds were found to inhibit hydrolysis of T3SO4 to various extents. Of these competing sulfatase substrates, only dehydroepiandrosterone sulfate inhibits T3SO4 desulfation completely. In order to determine whether desulfation occurs in intact cells, isolated hepatocytes were incubated in the presence of 7 and 54 microM T3SO4. These cells were found to hydrolyze 1-1.5% of the sulfate ester/h for up to 3 h. The demonstration of this activity raises the possibility that these hepatic cells may be able to reactivate T3SO4, which has generally been regarded as an irreversibly inactivated metabolite.
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PMID:Desulfation of 3,5,3'-triiodothyronine sulfate by microsomes from human and rat tissues. 296 60


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