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Query: UMLS:C0338671 (Steroids)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Because serum estrogen levels are associated with the presence of osteoarthritis, and cartilage tissue is known to contain estrogen receptors, it is of interest to determine the extent to which estrogen is biosynthesized and/or metabolized in cartilage tissue or isolated chondrocytes. In this preliminary study, using a sensitive assay method, estrogen synthetase (aromatase) was undetectable in articular cartilage or isolated chondrocytes in culture from immature female rabbits. However, estrogen metabolism, specifically estrogen 17 beta-hydroxysteroid dehydrogenase activity, was detected in homogenized cartilage tissue, and at substantially higher specific activities in freshly isolated chondrocytes. These fresh chondrocytes, assayed in culture without any exogenous cofactor, demonstrated a significantly higher activity for converting the weak estrogen, estrone, to the more potent estrogen, estradiol. Chondrocytes grown to confluence in culture had very low estrogen 17 beta-hydroxysteroid dehydrogenase specific activity. Homogenized cartilage tissue, tested only with added NADPH as cofactor, also showed a preference for estradiol as the principal product, but this may have been primarily due to the use of reduced cofactor. If subsequent experiments confirm the presence of estrogen 17 beta-hydroxysteroid dehydrogenase activity, and its preference for converting estrone into estradiol, in human cartilage tissue and chondrocytes, this could have substantial implications in the estrogen dependency of osteoarthritis.
Steroids 1992 Oct
PMID:Estrogen metabolism, not biosynthesis, in rabbit articular cartilage and isolated chondrocytes: a preliminary study. 145 59

All the classes of hormonal steroids physiologically produced in the body (androgens, estrogens, progestagens, and corticosteroids) are able to exert important effects on the brain, but the mechanisms of their actions are not always well understood. Steroids may interact with intracellular receptors to activate the genome, but some of their effects are probably extragenomic and involve interactions with cellular membranes. Moreover, not all the steroids act always in their native molecular form; a large group of them must actually be transformed into "active" metabolites. This may occur at the level of their respective target structures. For example, androgens are metabolized in the brain into estrogens and into 5 alpha-reduced androgens, like 5 alpha-androstan-17 beta-ol-3-one (dihydrotestosterone; DHT) and 5 alpha-androstan-3 alpha, 17 beta-diol (3 alpha-diol). Progesterone, and possibly corticosteroids, may also be transformed into their corresponding 5 alpha-reduced metabolites. Also the cellular target (neurons and/or glial cells) of the hormonal steroids in the brain is not always clear. This review analyzes in detail one of the two major enzymatic systems that transform steroids in the brain, namely the 5 alpha-reductase-3 alpha-(3 beta)-hydroxysteroid dehydrogenase pathway. An active 5 alpha-reductase-3 alpha-hydroxysteroid dehydrogenase system is widely distributed in practically all CNS structures in all phases of development. In the brain, this enzymatic system is not regulated by castration or sex steroid administration; furthermore, neural inputs seem to be ineffective at the hypothalamic level. A recent interesting finding is the presence of high concentrations of the 5 alpha-reductase in the white matter. This probably is due to the fact that the white matter is particularly rich in myelin membranes, with which the enzymatic activity appears to be associated. An active 5 alpha-reductase activity has also been shown to be present in peripheral myelinated nerves. The localization in myelin membranes may suggest a possible involvement of 5 alpha-reduced metabolites of the different steroids in the process of myelination. The presence of the 5 alpha-reductase was analyzed in neurons, astrocytes, and oligodendrocytes isolated from the brains of male rats, as well as in neurons and glial cells grown in culture. Neurons appear to be more active than glial cells in converting testosterone into DHT. Only neurons possess aromatase activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The 5 alpha-reductase in the brain: molecular aspects and relation to brain function. 146 1

Some of antihypertensives, opiate antagonist and antifungal agent can interfere with sexual function in both men and women. Drug-related effects on sexual function may be difficult to distinguish from the direct action of gonadal function. Clinically well known those agents to have sexual dysfunction were selected and examined the direct effect on rat's testicular steroidogenesis in vitro. Donryu rats were decapitated at 11 weeks old and isolated testes were decapsulated and preincubated with Krebs-Ringer-phosphate buffer (KRP) added with 1 micrograms/flask of LH for 60 min at 37 degrees C. Then, incubation was made with prazosin (1 micrograms), clonidine (5 micrograms), verapamil (10 micrograms), naloxone (5 micrograms) and ketoconazole (150 micrograms), 37 degrees C for 180 min in fresh KRP-buffer, respectively. Steroids were analysed with RIA, and microfluorometry after purification with quantitative thin layer chromatography. Prazosin had a tendency to produce dihydrotestosterone (DHT) indicating a facilitation of 5 alpha-reductase, and clonidine showed a significant production of estradiol (E2) with a slight production of DHT indicating a significant facilitation of aromatase. Verapamil had a action to produce significantly E2 with a slight production of DHT, and naloxone showed a significant production of both DHT and E2. Thus, these two agents showed facilitation of both 5 alpha-reductase and aromatase. Ketoconazole had a significant production of both delta 4-androstenedione (delta 4-A) and E2 while it had a significant inhibition of DHT-production, thus this had a significant production of both aromatase and C17,20-lyase while had a significant inhibitory action of 5 alpha-reductase. These findings indicates that comparatively large doses of central-nervous system depressants are one of the factors that interfere with sexual function, but it is not necessary to have direct action to testicular function, however present study revealed that some of them can cause gonadal damage and consequently progressive loss of libido.
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PMID:Disturbance or relatively important actions of antihypertensives, antifungal agent and opiate antagonist to the testicular steroidogenesis in rat. 150 73

Adult male hamsters were maintained under 14 hours of light per day and randomly assigned to groups that received daily afternoon melatonin (25 micrograms) or vehicle injections. Animals from both groups were killed following 4, 8, and 12 weeks of treatment. By 12 weeks, the melatonin-treated hamsters had significant reductions in the weights of the testes and seminal vesicles, serum testosterone levels, and activities did not differ between groups. In a second experiment, hamsters were hypothalamic-preoptic area (HPOA) aromatase activities. Hypothalamic-preoptic area 5 alpha-reductase activities did not differ between groups. In a second experiment, hamsters were again treated with melatonin or vehicle for 12 weeks prior to being killed. After 10 weeks of treatment, groups of melatonin-treated animals received subcutaneous silastic capsules (5, 10, or 20 mm) filled with testosterone. Animals in two other groups were given blank implants or no implants at all. Two weeks later, at autopsy, reproductive organ weights, serum testosterone levels, and HPOA aromatase activities were significantly suppressed by melatonin administration. 5 alpha-Reductase activity in the HPOA was not affected. Hamsters that had been given the 10- and 20-mm testosterone implants exhibited normal seminal vesicle weights and HPOA aromatase activities. These results suggest that melatonin-induced reduction of HPOA aromatase activity is mediated by decreased circulating levels of testosterone.
Steroids 1991 Nov
PMID:Effect of testosterone replacement on the alteration of steroid metabolism in the hypothalamic-preoptic area of male hamsters treated with melatonin. 181 18

Liver cytochrome P450 monooxygenases (P450), a group of isozymes that catalyze the reductive cleavage of molecular oxygen, dominate hepatic metabolism of xenobiotic lipophilic substances. These P450 enzymes exhibit broad and overlapping substrate specificities, in contrast to the P450 isozymes of the steroid biosynthetic pathways, which are highly substrate specific. Hepatic heme pigments, N-alkylated porphyrins, accumulate following the self-catalyzed destruction of P450 by the metabolic activation of 17 alpha-ethynyl steroids. Acetylenic substituted steroidal aromatase inactivators, norethisterone (NET), and 10-(2-propynyl)estr-4-ene-3,17-dione (MDL 18,962) were administered to rats to determine if the acetylenic substituent was activated by hepatic P450 mixed-function oxidases. This metabolism could result in the formation of a reactive species that would alkylate a pyrrole nitrogen atom of heme. Male Sprague-Dawley rats were treated with 0, 10, 30, or 100 mg/kg NET or MDL 18,962 intraperitoneally. Four hours later, these animals received 40 mg/kg sodium pentobarbital and their sleeping times were recorded. On arousal, the rats were killed and their livers were taken for determination of P450 content and formation of N-alkylated porphyrins (green pigments). Norethisterone inhibited hepatic P450 isozymes, resulting in a dose-related increased sleeping time (89.2 +/- 3.5 to 156.3 +/- 7.6 minutes) and decreased P450 levels (maximum 25% decrease at 100 mg/kg), and the amount of green pigments increased with doses of 10 to 100 mg/kg. In contrast, MDL 18,962 treatment did not increase sleeping time and caused only a 15% decrease in hepatic P450 content at 100 mg/kg, with no detectable green pigments.(ABSTRACT TRUNCATED AT 250 WORDS)
Steroids 1991 Apr
PMID:Regioselectivity of metabolic activation of acetylenic steroids by hepatic cytochrome P450 isozymes. 187 82

Adipose tissue is a major, nonglandular site for the aromatization of androgens to estrogens. In this tissue, the aromatase activity resides primarily in the stromal cells, and we have used cultures of stromal cells to study the effects of insulin and insulin-like growth factor I (IGF-I) on aromatase activity. Adipose tissue, obtained during indicated surgery, was digested with collagenase, and the stromal cells were isolated and cultured. Aromatase activity was determined by measuring the tritiated water (3H2O) in the medium after incubating stromal cells with [1 beta-3H]androstenedione. Insulin and IGF-I had no effect on the aromatase activity in cultured adipose stromal cells at concentrations of 10 to 1,000 microU/ml. However, insulin (100 to 1,000 microU/ml) and IGF-I (500 ng/ml) markedly attenuated the stimulatory effect of (Bu)2cAMP, but significantly augmented the dexamethasone-stimulated aromatase activity. The greater effects of IGF-I compared with the effect of insulin are compatible with both effects being mediated through the IGF-I compared with the effect of insulin are compatible with both effects being mediated through the IGF-I receptor. In addition, the effects of insulin in attenuating the aromatase activity in adipose tissue could potentiate its role in hyperandrogenic syndromes in women.
Steroids 1990 Dec
PMID:Aromatase activity in human adipose tissue stromal cells: effect of growth factors. 196 38

Reaction kinetics of the aromatase enzyme and of a new nonsteroidal aromatase inhibitor, R 76 713 (6-[(4-chlorophenyl)(1H-1,2,4-triazol-1-yl)-methyl]-1-methyl-1H- benzotriazole), were studied in ovarian homogenates obtained from pregnant mare's serum gonadotropin (PMSG)-injected female Wistar rats. The Km (Michaelis constant) of the aromatase enzyme with androstenedione as the substrate was 47 +/- 13 nM; for testosterone as the substrate, a value of 159 +/- 10 nM was found. In the presence of increasing concentrations of R 76 713, the Km increased while the Vmax (maximal velocity of enzyme-catalyzed reaction) remained unchanged. Using androstenedione and testosterone as the substrate, Lineweaver-Burk analysis of the data showed a Ki (dissociation constant of the enzyme-inhibitor complex) for R 76 713 of 0.7 +/- 0.3 nM and 1.6 +/- 0.4 nM, respectively. R 76 713 appeared to competitively inhibit the rat ovarian aromatase.
Steroids 1990 Feb
PMID:Aromatase inhibition by R 76 713: a kinetic analysis in rat ovarian homogenates. 232 30

Effective aromatase inhibitors have been developed that contain aryl functionalities at the 7 alpha-position of the steroid nucleus. The exact interactions of 7 alpha-substituted androstenediones with the active site of aromatase is unknown. Fluorescent derivatives may provide a useful spectroscopic method for examining the binding of these inhibitors to the microsomal complex and purified aromatase protein. Dinitrophenyl, dansyl, and naphthyl derivatives of 7 alpha-(4'-amino)phenylthio-4-androstene-3,17-dione and androstenedione were synthesized as potential fluorescent agents. An in vitro assay with human placental microsomes was used to evaluate aromatase inhibitory properties. These fluorescent compounds were effective competitive inhibitors and have apparent Ki values ranging from 24.1 to 86.7 nM.
Steroids 1990 Mar
PMID:Synthesis and biochemistry of fluorescent aromatase inhibitors. 233 59

Benign prostatic hyperplasia is generally regarded as being a hormone-dependent disorder. The inductive action of stromal elements on the glandular epithelium and the demonstrable estrogen sensitivity of the stroma suggest that estrogens may play a role in the etiology of prostatic hyperplasia. This hypothesis forms the theoretical basis for the proposed use of aromatase inhibitors in treatment of this disorder.
Steroids
PMID:Estrogens and benign prostatic hyperplasia: the basis for aromatase inhibitor therapy. 246 Sep 76

The 3-formate (II), 3-acetate (III), 3-bromoacetate (IV), 3-propionate (V), 3-methyl ether (VI), and 3-deoxy-derivative (VII) of 3 beta-hydroxyandrost-4-ene-6,17-dione (I) were synthesized and tested in human placental microsomes for their ability to inhibit aromatase. II, III, and VII of this series were potent inhibitors of aromatase with the IC50's (1.7 and 3.3 microM) of the latter two comparable to that (1.2 microM) of 4-hydroxyandrostenedione. Kinetic studies showed that the three steroids are competitive inhibitors of the enzyme with Ki's of 16.0, 5.5, and 0.61 microM for II, III, and VII. Furthermore, II showed a time-dependent, pseudo-first order rate of inactivation of aromatase with Ki of 20.5 microM and kinact of 1.54 x 10(-2) min-1, while III gave a time-dependent, biphasic loss of the enzyme activity. NADPH and oxygen were required for the time-dependent inactivation and the substrate, androstenedione, prevented it.
Steroids 1989 Sep
PMID:3 beta-hydroxyandrost-4-en-6-one derivatives as aromatase inhibitors. 258 4


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