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
Query: EC:3.1.6.1 (
sulfatase
)
3,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Different estrogen-3-sulfates (estrone-3-sulfate, estradiol-3-sulfate, and estriol-3-sulfate) can provoke important biologic responses in different mammary cancer cell lines; there is a significant increase in progesterone receptor. However, no significant effect was observed with estrogen-17-sulfates. The reason for the biologic response of estrogen-3-sulfates is that these sulfates are hydrolyzed, and no
sulfatase
activity for
C17
-sulfates is present in these cell lines. [3H]-Estrone sulfate is converted in a very high percentage to estradiol (E2) in different hormone-dependent mammary cancer cell lines (MCF-7, R-27, and T47D), but very little or no conversion was found in hormone-independent mammary cancer cell lines (MDA-MB-231 and MDA-MB-436). Different antiestrogens (tamoxifen and its derivatives) and another potent antiestrogen, ICI 164,384, significantly decrease the concentration of estradiol after incubation of estrone sulfate with the different hormone-dependent mammary cancer cell lines. No significant effect in the uptake and conversion of estrone sulfate was observed in hormone-independent mammary cancer cell lines. The data indicate that
sulfatase
activity for estrone sulfate is very low in the hormone-independent cell lines; however, comparative kinetic studies carried out after homogenization of MCF-7 and MDA-MB-436 cells show that
sulfatase
activity is similar, suggesting different mechanisms in the hydrolysis of estrone sulfate in hormone-dependent and hormone-independent cell lines. Progesterone also provokes a significant decrease in uptake and in estradiol levels after incubation of [3H]-estrone sulfate with the MCF-7 cell line. It is concluded that estrogen sulfates can play an important role in the biologic response of estrogens in breast cancer and that control of
sulfatase
and 17-hydroxysteroid dehydrogenase activities are key steps in the concentration and ability of estradiol in the mammary cancer cell line.
...
PMID:Metabolism and biologic response of estrogen sulfates in hormone-dependent and hormone-independent mammary cancer cell lines. Effect of antiestrogens. 237
Estrogen sulfates are quantitatively the most important form of circulating estrogens during the menstrual cycle and in the post-menopausal period. Huge quantities of estrone sulfate and estradiol sulfate are found in the breast tissues of patients with mammary carcinoma. It has been demonstrated that different estrogen-3-sulfates (estrone-3-sulfate, estradiol-3-sulfate, estriol-3-sulfate) can provoke important biological responses in different mammary cancer cell lines: there is a significant increase in progesterone receptor. On the other hand, no significant effect was observed with estrogen-17-sulfates. The reason for the biological response of estrogen-3-sulfates is that these sulfates are hydrolyzed, and no
sulfatase
activity for
C17
-sulfates is present in these cell lines. [3H]Estrone sulfate is converted in a very high percentage to estradiol (E2) in different hormone-dependent mammary cancer cell lines (MCF-7, R-27, T-47D), but very little or no conversion was found in the hormone-independent mammary cancer cell lines (MDA-MB-231, MDA-MB-436). Different anti-estrogens (tamoxifen and derivatives) and another potent anti-estrogen: ICI 164,384, decrease the concentration of estradiol very significantly after incubation of estrone sulfate with the different hormone-dependent mammary cancer cell lines. No significant effect was observed for the uptake and conversion of estrone sulfate in the hormone-independent mammary cancer cell lines. Progesterone provokes an important decrease in the uptake and in estradiol levels after incubation of [3H]estrone sulfate with the MCF-7 cells. It is concluded that in breast cancer: (1) Estrogen sulfates can play an important role in the biological response of estrogens; (2) Anti-estrogens and progesterone significantly decrease the uptake and estradiol levels in hormone-dependent mammary cancer cell lines; (3) The control of the
sulfatase
and 17 beta-hydroxysteroid dehydrogenase activities, which are key steps in the formation of estradiol in the breast, can open new possibilities in the treatment of hormone-dependent mammary cancer.
...
PMID:Importance of estrogen sulfates in breast cancer. 256 May 11
Chemical synthesis and enzyme inhibition results are reported for a series of nonsteroidal
sulfatase
inhibitors, 1-(p-sulfamoyloxyphenyl)-5-(p-t-butylbenzyl)-5-alkanols and the lower active phenolic analogues. These compounds conserve some structural elements from the previously reported potent steroidal inhibitor 3-O-sulfamate-17alpha-(p-t-butylbenzyl)-17beta-hydroxy-estra-1,3,5(10)-triene, while the C18-methyl group and the hydrocarbon backbone represented by the steroid rings B, C, and D were replaced with a free conformational chain. Using estrone sulfate (100 microM) as substrate and homogenate of transfected HEK-293 cells as source of steroid sulfatase activity, the IC(50) values of the best inhibitors, the undecanol derivatives, were 0.4+/-0.1 and >300 nM, respectively, in the sulfamate and phenolic series. Although these sulfamoylated nonsteroidal inhibitors appear a bit less active than their steroidal analogues, they are however more potent than known inhibitors estrone-3-O-sulfamate and p-(O-sulfamoyl)-N-tetradecanoyl tyramine. The optimal side-chain length for the inhibition of steroid sulfatase activity was found to be six carbons, which corresponds to the number of carbons that mimic the B, C and D steroid rings, between C6 and
C17
. Furthermore, compounds with only the t-butylbenzyl group or the alkyl chain of six carbons are less potent inhibitors compared to the one that include both of these hydrophobic substituents. Such results suggest that compound from this later category better mimic the steroidal inhibitor.
...
PMID:Nonsteroidal compounds designed to mimic potent steroid sulfatase inhibitors. 1194 19
Dehydroepiandrosterone (DHEA) and its sulfate (DHEAS) are suggested to be important neurosteroids. We investigated steroid sulfatase (STS) in human temporal lobe biopsies in the context of possible cerebral DHEA(S) de novo biosynthesis. Formation of DHEA(S) in mature human brain tissue has not yet been studied. 17 alpha-Hydroxylase/
C17
-20-lyase and hydroxysteroid sulfotransferase catalyze the formation of DHEA from pregnenolone and the subsequent sulfoconjugation, respectively. Neither their mRNA nor activity were detected, indicating that DHEA(S) are not produced within the human temporal lobe. Conversely, strong activity and mRNA expression of DHEAS desulfating
STS
was found, twice as high in cerebral neocortex than in subcortical white matter. Cerebral
STS
resembled the characteristics of the known placental enzyme. Immunohistochemistry revealed
STS
in adult cortical neurons as well as in fetal and adult Cajal-Retzius cells. Organic anion transporting proteins OATP-A, -B, -D, and -E showed high mRNA expression levels with distinct patterns in cerebral neocortex and subcortical white matter. Although it is not clear whether they are expressed at the blood-brain barrier and facilitate an influx rather than an efflux, they might well be involved in the transport of steroid sulfates from the blood. Therefore, we hypothesize that DHEAS and/or other sulfated 3beta-hydroxysteroids might enter the human temporal lobe from the circulation where they would be readily converted via neuronal
STS
activity.
...
PMID:Steroid sulfatase (STS) expression in the human temporal lobe: enzyme activity, mRNA expression and immunohistochemistry study. 1505 84
3-O-Sulfogalactosylceramides (sulfatides) accumulate in the genetic disease metachromatic leukodystrophy which is due to a defect in the catabolic enzyme,
arylsulfatase A
. Clinical diagnosis is usually confirmed by in vitro enzymatic deficiency of
arylsulfatase A
activity. The diagnosis may be complicated because of
arylsulfatase A
pseudo-deficiencies and another cause of MLD, sphingolipid activator B deficiency. As large quantities of sulfatides can be found in the urine in this disease, sulfatiduria appears as an extremely useful test. As recently enzyme replacement is underway, the quantitative determination, using an internal standard, appears particularly useful as a follow-up. Thus a non-physiological sulfatide was synthesized for this purpose, i.e. 3-O-sulfo-beta-D-
C17
galactosylceramide (3-O-Sulfo-D: -Galactosyl-beta1'-->1-N-Heptadecanoyl-D-erythro-Sphingosine). It has been prepared through condensation of an azidosphingosine derivative with a protected D-galactopyranosyltrichloroacetimidate. Reduction of the azide was followed by acylation of a C-17 fatty acid. The key step was achieved by selective sulfation of the desired hydroxyl group on the sugar residue of the galactosylceramide using the stannylene methodology to give a 3'-sulfated beta-galactosyl C-17 ceramide.
...
PMID:Synthetic sulfogalactosylceramide (sulfatide) and its use for the mass spectrometric quantitative urinary determination in metachromatic leukodystrophies. 1770 43
Metachromatic leukodystrophy (MLD) is a human autosomal recessive lysosomal neurodegenerative disorder that results from the accumulation of sulfatides in the central and peripheral nervous system. It is due to the enzyme deficiency of the sulfatide
sulfatase
i.e. arylsulfatase A (ASA). During adolescence and/or adulthood, there are 2 clinical presentations. It may be that of a degenerative disease of the central nervous system with mainly spastic manifestations or a spino-cerebellar ataxia, or that of a psychosis. As several lines of evidence indicate that the psychotic form of MLD could be a model of psychosis, we decided to do a pluridisciplinary study on 11 psycho-cognitive cases involving mental and psychiatric testing, in comparison with 5 adult motor cases, a biochemical study with enzyme assays and quantitative mass spectrometry of urinary sulfatides, so as to determine whether there were biochemical particularities related to the psychotic forms. For quantitative mass spectrometry (MS), a non physiological sulfatide with
C17
:0 fatty acid was synthesized. The major sulfatide isoforms were present in the 2 clinical forms with the following fatty acids and sphingoid bases: C22:1/d18:1, and /or C22:0/d18:2 (m/z 862.5), C22:0 (OH)/d18:1 (m/z 878,5), C24:0/d18:1 and / or C24:0/C23:1(OH)/d18:2 (m/z 890,3), C24:0 (OH)/d18:1(m/z 906.5). We had shown previously that there were different
ASA
mutations in the psychiatric adult form (heterozygous I179S) versus the adult motor form (homozygous P426L). We show here that there were no relations with the level of
ASA
and with the mass spectrometric study of the sulfatide isoforms which were identical in the 2 clinical forms.
...
PMID:Sulfogalactosylceramides in motor and psycho-cognitive adult metachromatic leukodystrophy: relations between clinical, biochemical analysis and molecular aspects. 1798 Jul 9
