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1.
The human hydroxysteroid sulfotransferase, dehydroepiandrosterone sulfotransferase (DHEA-ST), is highly expressed in liver and adrenal cortex and displays reactivity towards a broad range of hydroxysteroids including 3β-hydroxysteroids, 3-hydroxysteroids, estrogens with a 3-phenolic moiety, and 17-hydroxyl group of androgens. In contrast, characterization of the newly described human hydroxysteroid sulfotransferase SULT2B1 isoforms shows that these enzymes are selective for the sulfation of 3β-hydroxysteroids, such as pregnenolone, epiandrosterone, DHEA, and androstenediol. There was no activity detected towards testosterone, dexamethasone, β-estradiol, androsterone, or p-nitrophenol. The SULT2B1 gene encodes two isoforms, SULT2B1a and SULT2B1b, which are generated by alternate splicing of the first exon; therefore the SULT2B1 isoforms differ at their N-terminals. Northern Blot analysis detected a SULT2B1 message in RNA isolated from the human prostate and placenta. No SULT2B1 message was observed in RNA isolated from human liver, colon, lung, kidney, brain, or testis tissue. Purified SULT2B1a was used to generate a specific rabbit polyclonal anti-SULT2B1 antibody. The anti-SULT2B1 antibody did not react with expressed human EST, P-PST-1, M-PST, DHEA-ST, or ST1B2, during immunoblot analysis. The substrate specificity of the expressed SULT2B1 isoforms suggests that these enzymes are capable of regulating the activity of adrenal androgens in human tissues via their inactivation by sulfation.  相似文献   

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Breast cancer (BC) is the most commonly diagnosed cancer among American women; however, the development of post-menopausal BC is significantly lower in African Americans as compared to Caucasians. Hormonal stimulation is important in BC development and differences in the conversion of dehydroepiandrosterone (DHEA) into estrogens may be involved in the lower incidence of post-menopausal BC in African American women. DHEA sulfation by sulfotransferase 2B1b (SULT2B1b) is important in regulating the conversion of DHEA into estrogens in tissues. SULT2B1b is localized in both cytosol and nuclei of some tissues including cancerous and associated-normal breast tissue. Immunohistochemical staining was used to evaluate the total expression and subcellular localization of SULT2B1b in African American and Caucasian breast tissues. Cell fractionation, immunoblot analysis and sulfation assays were used to characterize the subcellular expression and activity of SULT2B1b in BC tissues and T-47D breast adenocarcinoma cells. Immunohistochemical analysis of SULT2B1b showed that African Americans had a significantly greater amount of SULT2B1b in epithelial cells of associated-normal breast tissue as compared to Caucasians. Also, more SULT2B1b in African American associated-normal breast epithelial cells was localized in the nuclei than in Caucasians. Equivalent levels of SULT2B1b were detected in breast adenocarcinoma tissues from both African American and Caucasian women. Nuclei isolation and immunoblot analysis of both BC tissue and human T-47D breast adenocarcinoma cells demonstrated that SULT2B1b is present in nuclei and cytoplasm.  相似文献   

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Cytosolic sulfotransferase 2B1b (SULT2B1b) catalyzes the sulfation of 3β-hydroxysteroids and functions as a selective cholesterol and oxysterol sulfotransferase. Activation of liver X receptors (LXRs) by oxysterols has been known to be an antiproliferative factor. Overexpression of SULT2B1b impairs LXR's response to oxysterols, by which it regulates lipid metabolism. The aim of this study was to investigate in vivo and in vitro effects of SULT2B1b on liver proliferation and the underlying mechanisms. Primary rat hepatocytes and C57BL/6 mice were infected with adenovirus encoding SULT2B1b. Liver proliferation was determined by measuring the proliferating cell nuclear antigen (PCNA) immunostaining labeling index. The correlation between SULT2B1b and PCNA expression in mouse liver tissues was determined by double immunofluorescence. Gene expressions were evaluated by quantitative real-time PCR and Western blot analysis. SULT2B1b overexpression in mouse liver tissues increased PCNA-positive cells in a dose- and time-dependent manner. The increased expression of PCNA in mouse liver tissues was only observed in the SULT2B1b transgenic cells. Small interference RNA SULT2B1b significantly inhibited cell cycle regulatory gene expressions in primary rat hepatocytes. LXR activation by T0901317 effectively suppressed SULT2B1b-induced gene expression in vivo and in vitro. SULT2B1b may promote hepatocyte proliferation by inactivating oxysterol/LXR signaling.  相似文献   

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The human hydroxysteroid sulfotransferase (SULT) family is comprised of two subfamilies, SULT2A1 and SULT2B1. We characterized the substrate specificity, in vitro biochemical properties, and tissue distribution patterns of human SULT2B1a and SULT2B1b. In contrast to the wide substrate specificity of SULT2A1, SULT2B1a and SULT2B1b specifically catalyzed the sulfonation of 3beta-hydroxysteroids with high catalytic efficiency. Both SULT2B1 enzymes also sulfonated dihydrotestosterone. In vitro studies revealed that the biochemical properties of SULT2B1a and SULT2B1b were not significantly different from each other. However, tissue expression analysis suggested that they are differentially regulated. In contrast to the limited tissue distribution of SULT2A1, SULT2B1 was detected in a variety of hormone-responsive tissues including placenta, ovary, uterus, and prostate. The catalytic activity toward dehydroepiandrosterone and dihydrotestosterone, biologically important androgens, coupled with expression in prostate suggests that SULT2B1 may play a novel regulatory role that protects against the mitogenic effects of androgens.  相似文献   

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The gene for human hydroxysteroid sulfotransferase (SULT2B1) encodes two peptides, SULT2B1a and SULT2B1b, that differ only at their amino termini. SULT2B1b has a predilection for cholesterol but is also capable of sulfonating pregnenolone, whereas SULT2B1a preferentially sulfonates pregnenolone and only minimally sulfonates cholesterol. We have determined the crystal structure of SULT2B1a and SULT2B1b bound to the substrate donor product 3'-phosphoadenosine 5'-phosphate at 2.9 and 2.4 A, respectively, as well as SULT2B1b in the presence of the acceptor substrate pregnenolone at 2.3 A. These structures reveal a different catalytic binding orientation for the substrate from a previously determined structure of hydroxysteroid sulfotransferase (SULT2A1) binding dehydroepiandrosterone. In addition, the amino-terminal helix comprising residues Asp19 to Lys26, which determines the specificity difference between the SULT2B1 isoforms, becomes ordered upon pregnenolone binding, covering the substrate binding pocket.  相似文献   

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Chen Y  Chen X  Zhang S  Chen G 《Biological chemistry》2011,392(10):869-876
Cytosolic sulfotransferases (SULTs) catalyze the sulfation of hormones, neurotransmitters, and xenobiotics, increasing their water solubility. SULTs are not only important for xenobiotic detoxification but they also play important biological roles in the regulation of the activities of various biosignaling molecules and other cellular functions. In this study, we investigated the effects of influenza A virus lung infection on the expression of SULTs in the lung, brain, and liver of female C57BL/6 mice. Our results demonstrate for the first time that SULT2B1b enzyme activity and protein expression are significantly up-regulated in the lung and brain of female mice in response to lung influenza A virus infection. Real-time quantitative PCR results are consistent with Western blot and enzymatic activity data. In mouse liver, mSULT2B1b is not significantly changed. Enzyme activities, protein expression, and mRNA expression of SULT1A1 and SULT2A1 in the lung, brain, and liver of mice were not significantly affected by the infection. The induction of SULT2B1b may be used to inactivate natural liver X receptor ligands and activate the proliferation of T cells in response to influenza A virus infection in the lung and brain of mice. Our results raise the possibility that regulation of SULT2B1b may influence acquired immune responses to infectious diseases.  相似文献   

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As a result of an alternative exon 1, the gene for human hydroxysteroid sulfotransferase (SULTB1) encodes for two peptides differing only at their amino termini. The SULT2B1b isoform preferentially sulfonates cholesterol. Conversely, the SULT2B1a isoform avidly sulfonates pregnenolone but not cholesterol. The outstanding structural feature that distinguishes the SULT2B1 isoforms from the prototypical SULT2A1 isozyme is the presence of extended amino- and carboxyl-terminal ends in the former. Investigating the functional significance of this unique characteristic reveals that removal of 53 amino acids from the relatively long carboxyl-terminal end that is common to both SULT2B1 isoforms has no effect on the catalytic activity of either isoform. On the other hand, removal of 23 amino acids from the amino-terminal end that is unique to SULT2B1b results in loss of cholesterol sulfotransferase activity, whereas removal of 8 amino acids from the amino-terminal end that is unique to SULT2B1a has no effect on pregnenolone sulfotransferase activity. Deletion analysis along with site-directed mutagenesis of SULT2B1b reveal that the amino acid segment 19-23 residues from the amino terminus and particularly isoleucines at positions 21 and 23 are crucial for cholesterol catalysis. In the gene for SULT2B1, exon 1B encodes for only the unique amino-terminal region of SULT2B1b; however, exon 1A encodes for the unique amino-terminal end of SULT2B1a plus an additional 48 amino acids. Thus, if the gene for SULT2B1 employs exon 1B, cholesterol sulfotransferase is synthesized, whereas if exon 1A is used, pregnenolone sulfotransferase is produced.  相似文献   

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Environmental xenoestrogens have been implicated in human reproductive disorders and an increased incidence of breast cancer. Sulfation, a Phase II detoxification mechanism involving the cytosolic sulfotransferases (STs), may be an important mechanism in vivo for fending off these compounds. In this study, we report on the molecular cloning, expression, and purification of two human cytosolic STs, SULT2B1a and SULT2b1b. The activities of these two enzymes, as well as the other eight known human cytosolic STs previously prepared, toward representative environmental xenoestrogens were examined. Activity data showed that P-form (SULT1A1) PST displayed the highest activity toward these compounds, while SULT1C ST #2 also showed considerable activity, indicating that these enzymes may play a more important role in detoxification of environmental xenoestrogens. SULT1C ST #1, SULT2B1a ST, SULT2B1b ST and NST showed negligible or undetectable activity toward these compounds. The other four enzymes, M-form (SULT1A3) PST, SULT1B2 ST, SULT2A1 ST and SULT1E ST showed intermediate levels of activity toward some of these compounds. Kinetic studies on the sulfation of xenoestrogens by P-form (SULT1A1) PST were performed. The results are interpreted in the context of the endocrine-disrupting nature of these xenoestrogens.  相似文献   

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Environmental xenoestrogens have been implicated in human reproductive disorders and an increased incidence of breast cancer. Sulfation, a Phase II detoxification mechanism involving the cytosolic sulfotransferases (STs), may be an important mechanism in vivo for fending off these compounds. In this study, we report on the molecular cloning, expression, and purification of two human cytosolic STs, SULT2B1a and SULT2b1b. The activities of these two enzymes, as well as the other eight known human cytosolic STs previously prepared, toward representative environmental xenoestrogens were examined. Activity data showed that P-form (SULT1A1) PST displayed the highest activity toward these compounds, while SULT1C ST #2 also showed considerable activity, indicating that these enzymes may play a more important role in detoxification of environmental xenoestrogens. SULT1C ST #1, SULT2B1a ST, SULT2B1b ST and NST showed negligible or undetectable activity toward these compounds. The other four enzymes, M-form (SULT1A3) PST, SULT1B2 ST, SULT2A1 ST and SULT1E ST showed intermediate levels of activity toward some of these compounds. Kinetic studies on the sulfation of xenoestrogens by P-form (SULT1A1) PST were performed. The results are interpreted in the context of the endocrine-disrupting nature of these xenoestrogens.  相似文献   

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Human SULT2B1b is distinct from other SULT isoforms due to the presence of unique amino (N)- and carboxy (C)-terminal peptides. Using site-directed mutagenesis, it was determined that phosphorylation of Ser348 was associated with nuclear localization. To investigate the effects of this phosphorylation of Ser348 on activity and cellular localization, an in silico molecular mimic was generated by mutating Ser348 to an Asp. The Asp residue mimics the shape and charge of a phospho-Ser and homology models of SULT2B1b-phospho-S348 and SULT2B1b-S348D suggest a similar significant structural rearrangement in the C-terminal peptide. To evaluate the functional consequences of this post-translational modification and predicted rearrangement, 6His-SULT2B1b-S348D was synthesized, expressed, purified and characterized. The 6His-SULT2B1b-S348D has a specific activity for DHEA sulfation ten-fold higher than recombinant 6His-SULT2B1b (209.6 and 21.8pmolmin(-1)mg(-1), respectively). Similar to native SULT2B1b, gel filtration chromatography showed SULT2B1b-S348D was enzymatically active as a homodimer. Stability assays comparing SULT2B1b and SUL2B1b-S348 demonstrated that SULT2B1b is 60% less thermostable than SULT2B1b-348D. The increased stability and sulfation activity allowed for better characterization of the sulfation kinetics for putative substrates as well as the determination of dissociation constants that were difficult to obtain with wild-type (WT) 6His-SULT2B1b. The K(D)s for DHEA and PAPS binding to 6His-SULT2B1b-S348D were 650±7nM and 265±4nM, respectively, whereas K(D)s for binding of substrates to the WT enzyme could not be determined. Characterization of the molecular mimic SULT2B1b-S348D provides a better understanding for the role of the unique structure of SULT2B1b and its effect on sulfation activity, and has allowed for improved kinetic characterization of the SULT2B1b enzyme.  相似文献   

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Chemoresistance is one of the major problems of colon cancer treatment. In tumors, glycolytic metabolism has been identified to promote cell proliferation and chemoresistance. However, the molecular mechanisms underlying glycolytic metabolism and chemoresistance in colon cancer remains enigmatic. Hence, this research was designed to explore the mechanism underlying the OLR1/c-MYC/SULT2B1 axis in the regulation of glycolytic metabolism, to affect colon cancer cell proliferation and chemoresistance. Colon cancer tissues and LoVo cells were attained, where OLR1, c-MYC, and SULT2B1 expression was detected by immunohistochemistry, RT-qPCR, and western blot analysis. Next, ectopic expression and knockdown assays were implemented in LoVo cells. Cell proliferation was detected by MTS assay and clone formation. Extracellular acidification, glucose uptake, lactate production, ATP/ADP ratio, and GLUT1 and LDHA expression were measured to evaluate glycolytic metabolism. Then, the transfected cells were treated with chemotherapeutic agents to assess drug resistance by MTS experiments and P-gp and SMAD4 expression by RT-qPCR. A nude mouse model of colon cancer transplantation was constructed for in vivo verification. The levels of OLR1, c-MYC, and SULT2B1 were upregulated in colon cancer tissues and cells. Mechanistically, OLR1 increased c-MYC expression to upregulate SULT2B1 in colon cancer cells. Moreover, knockdown of OLR1, c-MYC, or SULT2B1 weakened glycolytic metabolism, proliferation, and chemoresistance of colon cancer cells. In vivo experiments authenticated that OLR1 knockdown repressed the tumorigenesis and chemoresistance in nude mice by downregulating c-MYC and SULT2B1. Conclusively, knockdown of OLR1 might diminish SULT2B1 expression by downregulating c-MYC, thereby restraining glycolytic metabolism to inhibit colon cancer cell proliferation and chemoresistance.Subject terms: Cancer, Cancer therapy  相似文献   

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Lee CH  Lum JH  Cheung BP  Wong MS  Butt YK  Tam MF  Chan WY  Chow C  Hui PK  Kwok FS  Lo SC  Fan DM 《Proteomics》2005,5(4):1160-1166
MG7 is an early gastrointestinal cancer specific monoclonal antibody. It can detect gastric cancer with high sensitivity and specificity. However, the target antigen for MG7 has not been identified. Western blot analysis revealed that the MG7 antibody reproducibly recognized two approximately 35 kDa proteins in the total cell lysates of human gastric carcinoma cell lines KATO III and MKN-45. Using a proteomic approach, we identified these MG7 immunoreactive proteins as the human heterogeneous nuclear ribonucleoprotein A2/B1 (hnRNP A2/B1). Western blot analysis of nuclear and cytosolic fraction of KATO III cells using either MG7 or hnRNP A2/B1 antibodies confirmed that the target antigen is located exclusively in the nucleus. With the use of archival samples, we also found that the level of hnRNP A2/B1 protein was increased in gastric cancer tissues (4 out of 5 patients), when compared to their corresponding matching normal stomach tissue.  相似文献   

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