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

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. 3-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.     

Steroid sulphatase inhibitors for breast cancer therapy

In contrast to aromatase inhibitors, which are now in clinical use, the development of steroid sulphatase (STS) inhibitors for breast cancer therapy is still at an early stage. STS regulates the formation of oestrone from oestrone sulphate (E1S) but also controls the hydrolysis of dehydroepiandrosterone sulphate (DHEA-S). DHEA can be reduced to 5-androstenediol (Adiol), a steroid with potent oestrogenic properties. The active pharmacophore for potent STS inhibitors has now been identified, i.e. a sulphamate ester group linked to an aryl ring. This has led to the development of a number of STS inhibitors, some of which are due to enter Phase I trials in the near future. Such first generation inhibitors include the tricyclic coumarin-based 667 COUMATE. Aryl sulphamates, such as 667 COUMATE, are taken up by red blood cells (rbc), binding to carbonic anhydrase II (CA II), and transit the liver without undergoing first-pass inactivation. 667 COUMATE is also a potent inhibitor of CA II activity with an IC₅₀ of 17 nM. Second generation STS inhibitors, such as 2-methoxyoestradiol bis-sulphamate (2-MeOE2bisMATE), in addition to inhibiting STS activity, also inhibit the growth of oestrogen receptor negative (ER⁻) tumours in mice and are anti-angiogenic. As the active pharmacaphores for the inhibition of aromatase and STS are now known it may be possible to develop third generation inhibitors that are capable of inhibiting the activities of both enzymes. Whilst exploring the potential of such a strategy it was discovered that 667 COUMATE possessed weak aromatase inhibitory properties with an IC₅₀ of 300 nM in JEG-3 cells. The identification of potent STS inhibitors will allow the therapeutic potential of this new class of drug to be explored in post-menopausal women with hormone-dependent breast cancer. Second generation inhibitors, such as 2-MeOE2bisMATE, which also inhibit the growth of ER⁻ tumours should be active against a wide range of cancers.     

Biological characteristics of cultured cells derived from various types of human brain tumors

We placed in culture brain tumors from 45 cases (7 cases of astrocytoma, 2 from oligodendrogliomas, 2 glioblastomas, 2 ependymomas, 13 meningiomas, 6 pituitary adenomas, 5 neurinomas, a malignant lymphoma, a choroid plexus papilloma, and 6 metastatic tumors) and succeeded in making a primary culture from 33, and maintained 17 in vitro over a considerable period of time (greater than three months). In the early period of the primary cultures, the astrocytoma cells had cytoplasmic processes which contacted each other, the oligodendroglioma cells were small and spindle-shaped, the glioblastoma cells were neoplastic with pleopmorphic features and possessed cytoplasmic processes, the ependymoma cells formed a rosette-like cell arrangement, the meningioma cells were spindle- or round-shaped cells and characterized as forming psammoma bodies, the pituitary adenoma cells were round- or oval-shaped cells and produced growth hormone (GH), adenocorticoid tropic hormone (ACTH), prolactin, or other hypophyseal hormones, the choroid plexus papilloma cells were round-or polygonal and showed a papillary cell arrangement, the neurinoma cells were spindle- or fibrous-shaped cells, and the malignant lymphoma cells were round and formed cell aggregates floating in the culture medium.     

Steroid sulfatase activity in the rat ovary, cultured granulosa cells, and a granulosa cell line

Direct production of gonadal steroids from sulfated adrenal androgens may be an important alternative or complementary pathway for ovarian steroidogenesis. The conversion of sulfated adrenal androgens, present in serum at micromolar concentrations in adult women, into unconjugated androgens or estrogens requires steroid sulfatase (STS) activity. STS activity has not been characterized in the rat ovary. Substantial STS activity was present in homogenates of rat ovaries, primary cultures of rat granulosa cells, and a granulosa cell line, as determined by conversion of radiolabeled estrone sulfate (E₁S) to unconjugated estrone. The potent inhibitor estrone sulfamate eliminated the STS activity. Using E₁S as a substrate with microsomes prepared from a granulosa cell line, the K_m of STS activity was approximately 72 μM, a value in agreement with previously published data for rat STS. Therefore, ovarian cells possess STS and can remove the sulfate from adrenal androgens such as dehydroepiandrosterone sulfate (DHEA-S). Using DHEA-S as a steroidogenic substrate represents an alternative model for the production of ovarian steroids versus the “two cell, two gonadotropin” model of ovarian estrogen synthesis, whereby thecal cells produce androgens from substrate cholesterol and granulosa cells convert the androgens into estrogens. The relative contribution of STS activity to ovarian steroidogenesis remains unclear but may have important physiological and pathophysiological implications.     

Stimulation of MCF-7 breast cancer cell proliferation by estrone sulfate and dehydroepiandrosterone sulfate: inhibition by novel non-steroidal steroid sulfatase inhibitors

Steroid sulfatase (STS) regulates the formation of active steroids from systemic precursors, such as estrone sulfate and dehydroepiandrosterone sulfate (DHEAS). In breast tissues, this pathway is a source for local production of estrogens, which support the growth of endocrine-dependent tumours. Therefore, inhibitors of STS could have therapeutic potential. In this study, we report on substituted chromenone sulfamates as a novel class of non-steroidal irreversible inhibitors of STS. The compounds are substantially more potent (6- to 80-fold) than previously described types of non-steroidal inhibitors when tested against purified STS. In MCF-7 breast cancer cells, they inhibit STS activity with IC₅₀ below 100 pM. Importantly, the compounds also potently block estrone sulfate-stimulated growth of MCF-7 cells, again with IC₅₀ below 100 pM. For one compound, we also observed a lack of any estrogenic effect at high concentrations (1 μM). We also demonstrate for the first time that STS inhibitors can block the DHEAS-stimulated growth of MCF-7 cells. Interestingly, this cannot be achieved with specific inhibitors of the aromatase, suggesting that stimulation of MCF-7 cell growth by DHEAS follows an aromatase-independent pathway. This gives further justification to consider steroid sulfatase inhibitors as potential drugs in the therapy of breast cancer.     

Enolase Activity and Isoenzyme Distribution in Human Brain Regions and Tumors

Abstract: The distribution of enolase (EC 4.2.1.11) activity and isoenzymes in various regions of human brain at different ages (from 23 weeks of gestation to 95 years) and in brain tumors has been determined. Total enolase activity increased in all regions with age. No significant differences were found in the relative proportions of αα-, αγ-, and γγ-enolase isoenzymes in the various brain regions, determined by agarose gel electrophoresis. Type αα-enolase was the predominant isoenzyme, and αγ-enolase represented a substantial proportion of the total enolase activity. Astrocytomas, anaplastic astrocytomas, glioblastomas, and meningiomas possessed lower enolase activity than normal brain. Among astrocytic tumors, total enolase activity correlated with malignancy. Astrocytomas possessed the lowest and glioblastomas the highest enolase activity. All tumors possessed a higher proportion of αα-enolase and a lower proportion of γγ-enolase than the normal human brain. Among astrocytic tumors, glioblastomas were the tumors with the highest proportion of αα-enolase and lowest proportion of γγ-enolase.     

Sulfation of tibolone metabolites by human postmenopausal liver and small intestinal sulfotransferases (SULTs)

Sulfation is a major pathway in humans for the biotransformation of steroid hormones and structurally related therapeutic agents. Tibolone is a synthetic steroid used for the treatment for climacteric symptoms and postmenopausal osteoporosis. Sulfation inactivates the hydroxylated metabolites, 3alpha-hydroxytibolone (3alpha-OH-tibolone) and 3beta-hydroxytibolone (3beta-OH-tibolone), and contributes to the regulation of tissue responses to tibolone. We detected SULT1A1, SULT1A3, SULT1E1 and SULT2A1 mRNA expression by RT-PCR in postmenopausal liver and small intestine. Liver pool (n=5) SULT activities measured with tibolone substrates reflected COS-1 expressed SULT2A1 and SULT1E1 activities. Liver SULT2A1 activity (1.8 +/- 0.3 units/mg protein, n = 8, mean +/- SEM), and activities with 3alpha-OH-tibolone (0.6 +/- 0.1, n = 8) and 3beta-OH-tibolone (0.9 +/- 0.2, n = 8) were higher than SULT1E1 activities (<0.05, n = 10). SULT1E1 activities were low or not detected in many samples. Mean small intestinal activities were 0.03 +/- 0.01 with 3alpha-OH-tibolone and 0.04 +/- 0.01 with 3beta-OH-tibolone (n = 3). In conclusion, SULT2A1 is the major endogenous enzyme responsible for sulfation of the tibolone metabolites in human postmenopausal tissues. The results support the occurrence of pre-receptor enzymatic regulation of hydroxytibolone metabolites and prompt further investigation of the tissue-selective regulation of tibolone effects.     

Tibolone and its delta-4, 7α-methyl norethisterone metabolite are reversible inhibitors of human aromatase

Tibolone is used for the treatment of climacteric symptoms and osteoporosis in menopausal women. After ingestion, it is rapidly converted to a number of metabolites including 3α- and 3β-hydroxy derivatives and the delta-4, 7α-methylnorethisterone (7α-MeNET) metabolite, which is rapidly cleared from circulation. Tibolone and some of its metabolites act in a tissue-selective manner to inhibit steroid sulphatase (STS) and 17β-hydroxysteroid dehydrogenase Type 1 (17β-HSD1) activities but also stimulate steroid sulphotransferase and 17β-HSD2 activities. In the present study we have examined whether the ability of tibolone and its 7α-MeNET metabolites to regulate the activities of enzymes involved in oestrogen formation or inactivation extends to another key enzyme involved in oestrogen synthesis, the aromatase, which converts androstenedione to oestrone. Using JEG-3 choriocarcinoma cells, which have a high level of aromatase activity, tibolone and 7α-MeNET, but not the 3α- or 3β-hydroxy metabolites, were found to inhibit aromatase activity in intact cells and also lysates prepared from these cells (up to 61% inhibition at 10 μM). An investigation into the nature of aromatase inhibition by these compounds revealed that they inhibit aromatase activity by a reversible mechanism. Tibolone and 7α-MeNET also inhibited aromatase activity in MCF-7 breast cancer cells, which have a much lower level of aromatase activity than JEG-3 cells. It is concluded that, in addition to inhibiting STS and 17β-HSD1, tibolone and 7α-MeNET may exert some of their tissue-selective effects in regulating oestrogen synthesis by also inhibiting aromatase activity.     

Immunocytochemical evaluation of proliferative activity in human brain tumours

The immunocytochemical expression of the antigen reacting with the monoclonal antibody Ki-67 (Ki-67 positivity) was investigated in 50 imprint preparations from human brain tumours. Data were related to tumour proliferative activity, as determined from in vivo bromodeoxyuridine (BrdU) incorporation (BrdU-labelling index, BrdU-LI) and histology. The percentage of Ki-67-positive cells was greater than the corresponding BrdU-LI value in all tumours, and the differences in Ki-67 positivity among tumour subtypes paralleled the BrdU-LI differences. Both the BrdU-LI and the percentage of Ki-67 positive cells were significantly greater (P less than 0.005) in the group of clinically aggressive adult tumours, histologically identified as anaplastic astrocytomas and glioblastomas, than in the less aggressive ones (oligodendroglioma, meningiomas, schwannomas, pituitary adenomas, dermoid cyst) and in the cerebral metastatic localizations. These data suggest that Ki-67 positivity, which is easily evaluated with immunocytochemistry, is related to the proliferative activity of brain tumours and that this parameter is endowed with clinical significance.     

2-difluoromethyloestrone 3-O-sulphamate, a highly potent steroid sulphatase inhibitor

Steroid sulphatase is a target enzyme of growing therapeutic importance. The synthesis and in vitro biological evaluation of three novel 2-substituted analogues of oestrone 3-O-sulphamate (EMATE), an established steroid sulphatase inhibitor, are described. One inhibitor, 2-difluoromethyloestrone 3-O-sulphamate (6), was found to have an IC50 of 100 pM and be some 90-fold more potent than EMATE in inhibiting steroid sulphatase activity in a placental microsomal preparation, rendering this agent the most potent steroidal STS inhibitor in vitro reported to date. Lowering of the pKa value of the leaving parent steroid phenol by the 2-difluoromethyl group during irreversible enzyme sulphamoylation most likely facilitates the potent inactivation of steroid sulphatase by (6). However, our preliminary molecular docking studies using the X-ray crystal structure of steroid sulphatase suggest that F.......H interactions between the 2-difluoromethyl group of (6) and hydrogen bond donor residues lining the catalytic site of STS might also contribute to the high potency observed for (6).     

Somatostatin receptors in human cancer: incidence, characteristics, functional correlates and clinical implications.

Somatostatin receptors (SS-R) have been identified in membrane homogenates or tissue sections from several hundred tumors. SS-R were found in most neuroendocrine tumors, i.e. GH and TSH producing pituitary tumors, endocrine gastroenteropancreatic (GEP) tumors, paragangliomas, pheochromocytomas, medullary thyroid carcinomas (MTC) and small cell lung carcinomas. SS-R were also expressed in a majority of malignant lymphomas, in several brain tumors (all meningiomas, most astrocytomas) and in breast tumors. The majority of tumors expressing SS-R are rather differentiated (i.e. astrocytomas vs glioblastomas), but exceptions exist (high grade malignant lymphomas). An inverse relationship exists between SS-R and receptors for epidermal growth factor (EGF-R) incidence in lung tumors, glial tumors and most breast tumors, whereas meningiomas express simultaneously both receptors. A minority of tumors (ovarian tumors, MTC, insulinomas) express a subtype of SS-R, characterized by low affinity for the octapeptide SS analog octreotide. The function mediated by SS-R in human tumors may differ according to the tumor type. SS-R in pituitary and GEP tumor mediate hormone secretion inhibition with, in addition, possibly some antiproliferative effects. In meningiomas, however, activation of SS-R inhibits forskolin-stimulated adenylate cyclase activity, and weakly stimulates proliferation. Whereas SS-R seem to mediate antiproliferative effects in animal models and cell lines of lymphomas, breast and lung tumors, such an effect has not yet been convincingly documented in human primary tumors. The clinical implications of the presence of SS-R in tumors are manyfold: (1) as a predictive marker for efficient therapy with octreotide in pituitary and GEP tumors; (2) as a diagnostic marker: for pathobiochemical classification of tumors, using in vitro detection methods; for clinical evaluation using in vivo scanning techniques; (3) as a prognostic marker; and (4) as a potential radiotherapeutic target.     

鞍区常见肿瘤影像学诊断现状

鞍区占位包括垂体起源的和非垂体起源的占位性病变,其中以垂体腺瘤最为常见。由于鞍区其他占位性病变在颅内的解剖位置与垂体腺瘤十分接近,因此垂体腺瘤的诊断与鞍区其它肿瘤的鉴别诊断,是影像科医师所面临的挑战。将鞍区其它少见的占位性病变与垂体腺瘤相鉴别,给出正确的诊断对于指导临床手术入路和避免术中和术后出现并发症(如脑脊液漏、颅内感染),具有重要意义。其中鞍区占位性病变常需要将垂体腺瘤与Rathke囊肿、颅咽管瘤、鞍区脑膜瘤、脊索瘤、颅内转移瘤相鉴别。本文总结了目前垂体腺瘤等其他占位性病变的影像学表现以及影像学特征,以便于鞍区常见肿瘤的诊断和鉴别诊断。     

Somatostatin receptors in normal and tumoral tissue

Somatostatin receptors have been visualized with autoradiography and characterised biochemically in various somatostatin target tissues, such as brain, pituitary, pancreas and gastrointestinal tract, where they are likely to mediate the somatostatin actions. With the same methods, somatostatin receptors have been detected also in tumors originating from somatostatin target tissues: high receptor incidence is found in GH-producing pituitary adenomas as well as in some hormone-producing gastrointestinal tumors. These tumors are often highly responsive to somatostatin analogs in vivo. Among brain tumors, meningiomas usually contain a high density of receptors, suggesting a novel function for somatostatin in the human meninges. Among other human tumors tested, prostate, ovarian and endometrial carcinomas were free of receptors whereas 3 out of 39 mammary tumors contained somatostatin receptors.     

Use of monoclonal antibodies to glial fibrillary acidic protein in the cytologic diagnosis of brain tumors

Monoclonal antibodies were used to immunocytochemically demonstrate glial fibrillary acidic protein (GFAP) in 174 smear preparations of brain tumor tissue in order to investigate the presence and distribution of GFAP in a variety of intracranial tumors and to evaluate the value of this technique in the cytodiagnosis of brain tumors. GFAP-positive cells were found in the astrocytic tumors and in some of the oligodendrogliomas, ependymomas and medulloblastomas. In contrast, schwannomas, meningiomas, a primary lymphoma, a hemangiopericytoma pituitary adenomas, germinomas and metastatic tumors were negative for GFAP. The cytodiagnostic accuracy of the 174 brain tumors was raised from 90.8% to 97.1% when GFAP-immunoperoxidase staining was employed to aid the routine cytologic diagnosis. These findings indicate that immunoperoxidase staining for GFAP can be successfully applied to cytologic specimens and is a useful adjunct to routine cytologic diagnosis.     

Feminization of hepatic S metabolism in male rats with a transplanted (MtT/F4)

After transplantation of MIT/F₄ pituitary tumor cells to male rats of the Fisher strain, the masculine type of hepatic steroid metabolism was changed into a feminine pattern of enzyme activities. Liver metabolism of steroid hormones in female rats was relatively unaffected following transplantation of pituitary tumor cells. Furthermore, extract from MIT/F₄ tumors and “autonomous” pituitary tissue increased the 5α-reductase activity of hepatoma cells in the culture (HTC cells) at subsaturation concentrations of the substrate 4-androstene-3, 17-dione by decreasing the apparent K_m of the enzyme. It is concluded that the pituitary tumor (in accord with the secretion from an “autonomous” pituitary gland) secretes “feminotropin,” a novel hypophyseal principle that probably is an important regulator of hepatic steroid metabolism. It is suggested that pituitary tumor tissue of the MtT/F₄ type could be used as source of feminotropin in purification studies.     

New potent steroid sulphatase inhibitors based on 6-(1-phenyl-1H-1,2,3-triazol-4-yl)naphthalen-2-yl sulphamate derivatives

In the present work, we report a new class of potent steroid sulphatase (STS) inhibitors based on 6-(1-phenyl-1H-1,2,3-triazol-4-yl)naphthalen-2-yl sulphamate derivatives. Within the set of new STS inhibitors, 6-(1-(1,2,3-trifluorophenyl)-1H-1,2,3-triazol-4-yl)naphthalen-2-yl sulphamate 3L demonstrated the highest activity in the enzymatic assay inhibiting the STS activity to 7.98% at 0.5 µM concentration. Furthermore, to verify whether the obtained STS inhibitors are able to pass through the cellular membrane effectively, cell line experiments have been carried out. We found that the lowest STS activities were measured in the presence of compound 3L (remaining STS activity of 5.22%, 27.48% and 99.0% at 100, 10 and 1 nM concentrations, respectively). The measured STS activities for Irosustat (used as a reference) were 5.72%, 12.93% and 16.83% in the same concentration range. Moreover, a determined IC₅₀ value of 15.97 nM for 3L showed that this compound is a very promising candidate for further preclinical investigations.     

CDK5 and Its Activator P35 in Normal Pituitary and in Pituitary Adenomas: Relationship to VEGF Expression

Pituitary tumors are monoclonal adenomas that account for about 10-15% of intracranial tumors. Cyclin-dependent kinase 5 (CDK5) regulates the activities of various proteins and cellular processes in the nervous system, but its potential roles in pituitary adenomas are poorly understood. The kinase activity of CDK5 requires association with an activating protein, p35 (also known as CDK5 activator 1, p35). Here, we show that functional CDK5, associated with p35, is present in normal human pituitary and in pituitary tumors. Furthermore, p35 mRNA and protein levels were higher in pituitary adenomas than in the normal glands, suggesting that CDK5 activity might be upregulated in pituitary tumors. Inhibition of CDK5 activity in rat pituitary cells, reduced the expression of vascular endothelial growth factor (VEGF), a protein that regulates vasculogenesis and angiogenesis. Our results suggest that increased CDK5-mediated VEGF expression might play a crucial role in the development of pituitary adenomas, and that roscovitine and other CDK5 inhibitors could be useful as anticancer agents.     

Design,synthesis, and biological evaluation of new arylamide derivatives possessing sulfonate or sulfamate moieties as steroid sulfatase enzyme inhibitors

A series of new arylamide derivatives possessing terminal sulfonate or sulfamate moieties was designed and synthesized. The target compounds were tested for in vitro inhibitory effects against the steroid sulfatase (STS) enzyme in a cell-free assay system. The free sulfamate derivative 1j was the most active. It inhibited the enzymatic activity by 72.0% and 55.7% at 20 μM and 10 μM, respectively. Compound 1j was further tested for STS inhibition in JEG-3 placental carcinoma cells with high STS enzyme activity. It inhibited 93.9% of the enzyme activity in JEG-3 placental carcinoma cells at 20 μM with an efficacy near to that of the well-established drug STX64 as reference. At 10 μM, 1j inhibited 86.1% of the STS activity of JEG-3. Its IC₅₀ value against the STS enzyme in JEG-3 cells was 0.421 μM. Thus, 1j represents an attractive new non-steroidal lead for further optimization.     

Influenza A virus infection activates cholesterol sulfotransferase (SULT2B1b) in the lung of female C57BL/6 mice

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.