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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Receptors for the adrenal and sex steroids arose by a series of gene duplications from an ancestral nuclear receptor in a primitive vertebrate, at least 540 million years ago. Sequence analysis indicates many steroidogenic and steroid-inactivating enzymes, including cytochrome P450s and hydroxysteroid dehydrogenases (HSDs), arose at the same time. The estrogen receptor (ER) appears to be the ancestral steroid receptor. Initially, the redundant duplicated ER had a low specificity for its new ligand. This raises the question: "How was specificity for responses to different steroids regulated early in the evolution of steroid receptors?" Selective expression of these steroid-metabolizing enzymes provided specificity for different steroid responses in primitive vertebrates. 17 beta-Hydroxysteroid dehydrogenase-type 1 (17 beta-HSD-type 1) and 17 beta-HSD-type 2, which preferentially catalyze the reduction and oxidation at C17 of androgens and estrogens, respectively, provide an example of this mechanism. Selective expression of either 17 beta-HSD-type 1 or 17 beta-HSD-type 2 can regulate synthesis or inactivation of androgens or estrogens in specific cells. Steroids also were important in the evolution of land animals, which began about 400 million years ago. Steroidogenic and steroid-inactivating enzymes were recruited to regulate steroid-mediated responses as organ function became more complex. For example, in the kidney 11 beta-HSD-type 2 prevents binding of glucocorticoids to the mineralocorticoid receptor (MR), which is crucial for aldosterone-mediated regulation of electrolyte transport in the distal tubule. We propose that Delta 5 steroids, such as dehydroepiandrosterone and its metabolites, were the ligands for the ancestral ER. Understanding the actions of Delta 5 steroids in amphioxus and lamprey may shed light on adrenarche and neurosteroid actions in humans.
Mol Cell Endocrinol 2004 Feb 27
PMID:Co-evolution of steroidogenic and steroid-inactivating enzymes and adrenal and sex steroid receptors. 1502 75

The efficiency of gene transfer is many times higher in viral than in liposomal transfection. One reason for this is an insufficient intracellular transport of the exogenous DNA into the nucleus in lipofection. Using liposomal transfection techniques for gene therapy is safer than viral approaches, so it would be of great importance to find solutions for their enhancement. We found a 4.51-fold increase in liposomal transfection of T-47D breast cancer cells by the addition of progesterone and a 2.81-fold increase by the addition of cholesterol. The transfection efficiency was measured as the activity of the delivered reporter gene luciferase. The addition of progesterone and cholesterol in combination led to a further enhancement of the transfection efficiency up to 13.72-fold. This additive effect could also be seen when we combined cholesterol with other steroids, but not by the combination of different steroids. All of these steroids alone had also the potential to increase liposomal transfection. Therefore we suggest that steroids and cholesterol enhance liposomal transfection by different mechanisms. Both substances have been shown to shift the exogenous DNA from the cytosol to the nucleus. Steroids normally act through intracellular steroid receptors, which migrate into the nucleus upon activation. The transfected DNA might be co-transported to the nucleus together with the migration of the activated steroid receptors. Even if cholesterol causes also an intracellular shift of DNA to the nucleus, its impact on the fluidity of cellular membranes or on the stability of lipoplexes in serum containing media could be mainly responsible for its effect. If the steroid enhanced liposomal transfection is dependent on the presence of steroid receptors, a specifically-enhanced gene delivery for a subgroup of gynecological tumours expressing high levels of steroid receptors could be possible.
Int J Mol Med 2004 Oct
PMID:Additive effect of steroids and cholesterol on the liposomal transfection of the breast cancer cell line T-47D. 1537 16

In vertebrates, sex is determined essentially by two means, genetic factors located on sex chromosomes and epigenetic factors such as temperature experienced by the individual during development. Steroids, especially estrogens, are clearly involved in gonadal differentiation in non-mammalian vertebrates. In this regard, the expression of the estrogen-producing enzyme, aromatase, has been shown to be temperature-sensitive in species where temperature can reverse sex differentiation, especially in our model, the amphibian Pleurodeles waltl. We investigated here the regulation of aromatase expression in the brain during sex differentiation in Pleurodeles. We first isolated a brain isoform of aromatase mRNA which differs in its 5' untranslated region from the isoform previously isolated from adult gonads. In adult Pleurodeles, the brain isoform is mainly expressed in brain tissue while the other isoform is gonad specific. Thus, regulation of aromatase expression in P. waltl could occur by alternative splicing of non-coding exon 1 as previously described in mammals. We then investigated aromatase expression in the brain of male and female larvae and found no differences with regard to sex. Measures of aromatase activity in the brain also showed no differences between sexes at larval stages whereas activity markedly increases in the ovary concomitant with the start of gonadal differentiation. These results support the hypothesis that aromatase could be a target of a temperature-sensitive sex-reversing effect in the gonads but not in the brain.
J Mol Endocrinol 2004 Dec
PMID:Cerebral and gonadal aromatase expressions are differently affected during sex differentiation of Pleurodeles waltl. 1559 Oct 30

This study examined the involvement of sulphoconjugation in the biosynthesis of the 16-androstene steroids in Leydig cells of the mature boar, since the formation of steroid sulphoconjugates can reduce the levels of these steroids that accumulate in fatty tissue. Leydig cells were purified from testes of mature male pigs and incubated with pregnenolone, or various individual 16-androstene steroids for 10 min, 1, 4 and 8h. Sulphoconjugated steroids were recovered by solid-phase extraction followed by solvolysis. Profiles of unconjugated and sulphoconjugated steroids were analysed by HPLC. Steroids present in the sulphoconjugated fractions were purified, derivatised as O-methoxime/trimethylsilyl ethers (MO-TMS), and subsequently identified using gas chromatography-mass spectrometry (GC-MS). The principal metabolite produced from incubations with pregnenolone, androstadienol, androstadienone and 5alpha-androstenone was 3beta-androstenol. 16-Androstene steroids that were sulphoconjugated included 5alpha-androstenone, 3beta-androstenol and 3alpha-androstenol. Approximately 70% of the total amount of each 16-androstene steroid was in its sulphoconjugated form after incubations for 4h or more. The finding that sulphoconjugated 5alpha-androstenone was present in large amounts suggests that this steroid may be converted from a 3-keto to a 3-enol form which is subsequently sulphoconjugated. These findings emphasise the need to consider the impact of sulphoconjugation of the 16-androstene steroids and their role in contributing to boar taint.
J Steroid Biochem Mol Biol 2005 Jul
PMID:Synthesis of free and sulphoconjugated 16-androstene steroids by the Leydig cells of the mature domestic boar. 1595 94

In earlier studies [Latif, S.A., Sheff, M.F., Ribeiro, C.E., Morris, D.J., 1997. Selective inhibition of sheep kidney 11beta-hydroxysteroid-dehydrogenase isoform 2 activity by 5alpha-reduced (but not 5beta) derivatives of adrenocorticosteroids. Steroids 62, 230-237], only derivatives of steroid hormones possessing the 5alpha-Ring A-reduced configuration selectively inhibited 11beta-HSD2-dehydrogenase, whereas their 5beta-derivatives were inactive. This present study focuses on an expanded group of endogenous 11-oxygenated, 5alpha and 5beta-Ring A-reduced metabolites of adrenocorticosteroids, and progestogen and androgen steroid hormones. These substances were tested for their inhibitory properties against 11beta-HSD2, 11beta-HSD1-dehydrogenase and 11beta-HSD1 reductase. The present studies showed that the following compounds stand out as potent inhibitors. These are 5alpha-DH-corticosterone, 3alpha,5alpha-TH-corticosterone, 11beta-OH-progesterone, 11beta-OH-allopregnanolone, 11beta-OH-testosterone, and 11beta-OH-androstanediol, inhibitors of 11beta-HSD1-dehydrogenase; 3alpha,5alpha-TH-11-dehydro-corticosterone, 11-keto-progesterone, 11-keto-allopregnanolone, and 11-keto-3beta,5alpha-TH-testosterone, inhibitors of 11beta-HSD1 reductase; 3alpha,5alpha-TH-aldosterone, 5alpha-DH-corticosterone, 3alpha,5alpha-TH-corticosterone,11-dehydro-corticosterone, 3alpha,5alpha-TH-11-dehydro-corticosterone, 11beta-OH-progesterone, 11-keto-progesterone, 11beta-OH-allopregnanolone, 11-keto-allopregnanolone, 11beta-OH-testosterone, and 11-keto-testosterone, inhibitors of 11beta-HSD2. All of these substances have the potential to be derived from adrenally synthesized corticosteroids. Substances with similar structures to those described may help in the design of exogenous agents for the management of a variety of disease states involving 11beta-HSD isoenzymes.
Mol Cell Endocrinol 2005 Nov 24
PMID:Endogenous selective inhibitors of 11beta-hydroxysteroid dehydrogenase isoforms 1 and 2 of adrenal origin. 1618 77

Unique developmental features during puberty, pregnancy, lactation and post-lactation make the mammary gland a prime object to explore genetic circuits that control the specification, proliferation, differentiation, survival and death of cells. Steroids and simple peptide hormones initiate and carry out complex developmental programmes, and reverse genetics has been used to define the underlying mechanistic connections.
Nat Rev Mol Cell Biol 2005 Sep
PMID:Information networks in the mammary gland. 1623 22

A form of steroid sulphate sulphohydrolase (EC 3.1.6.2) hydrolysing the dehydroepiandrosterone sulphate (DHEAS-ase) was purified from human placenta microsomes. During the purification procedure the DHEAS-ase was separated from the oestrone sulphate sulphohydrolase (OS-ase). The purified DHEAS-ase revealed specific activity of 1520 nmolxmin-1xmgprotein-1 and exhibited optimal activity at pH 8.4. The Km value was established to be 3.3+/-0.07x10(-5) M. The pI value was around 8.7. The molecular weight estimated by gel filtration was 7.4 kDa. The purified DHEAS-ase was not sensitive to the common sulphohydrolase inhibitors, such as phosphate, sulphate and sulphide ions, but was inhibited by several phosphohydrolase inhibitors (ammonium molybdate, vanadium oxide(V), zinc acetate). Steroids effected inhibition or activation of the purified enzyme. The data concerning substances reacting with -SH groups suggest that in the physiological conditions DHEAS-ase is controlled by the redox status of the cell.
J Steroid Biochem Mol Biol 2006 Apr
PMID:Dehydroepiandrosterone sulphate sulphohydrolase [correction of sulphoydrolase] from human placenta microsomes--properties of the purified enzyme. 1662 25

Steroids exert long-term modulatory effects on numerous physiological functions by acting at intracellular/nuclear receptors influencing gene transcription. Steroids and neurosteroids can also rapidly modulate membrane excitability and synaptic transmission by interacting with ion channels, that is, ionotropic neurotransmitter receptors or voltage-dependent Ca2+ or K+ channels. More recently, the cloning of a plasma membrane-located G protein-coupled receptor for progestins in various species has suggested that steroids/neurosteroids could also influence second-messenger pathways by directly interacting with specific membrane receptors. Here we review the experimental evidence implicating steroids/neurosteroids in the modulation of synaptic transmission and the evidence for a role of endogenously produced neurosteroids in such modulatory effects. We present some of our recent results concerning inhibitory synaptic transmission in lamina II of the spinal cord and show that endogenous 5alpha-reduced neurosteroids are produced locally in lamina II and modulate synaptic gamma-aminobutyric acid A(GABAA) receptor function during development, as well as during inflammatory pain. The production of 5alpha-reduced neurosteroids is controlled by the endogenous activation of the peripheral benzodiazepine receptor (PBR), which initiates the first step of neurosteroidogenesis by stimulating the translocation of cholesterol across the inner mitochondrial membrane. Tonic neurosteroidogenesis observed in immature animals was decreased during postnatal development, resulting in an acceleration of GABAA receptor-mediated miniature inhibitory postsynaptic current (mIPSC) kinetics observed in the adult. Stimulation of the PBR resulted in a prolongation of GABAergic mIPSCs at all ages and was observed during inflammatory pain. Neurosteroidogenesis might play an important role in the control of nociception at least at the spinal cord level.
J Mol Neurosci 2006
PMID:Fast nongenomic effects of steroids on synaptic transmission and role of endogenous neurosteroids in spinal pain pathways. 1663 74

Urinary steroid profiling provides quantitative information on the steroid biosynthetic and catabolic pathways. It is essential for identification of inborn errors of steroid metabolism, and useful in other disorders with altered steroid secretion. A general method is detailed. Steroids, mostly in the form of glucuronide and sulphate conjugates, are extracted using solid-phase cartridges, followed by enzymatic hydrolysis, re-extraction of freed steroids, formation of methoxime trimethylsilyl derivatives and analysis by sas chromatography and gas chromatography-mass spectrometry. Newborns excrete large quantities of sulphates, so conjugate separation by liquid gel chromatography is used prior to hyrolysis. Normal ranges for adults and children are given, together with advice on chromatogram evaluation and a summary of the profile findings in steroid disorders.
Methods Mol Biol 2006
PMID:Urinary steroid profiling. 1676 77

These studies assessed the effects of 3,4-dihydroxybenzalacetone (ZN-1) and 1-(3,4-dihydroxyphenyl)-2-propanol (ZN-2) on MCF-7 cell proliferation. The compounds blocked [3H]estradiol binding to nuclear type II sites, but did not compete for [3H]estradiol binding to recombinant ERalpha or ERbeta. ZN-1 and ZN-2 inhibited the proliferation of ERalpha and ERbeta positive (MCF-7) and negative (MCF-10A) breast cells, further ruling out direct binding to ER in the mechanism of action of these compounds. Pre-loading type II sites with ZN-1 or ZN-2 reduced [3H]estradiol exchange, strongly suggesting the drugs were binding covalently. ZN-1 treatment resulted in complete occupancy of type II sites and sustained (9 days) inhibition of MCF-7 cell proliferation following its removal from the tissue culture medium. This cell growth inhibition was not due to non-specific toxicity, as the numbers of viable, attached cells per dish (determined by trypan blue dye exclusion) remained constant throughout this 9-day period and eventually reversed by day 19. ZN-2 effects on cell proliferation reversed more rapidly following discontinuation of treatment, a response consistent with the inability of the compound to totally block type II binding. Both ZN-1 and ZN-2 blocked estradiol stimulation of c-Myc and cyclin D1 gene expression in MCF-7 cells, two events that are clearly coupled to cell cycle progression. We suspect this may occur through ZN-1 or ZN-2 modification of nucleosome function and/or chromatin remodeling since nuclear type II sites are localized to a complex of histones H3 and H4 (Shoulars et. al, J Steroid Biochem. Mol. Biol. 96: 19-30, 2005).
Steroids 2006 Oct
PMID:Nuclear type II [3H]estradiol binding site ligands: inhibition of ER-positive and ER-negative cell proliferation and c-Myc and cyclin D1 gene expression. 1683 79


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