Investigations into the biosynthetic pathways for classical and ring B-unsaturated oestrogens in equine placental preparations and allantochorionic tissues

In on-going studies of ‘classical’ and ring B-unsaturated oestrogens in equine pregnancy, the products of metabolism of [2,2,4,6,6-²H₅]-testosterone and [16,16,17-²H₃]-5,7-androstadiene-3β,17β-diol with equine placental subcellular preparations and allantochorionic villi have been identified. Using mixtures of unlabelled and [²H]-labelled steroid substrates has allowed the unequivocal identification of metabolites by twin-ion monitoring in gas chromatography–mass spectrometry (GC–MS). Two types of incubation were used: (i) static in vitro and (ii) dynamic in vitro. The latter involved the use of the Oxycell™ cartridge (Integra Bioscience Systems, St Albans, UK) whereby the tissue preparation was continuously supplied with supporting medium plus appropriate cofactors in the presence of uniform oxygenation. [²H₅]-Testosterone was converted into [²H₄]-oestradiol-17β, [²H₄]-oestrone and [²H₃]-6-dehydro-oestradiol-17 in both placental and chorionic villi preparations, but to a greater extent in the latter, confirming the importance of the chorionic villi in oestrogen production in the horse.

On the basis of GC–MS characteristics (M⁺ m/z 477/482 (as O-methyl oxime-trimethyl silyl ether), evidence for 19-hydroxylation of testosterone was found in static incubations, while the presence of a 6-hydroxy-oestradiol-17 was recorded in dynamic incubations (twin peaks in the mass spectrum at m/z 504/507, the molecular ion M⁺). It was not possible to determine the configuration at C-6. The formation of small, but significant, quantities of [²H₄]-17β-dihydroequilin was also shown, and a biosynthetic pathway is proposed.

In static incubations of placental microsomal fractions, the 17β-dihydro forms of both equilin and equilenin were shown to be major metabolites of [²H₃]-5,7-androstadiene-3,17-diol. Using static incubations of chorionic villi, the deuterated substrate was converted into the 17β-dihydro forms of both equilin and equilenin, together with an unidentified metabolite (base peak, m/z 504/506). The isomeric 17-dihydroequilins were also obtained using the dynamic in vitro incubation of equine chorionic villi, together with the 17β-isomer of dihydroequilenin. Confirmation of the identity of 17β-dihydroequilin and 17β-dihydroequilenin was obtained by co-injection of the authentic unlabelled steroids with the phenolic fraction obtained from various incubations. Increases in the peak areas for the non-deuterated steroids (ions at m/z 414 (17β-dihydroequilin) and 412 (17β-dihydroequilenin) (both as bis-trimethyl silyl ether derivatives) were observed. Biosynthetic pathways for formation of the ring B-unsaturated oestrogens from 5,7-androstadiene-3β,17β-diol are proposed.     

Part of the series: from dietary antioxidants to regulators in cellular signalling and gene expression. Role of reactive oxygen species and (phyto)oestrogens in the modulation of adaptive response to stress

There is increasing evidence that reactive oxygen species (ROS) are not only toxic but play an important role in cellular signalling and in the regulation of gene expression. We, here, discuss two examples of improved adaptive response to an altered cellular redox state. First, differences in longevity between males and females may be explained by a higher expression of antioxidant enzymes in females resulting in a lower yield of mitochondrial ROS. Oestrogens are made responsible for these phenomena. Oestradiol induces glutathione peroxidase-1 and MnSOD by processes requiring the cell surface oestrogen receptor (ER) and the activation of pathways usually involved in oxidative stress response. Second, oxygen radicals produced during moderate exercise as performed during training up-regulate the expression of antioxidant enzymes in muscle cells. An increased level of these enzymes might prevent oxidative damage during exhaustive exercise and should, therefore, not be prevented by antioxidants. The relevance of these findings is discussed in the context with observations made in transgenic animals overexpressing MnSOD or catalase.     

Gonadal steroids regulate the expression of aggrecanases in human endometrial stromal cells in vitro

The human endometrium undergoes cyclic change during each menstrual cycle in response to gonadal steroids. Proteolysis of endometrial extracellular matrix (ECM) is necessary to prepare this dynamic tissue for pregnancy. Proteolytic enzymes such as matrix metalloproteinase (MMP) and closely related a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS) have been assigned key roles in the highly regulated cyclic remodelling of the endometrial ECM. We have previously shown that ADAMTS‐1 undergoes spatiotemporal changes in human endometrial stromal cells under the regulation of gonadal steroids. This suggests that other ADAMTS subtypes, known as aggrecanases, may contribute to the ECM remodelling events that occur in female physiological cycles and in preparation for pregnancy. To determine whether progesterone (P4), 17β‐estradiol (E2), or dihydrotestosterone (DHT), alone or in combination, are capable of regulating ADAMTS‐4, ‐5, ‐8 or ‐9 expression in human endometrial stromal cells in vitro. Real‐time quantitative PCR and Western blot analysis were used to measure ADAMTSs mRNA and protein levels in primary cultures of human endometrial stromal cells (n = 12). P4, DHT but not E2 have regulatory effects on ADAMTS‐8, ‐9 and ‐5 expression. Combined treatment with gonadal steroids did not show any synergistic or antagonistic effects. However, the synthetic steroid antagonists RU486 and hydroxyflutamide specifically inhibited the P4‐ or DHT‐mediated regulatory effects on ADAMTS expression. These studies provide evidence that the regulation of aggrecanases by gonadal steroids in human endometrial stromal cells may play an important role during decidualization.     

17beta-oestradiol up-regulates longevity-related, antioxidant enzyme expression via the ERK1 and ERK2[MAPK]/NFkappaB cascade

Females live longer than males. Oestrogens protect females against aging by up-regulating the expression of antioxidant, longevity-related genes such as glutathione peroxidase (GPx) and Mn-superoxide dismutase (Mn-SOD). The mechanism through which oestrogens up-regulate those enzymes remains unidentified, but may have implications for gender differences in lifespan. We show that physiological concentrations of oestradiol act through oestrogen receptors to reduce peroxide levels in MCF-7 cells (a mammary gland tumour cell line). Oestradiol increases MAP kinase (MAPK) activation as indicated by ERK1 and ERK2 phosphorylation in MCF-7 cells, which in turn activates the nuclear factor kappa B (NFkappaB) signalling pathways as indicated by an increase in the p50 subunit of NFkappaB in nuclear extracts. Blockade of MAPK and NFkappaB signalling reduces the antioxidant effect of oestradiol. Finally, we show that activation of MAPK and NFkappaB by oestrogens drives the expression of the antioxidant enzymes Mn-SOD and GPx. We conclude that oestradiol sequentially activates MAPK and NFkappaB following receptor activation to up-regulate the expression of antioxidant enzymes, providing a cogent explanation for the antioxidant properties of oestrogen and its effects on longevity-related genes.     

The relationship of single-strand breaks in DNA to breast cancer risk and to tissue concentrations of oestrogens

Context: Clinical study of breast cancer patients in Chicago, IL, USA.

Objective: Ascertain the utility of measurements of single-strand breaks (SSB) in DNA for assessment of breast cancer risk.

Methods: Fine-needle aspirates of the breast, SSB by nick translation, percent breast density (PBD), Gail model risk, cumulative methylation index (CMI), enzymes of DNA repair and tissue antioxidants.

Results: DNA repair enzymes and 4-hydroxyestradiol were negatively associated with SSB; CMI and PBD were positively associated.

Conclusions: Quantitative measurement of SSBs by this procedure indicates the relative number of SSBs and is related to promoter methylation, antioxidant availability and percent breast density.     

Measurement of Aromatisation by a Urine Technique Suitable for the Evaluation of Aromatase Inhibitors in Vivo

Abstract

By modification of a recently developed method for separation of radio-labelled urinary oestrogens we were able to separate oestrogen metabolites and measure their isotope ratios in urine following injections of [³H]Δ⁴-androstenedione and [¹⁴C]oestrone. This method provides a useful tool for studying in vivo aromatisation of Δ⁴-androstenedione into oestrone in breast cancer patients before and during treatment with aromatase inhibitors.     

The effect of fresh toad bile on the induction of encystation in Opalina sudafricana parasitic in Bufo regularis

Opalina sudafricana reacted by encystation to small doses (0.04 ml) of fresh toad bile injected subcutaneously into its host Bufo regularis. It is speculated that androgens present in the injected bile of male toads, and oestrogens found in injected bile of female hosts reach the parasites in the recta of the treated animals and induce them to encyst. High doses of bile killed the parasites and their hosts. Small doses of bile (0·04 ml) added to in vitro cultures induced encystation in the opalinids. High doses killed the opalinids in vitro. There is also the possibility that bufodeoxycholic acid found in the toad bile may play a role in inducing the parasites to divide and encyst.     

In vitro steroidogenesis of the gonads of the protogynous Pacific wrasse, Haliochoeres trimaculatus

Testicular and ovarian fragments of the protogynous Pacific wrasse Haliochoeres trimaculatus were incubated in vitro with [³H]pregnenolone ([³H]P₅), [³H]17‐hydroxyprogesterone ([³H]17OHP₄), non‐radioactive (nr) 17β‐oestradiol (nrE₂) or nrP₅ to identify the major gonadal steroidogenic pathways and steroid products in females and in the two male variants of this species, the terminal phase (TP) and initial phase (IP) males. Both testis and ovarian tissues exhibited 7 hydroxylase activity resulting in the formation of 7α‐hydroxypregnenolone (7OHP₅) from [³H]P₅, and many HPLC peaks were identified as products of testicular (c. 29) and ovarian (c. 23) steroidogenesis, and only c. 50% of these metabolites co‐eluted with authentic reference standards; only very small amounts of conjugated steroid were synthesized from any of the precursors. [³H]P₅ was converted by testis mainly to 7αOHP₅, and two unknown steroids, whereas [³H]17OHP₄ metabolism gave rise to [³H]17,20β‐dihydroxy‐4‐pregnen‐3‐one (DHP), 11‐ketotestosterone (11KT), and two unknown steroids. For ovarian tissues, [³H]17OHP₄ and [³H]P₅ were metabolized to form E₂, oestrone (E₁), androstenedione (A₄), 20α‐ and 20β‐dihydroprogesterone (20αDHP and 20βDHP), 7αOHP₅ (from [³H]P₅) and a major unknown. The HPLC steroid profiles for testis incubations for IP and TP males were similar, however, the steroidogenic response of the testis of TP males to human chorionic gonadotrophin, in vitro (determined by hormone assay), was significantly higher than that of IP males.