EC:1.1.1.3 - FACTA Search

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Query: EC:1.1.1.3 (HSD)
3,464 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The unique characteristics of the primate (particularly human) fetal adrenal were first realized in the early 1900s when its morphology was examined in detail and compared with that of other species. The unusual architecture of the human fetal adrenal cortex, with its unique and disproportionately enlarged fetal zone, its compact definitive zone, and its dramatic remodeling soon after birth captured the interest of developmental anatomists. Many detailed anatomical studies describing the morphology of the developing human fetal adrenal were reported between 1920 and 1960, and these morphological descriptions have not changed significantly. More recently, it has become clear that fetal adrenal cortical growth involves cellular hypertrophy, hyperplasia, apoptosis, and migration and is best described by the migration theory, i.e. cells proliferate in the periphery, migrate centripetally, differentiate during their migration to form the functional cortical zones, and then likely undergo apoptosis in the center of the cortex. Consistent with this model, cells of intermediate phenotype, arranged in columnar cords typical of migration, have been identified between the definitive and fetal zones. This cortical area has been referred to as the transitional zone and, based on the expression of steroidogenic enzymes, we consider it to be a functionally distinct cortical zone. Elegant experiments during the 1950s and 1960s demonstrated the central role of the primate fetal adrenal cortex in establishing the estrogenic milieu of pregnancy. Those findings were among the first indications of the function and physiological role of the human fetal adrenal cortex and led Diczfalusy and co-workers to propose the concept of the feto-placental unit, in which DHEA-S produced by the fetal adrenal cortex is used by the placenta for estrogen synthesis. Tissue and cell culture techniques, together with improved steroid assays, revealed that the fetal zone is the primary source of DHEA-S, and that its steroidogenic activity is regulated by ACTH. In recent years, function of the human and rhesus monkey fetal adrenal cortical zones has been reexamined by assessing the localization and ontogeny of steroidogenic enzyme expression. The primate fetal adrenal cortex is composed of three functionally distinct zones: 1) the fetal zone, which throughout gestation does not express 3 beta HSD but does express P450scc and P450c17 required for DHEA-S synthesis; 2) the transitional zone, which early in gestation is functionally identical to the fetal zone but late in gestation (after 25-30 weeks) expresses 3 beta HSD, P450scc, and P450c17, and therefore is the likely site of glucocorticoid synthesis, and 3) the definitive zone, which lacks P450c17 throughout gestation but late in gestation (after 22-24 weeks) expresses 3 beta HSD and P450scc, and therefore is the likely site of mineralocorticoid synthesis. Indirect evidence, based on effects of P450c21 deficiency and maternal estriol concentrations, indicate that the fetal adrenal cortex produces cortisol and DHEA-S early in gestation (6-12 weeks). However, controversy exists as to whether cortisol is produced de novo or derived from the metabolism of progesterone, as data regarding the expression of 3 beta HSD in the fetal adrenal cortex early in gestation are conflicting. During the 1960s, Liggins and colleagues demonstrated that in the sheep, cortisol secreted by the fetal adrenal cortex late in gestation regulates maturation of the fetus and initiates the cascade of events leading to parturition. Those pioneering discoveries provided insight into the mechanism underlying the timing of parturition and therefore were of particular interest to obstetricians and perinatologists confronted with the problems of preterm labor. However, although cortisol emanating from the fetal adrenal cortex promotes fetal maturation in primates as it does in sheep, its role in the regulation of primate parturition, unlike that in sheep
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PMID:Developmental and functional biology of the primate fetal adrenal cortex. 918 69

Throughout the majority of intrauterine development, the primate fetal adrenal gland is comprised primarily of fetal zone cells and only late in gestation do definitive zone cells, which express the enzyme delta5-3beta-hydroxysteroid dehydrogenase/isomerase (3beta-HSD) emerge to produce cortisol. The present study was designed to determine whether the induction of definitive zone ACTH receptor messenger RNA (mRNA) levels and components of the steroidogenic pathway known to be expressed specifically in the definitive zone, e.g. the 3beta-HSD enzyme, are dependent upon fetal pituitary ACTH. Fetal pituitaries and adrenal glands were obtained on day 165 (term = day 184) from untreated controls (n = 7) and from baboons in which betamethasone was administered im to the fetus (0.6 mg/100 microl; n = 4) or to the fetus (0.6 mg) and mother (6 mg/ml; n = 4) every other day between days 150 and 164 of gestation. Although fetal pituitary weight was not altered by betamethasone, POMC mRNA levels determined by in situ hybridization were lower (P < 0.05) in betamethasone-treated (0.34 +/- 0.07 arbitrary densitometric units) than in untreated controls (0.63 +/- 0.04). Associated with this decline in pituitary POMC, levels of the major 3.4-kb mRNA transcript for the ACTH receptor expressed as a ratio of beta-actin were approximately 80% lower (P < 0.05) in fetal adrenals of betamethasone-treated baboons (0.12 +/- 0.02) than in untreated controls (0.84 +/- 0.05). In situ hybridization indicated that ACTH receptor mRNA expression in the definitive zone exceeded that in the fetal zone and was reduced by betamethasone. Associated with the decrease in ACTH receptor expression, fetal adrenal weight was suppressed (P < 0.05) by 50% and reflected a marked reduction (P < 0.05) in the size of the cells of the definitive and fetal zones. Betamethasone treatment also induced a decrease (P < 0.05) in the width (microm) of the definitive zone (183 +/- 14 vs. 128 +/- 7; determined by immunohistochemical expression of 3beta-HSD), as well as the levels of the mRNA and protein for 3beta-HSD. Levels of the mRNA for the LDL-receptor and the enzymes 17alpha-hydroxylase-C(17,20) lyase and P450 cholesterol side chain cleavage were also suppressed in adrenals of betamethasone-treated baboons. These findings indicate that treatment of the baboon fetus with betamethasone in late gestation suppressed fetal pituitary POMC mRNA expression and ACTH receptor mRNA levels in the fetal adrenal gland, as well as the hypertrophy and ACTH receptor mRNA and 3beta-HSD mRNA/protein levels in the cells comprising the newly emerging definitive zone. We conclude that ACTH is necessary for the up-regulation of the mRNAs for the ACTH receptor and steroidogenic enzymes in the definitive zone of the primate fetal adrenal gland in late gestation.
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PMID:Inhibition of fetal adrenal adrenocorticotropin receptor messenger ribonucleic acid expression by betamethasone administration to the baboon fetus in late gestation. 920 7

In sheep, increased output of cortisol from the fetal adrenal gland is critical to organ maturation and parturition. Cortisol synthesis is determined in part by the activity of P450(C17) enzyme. We have used immunohistochemistry and Western immunoblotting to examine the distribution of P450(C17) in the ovine fetal adrenal during gestation, and after ACTH or dexamethasone administration to fetuses between Days 125 and 130. The patterns were compared with changes in 3beta-hydroxysteroid dehydrogenase (3beta-HSD) localisation and levels. Adrenal tissue was obtained from four fetuses at each of Days 63-65, 100, 125-130 and term (>140 days). Further animals were chronically catheterised and infused with ACTH, dexamethasone or saline for 96 h beginning on Day 125. Immunohistochemistry for P450(C17), 3beta-HSD, and phenylethanolamine-N-methyl transferase (PNMT) was conducted using standard techniques. At Day 63-65 of pregnancy immunoreactive (ir-)P450(C17) was present in cords of cells throughout the adrenal gland. Ir-P450(C17) was reduced or was undetectable at Day 100, but had increased by Day 125-130, and was present throughout the zona fasciculata of the adrenal cortex of term animals. An increase in P450(C17) protein was also seen between Day 100 and 125 by Western blotting, and after ACTH treatment. Dexamethasone administration led to a marked reduction in ir-P450(C17) levels. In contrast, ir-3beta-HSD was present in the fetal adrenal cortex between Day 100 and term, and was less affected by ACTH or dexamethasone treatment. We conclude that P450(C17) in the fetal sheep adrenal is responsive to regulation by ACTH, and that changes in its levels correlate with previously reported alterations in patterns of cortisol output by the fetal adrenal gland.
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PMID:Immunolocalisation of P450(C17) in the fetal sheep adrenal gland during gestation and in response to ACTH and glucocorticoid administration. 935 4

The ACTH test has been used to confirm the diagnosis of adrenal insufficiency and the classic and the non-classic adrenal hyperplasia due to the 3-HSD, 21 OH e 110H deficiencies. This article reviews the historical aspects of the use of ACTH in the diagnosis of hirsutism and points out its mains indications. In spite of new biological molecular advances in the diagnosis of adrenal enzymatic deficiencies, the use of the ACTH test can help the physician to predict both genothipus and fenothipus in populations with hyperandrogenic manifestations due to non-classical or late-onset congenital adrenal hyperplasia.
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PMID:The ACTH test in the diagnosis of hirsutism. 946 Mar 1

Patients with ectopic ACTH syndrome often develop hypertension and hypokalemic alkalosis with an abnormal increase in the ratio of plasma cortisol to cortisone, indicating that 11 beta-hydroxysteroid dehydrogenase (11 beta HSD) activity is inhibited. Inhibition of 11 beta HSD allows access of cortisol or corticosterone to the mineralocorticoid receptor where it act as a mineralocorticoid. Two isozymes, 11 beta HSD-1 and 11 beta HSD-2, have been cloned and characterized. The rat adrenal expresses the mRNAs for 11 beta HSD-2 and, in lesser amounts, 11 beta HSD-1. We investigated the effect of ACTH on the 11 11 beta HSD-2 activity in the rat adrenal. Rat adrenal cells zone fasciculata (ZF) were dispersed and incubated separately with increasing concentrations of ACTH for 90 min, and secretion of corticosterone (B) and 11-dehydrocorticosterone (A) in the media was measured by enzyme-linked immunoabsorbent assays (ELISA). The conversion of [3H]B to [3H]A in the presence of 0.5 mM NAD+ was evaluated in microsomes prepared from dispersed cells preincubated for 30 min with cyanoketone and metyrapone followed by incubation for 30 min with the same inhibitors, with and without 10 nM ACTH. The dispersed cells of the ZF produced significant amounts of A which increased with ACTH. The basal B/A ratio was 0.97 +/- 0.05. ACTH caused a concentration-dependent increase in the ratio of B/A with a maximum ratio of 9.58 +/- 0.20. ACTH also inhibited the conversion of [3H]B to [3H]A in microsomes in which endogenous B production was inhibited by cyanoketone and metyrapone. ACTH did not change the K(m) for B conversion, but the Vmax was reduced significantly (1.73 +/- 0.43 pmol/min. mg protein), indicating that ACTH suppressed the 11 beta HSD-2 in a noncompetitive fashion. Dibutyryl cyclic AMP (dcAMP) also produced a concentration-dependent increase in the B/A ratio, but various concentrations of calcium did not affect the enzyme activity. In summary, adrenal cells treated with ACTH results in a significant increase in the ratio of B/A in the ZF owing a noncompetitive inhibition of the 11 beta HSD-2 via the ACTH receptor.
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PMID:Regulation of the 11 beta-hydroxysteroid dehydrogenase in the rat adrenal. Decrease enzymatic activity induced by ACTH. 965 70

Although oxidation of cortisol or corticosterone by 11beta-hydroxysteroid dehydrogenase (11beta-HSD) represents the physiological mechanism conferring specificity for aldosterone on the mineralocorticoid receptor in mineralocorticoid target tissues, little attention has been paid until now to the expression and activity of this enzyme in human adrenals. We have shown that human adrenal cortex expresses 11beta-HSD type 2 (11beta-HSD2) gene, and found a marked 11beta-HSD2 activity in microsomal preparations obtained from slices of decapsulated normal human adrenal cortices. Under basal conditions, adrenal slices secreted, in addition to cortisol and corticosterone (B), sizeable amounts of cortisone and 11-dehydrocorticosterone (DH-B), the inactive forms to which the former glucocorticoids are converted by 11beta-HSD. Addition of the 11beta-HSD inhibitor glycyrrhetinic acid elicited a moderate rise in the production of cortisol and B and suppressed that of cortisone and DH-B. ACTH and angiotensin II evoked a marked rise in the secretion of cortisol and B, but unexpectedly depressed the release of cortisone and DH-B. ACTH also lowered the capacity of adrenal slices to convert [3H]cortisol to [3H]cortisone. This last effect of ACTH was concentration-dependently abolished by both aminoglutethimide and cyanoketone, which blocks early steps of steroid synthesis, but not by metyrapone, an inhibitor of 11beta-hydroxylase. Collectively, these findings indicate that the human adrenal cortex possesses an active 11beta-HSD2 engaged in the inactivation of newly formed glucocorticoids. The activity of this enzyme is negatively modulated by the main agonists of glucocorticoid secretion through an indirect mechanism, probably involving the rise in the intra-adrenal concentration of non-11beta-hydroxylated steroid hormones.
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PMID:11beta-hydroxysteroid dehydrogenase expression and activity in the human adrenal cortex. 980 62

In situ hybridization was used to examine cellular differentiation during rat adrenal regeneration, defining zona glomerulosa [cytochrome P-450 aldosterone synthase (P-450aldo) mRNA positive], zona fasciculata [cytochrome P-450 11beta-hydroxylase (P-45011beta) mRNA positive], or zona intermedia [negative for both but 3beta-hydroxysteroid dehydrogenase (3beta-HSD) mRNA positive]. After unilateral adrenal enucleation with contralateral adrenalectomy (ULE/ULA), the expression of all mRNA was reduced at 2 days. From 5 to 10 days, P-45011beta and 3beta-HSD mRNA increased while P-450aldo remained low; at 20 days, all mRNA were increased. From 2 to 10 days, cells adjacent to the capsule showed intermedia cell differentiation; by 20 days, the subcapsular glomerulosa cells reappeared. This suggests that after enucleation the glomerulosa dedifferentiates to zona intermedia. The experiment was repeated in rats where the postenucleation ACTH rise was prevented. Rats underwent ULE with sham ULA (ULE/SULA) or ULE/SULA with ACTH treatment. Adrenals from ULE/SULA rats expressed increased P-450aldo mRNA at 10 days and reduced P-45011beta mRNA and adrenal weight at 30 days. ACTH treatment reversed the pattern toward that seen in ULE/ULA. These findings show that the enucleation-induced dedifferentitation of the glomerulosa cell may result in part from elevated plasma ACTH and that prevention of dedifferentiation may result in impaired regeneration.
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PMID:Changes in the glomerulosa cell phenotype during adrenal regeneration in rats. 1023 30

Adrenarche is the maturational increase of adrenal androgens that takes place in 6-8 year old children. In order to study the role of 3 beta HSD in the regulation of the synthesis of human adrenal androgens, the abundance of 3 beta HSD mRNA (Dot Blot and semiquantitative RT-PCR) was measured in 11 human prepubertal and early pubertal adrenal tissues. Subjects were divided in 2 age groups (Gr): Gr1, < 8 years (y) old (n = 6, range 0.1-2.5) and Gr2, > or = 8 y old (n = 5, range 8.0-13.0). Tissue from one adrenal tumor with Cushing's syndrome (TSC) and 2 virilizing adrenal tumors (TV), as well as adrenal cells prepared from the TSC and from 1 TV were also studied. They were maintained in culture for 3 days in basal conditions (BC) and under ACTH and IGF-1 stimulation. mRNA in Gr1 was higher than in Gr2 (Dot blot: 4.65 +/- 2.70 and 0.28 +/- 0.27 AU, p = 0.006; RT-PCR: 21.5 +/- 12.5 and 6.77 +/- 3.78 AU, p = 0.039, respectively). 3 beta HSD mRNA in TSC (8.74 +/- 1.74) was higher than in the 2 TVs (0.47 +/- 0.02 and 0.87 +/- 0.08) p = 0.001. In TSC cells, basal mRNA (0.82 +/- 0.10) decreased under ACTH (0.55 +/- 0.06), p = 0.005, and increased under IGF-1 (2.36 +/- 0.07), p = 0.006. No changes were observed in TV cells. On day 3, TV cells in BC secreted 1170.0 +/- 210.0 and 335.0 +/- 29.0 pmol/10(6) cells in 24 hs of DHEAS and androstenedione, while TSC cells secreted 17.1 +/- 3.5 and 73.7 +/- 11.7, respectively. Values increased under ACTH in TV cells (2006.0 +/- 360.0 and 525.0 +/- 76.0) and in TSC cells (29.8 +/- 5.4 and 366.8 +/- 129) p < 0.05, but they decreased under IGF-1 only in TSC cells (7.9 +/- 2.4 and 43.7 +/- 6.1) p < 0.05. These data support the hypothesis that human adrenarche could be secondary to a decrease of 3 beta HSD mRNA. Our finding that when 3 beta HSD mRNA decreases androgen secretion increases (ACTH) and when 3 beta HSD mRNA increases androgen secretion decreases (IGF-1), strongly suggests that 3 beta HSD has a modulatory role in adrenal androgen steroidogenesis.
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PMID:[Role of 3 beta hydroxysteroid dehydrogenase (3 beta HSD) in human adrenal androgen synthesis]. 1034 25

The aim of this study was to answer the question whether gonadotropins are able to stimulate the synthesis of delta4 gestagens and androgens in adrenals by the same way as in gonads. Adrenal cells of male guinea pigs (n=12) and adrenocortical cells of sows (n=2) were isolated with collagenase 1A and DNA-se and used in two separate experiments. Cell suspensions divided in quadruplicate number of aliquots for each test were preincubated (1 h) and then incubated (h) with high purity pLH-USDA, pLH-GPZ (this was used only in one experiment), pFSH-NIH (the residual contamination of this preparation with ACTH was not excluded) and ACTH1-24. The concentrations of progesterone (P), 17alpha-hydroxyprogesterone (OH-P), androstenedione (A), testosterone (T) and cortisol (F) in the incubated cells were estimated by RIA. The stimulatory effect of two high purity pLH preparations on P, A and T synthesis in guinea pig adrenal cells and pig adrenocortical cells was demonstrated. Moreover, the synthesis of OH-P in pig adrenocortical cells was also stimulated. It may be concluded that these results are specific for LH, since the used pLH-USDA was deprived of any residual ACTH contamination and pLH-GPZ was chromatographically homogenous. These preparations also showed indirect evidences of the activation of steroid 3beta-hydroxysteroid dehydrogenase/isomerase (3beta HSD) which catalyses the synthesis of these four delta4 steroids from their delta5 path precursors. The LH dependent activation of this enzyme in adrenals, which was demonstrated in this work, supported the well known observations of its independence of ACTH. As high as 6-times increase of P synthesis and 2-5 times increase of OH-P synthesis under the influence of pLH in pig adrenocortical cells (consistent with the species of LH) needs the induction of the labile protein i synthesis, since the cholesterol transport into mitochondria and the extent of pregnenolone and its derivatives synthesis depends on that protein. The influence of LH on adrenal steroidogenesis indicates that adrenal cells are the target not only for ACTH but also for LH. The influence of the used pFSH specimen on adrenal steroidogenesis resembles that of ACTH, including the increase of cortisol synthesis. Due to this similarity and lack of evidences of excluding residual ACTH contamination of such pFSH specimen, these results are considered nonspecific. Thus, the problem of FSH influence on adrenal steroidogenesis is still open. Regardless of that, the presented demonstration of specific LH effect appears to be an original contribution to the basic knowledge on adrenal steroidogenesis.
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PMID:Specific Stimulatory Effect of LH on the Synthesis of delta4 Gestagens and Androgens in Adrenocortical Cells in vitro. 1040 64

The type 2 isozyme of 11beta-hydroxysteroid dehydrogenase inactivates cortisol to cortisone and enables aldosterone to bind to the MR. Congenital deficiency of the enzyme results in cortisol-mediated mineralocorticoid excess and arises because of inactivating mutations in the HSD11B2 gene. Inhibition of the enzyme following licorice or carbenoxolone ingestion results in a similar, though milder phenotype and the enzyme is overwhelmed in ectopic ACTH syndrome. Loss of 11beta-HSD2 expression may be important in sodium balance and blood pressure control in some patients with renal disease. Finally, while some studies demonstrate impaired 11beta-HSD activity in broader populations of patients with hypertension, further studies are required to clarify the role of 11beta-HSD2 in 'essential' hypertension.
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PMID:Cortisol as a mineralocorticoid in human disease. 1041 18

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