Human liver steroid sulphotransferase sulphates bile acids

Radominska, Anna; Comer, K. S.; Zimniak, Piotr; Falany, Josie L.; İşcan, Mümtaz; Falany, C.N.

doi:10.1042/bj2720597

Cited by 111 publications

(80 citation statements)

References 42 publications

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“…We also report the induction of Sult2a1/2a2 mRNA by CAR and PXR activators. Sulfation is the major metabolic pathway for the detoxification of the toxic secondary bile acid, lithocholic acid (LCA), and Sult2a1 is the exclusive enzyme for LCA sulfoconjugation (Radominska et al, 1990). Accumulation of secondary bile acids, especially LCA, is a risk factor for cholestatic liver injury and colorectal cancer (Sonoda et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

Regulation of Sulfotransferase Enzymes by Prototypical Microsomal Enzyme Inducers in Mice

Alnouti

Klaassen

2007

J Pharmacol Exp Ther

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Section: Discussionmentioning

confidence: 99%

Regulation of Sulfotransferase Enzymes by Prototypical Microsomal Enzyme Inducers in Mice

Alnouti

Klaassen

2007

J Pharmacol Exp Ther

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“…Raloxifene is sulfated in vitro by at least seven expressed human SULT isoforms including SULTs 1E1 and 2A1 (12,17). SULT1E1 is responsible for the high affinity sulfation of estrogens (14,18,19) while SULT2A1 sulfates hydroxysteroids, bile acids and several therapeutic drugs (10,15,20,21). SULT1E1 and SULT2A1 are also of interest since SULT1E1 can form raloxifene disulfate and SULT2A1 can generate the 3-OH Tib disulfates (10,12).…”

Section: Introductionmentioning

confidence: 99%

Interactions of the human cytosolic sulfotransferases and steroid sulfatase in the metabolism of tibolone and raloxifene

Falany

2007

The Journal of Steroid Biochemistry and Molecular Biology

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Sulfation is important in the metabolism and inactivation of steroidal compounds and hormone replacement therapeutic (HRT) agents in human tissues. Although generally inactive, many steroid sulfates are hydrolyzed to their active forms by sulfatase activity. Therefore, the specific sulfotransferase (SULT) isoforms and the levels of steroid sulfatase (STS) activity in tissues are important in regulating the activity of steroidal and HRT compounds. Tibolone (Tib) is metabolized to three active metabolites and all four compounds are readily sulfated. Tib and the Δ4-isomer are sulfated at the 17β-OH group by SULT2A1 and the 17-sulfates are resistant to hydrolysis by human placental STS. 3α-OH and 3β-OH Tib can form both 3-and 17-monosulfates as well as disulfates. Only the 3β-sulfates are susceptible to STS hydrolysis. Raloxifene monosulfation was catalyzed by at least seven SULT isoforms and SULT1E1 also synthesizes raloxifene disulfate. SULT1E1 forms both monosulfates in a ratio of approximately 8:1 with the more abundant monosulfate migrating on HPLC identical to the SULT2A1 synthesized monosulfate. The raloxifene monosulfate formed by both SULT isoforms is sensitive to STS hydrolysis whereas the low abundance monosulfate formed by SULT1E1 is resistant. The benzothiophene sulfates of raloxifene and arzoxifene were hydrolyzed by STS whereas the raloxifene 4′-phenolic sulfate was resistant. These results indicate that tissue specific expression of SULT isoforms and STS could be important in the inactivation and regeneration of the active forms of HRT agents.

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“…Calculation of k cat values was based on 68,312 as the dimeric molecular mass of hSULT1A1*1. dmd.aspetjournals.org N-desTAM was a notably good substrate for hSULT1E1 with a calculated k cat /K m higher than the catalytic efficiency constant determined for the sulfation of this metabolite either by hSULT1A1*1 in the current work or by hSULT2A1 in our previous findings (Squirewell et al, 2014). These results suggest that hSULT1E1 might potentially generate sufficient concentrations of N-desTAM-S to inhibit the genotoxic effects of tamoxifen due to the action of hSULT2A1, which is possible given the coexpression of hSULT1E1 and hSULT2A1 in tissues such as the liver (Radominska et al, 1990;Miki et al, 2002) and endometrium Rubin et al, 1999;Singh et al, 2008;Andersson et al, 2010).…”

Section: Discussionmentioning

confidence: 73%

The Effects of Endoxifen and Other Major Metabolites of Tamoxifen on the Sulfation of Estradiol Catalyzed by Human Cytosolic Sulfotransferases hSULT1E1 and hSULT1A1*1

Squirewell

Duffel

2015

Drug Metab Dispos

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Tamoxifen is successfully used for both treatment and prevention of estrogen-dependent breast cancer, yet side effects and development of resistance remain problematic. Endoxifen is a major active metabolite of tamoxifen that is being investigated for clinical use. We hypothesized that endoxifen and perhaps other major metabolites of tamoxifen may affect the ability of human estrogen sulfotransferase 1E1 (hSULT1E1) and human phenol sulfotransferase 1A1 isoform 1 (hSULT1A1*1) to catalyze the sulfation of estradiol, an important mechanism in termination of estrogen signaling through loss of activity at estrogen receptors. Our results indicated that endoxifen, N-desmethyltamoxifen (N-desTAM), 4-hydroxytamoxifen (4-OHTAM), and tamoxifen-N-oxide were weak inhibitors of hSULT1E1 with K i values ranging from 10 mM to 38 mM (i.e., over 1000 times higher than the 8.1 nM K m value for estradiol as substrate for the enzyme). In contrast to the results with hSULT1E1, endoxifen and 4-OHTAM were significant inhibitors of the sulfation of 2.0 mM estradiol catalyzed by hSULT1A1*1, with IC 50 values (9.9 mM and 1.6 mM, respectively) that were similar to the K m value (1.5 mM) for estradiol as substrate for this enzyme. Additional investigation of the interaction of these metabolites with the two sulfotransferases revealed that endoxifen, 4-OHTAM, and N-desTAM were substrates for hSULT1E1 and hSULT1A1*1, although the relative catalytic efficiencies varied with both the substrate and the enzyme. These results may assist in future elucidation of cell-and tissue-specific effects of tamoxifen and its metabolites.

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Human liver steroid sulphotransferase sulphates bile acids

Cited by 111 publications

References 42 publications

Regulation of Sulfotransferase Enzymes by Prototypical Microsomal Enzyme Inducers in Mice

Regulation of Sulfotransferase Enzymes by Prototypical Microsomal Enzyme Inducers in Mice

Interactions of the human cytosolic sulfotransferases and steroid sulfatase in the metabolism of tibolone and raloxifene

The Effects of Endoxifen and Other Major Metabolites of Tamoxifen on the Sulfation of Estradiol Catalyzed by Human Cytosolic Sulfotransferases hSULT1E1 and hSULT1A1*1

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