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Query: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estrogen and androgen receptors were measured in the cytosol prepared from established cell lines of Sertoli, Leydig, myoid, and endothelial cells as well as in primary Sertoli cell-enriched cultures. Estradiol-binding sites with characteristics of estrogen receptors were identified in established lines of Sertoli cells from rat [43 +/- 7 (mean +/- SEM) fmol/mg protein; Kd = 1.1 nM] and mouse (34 +/- 4 fmol/mg protein; Kd = 0.9 nM). The binding sites were estrogen specific, since only estradiol and diethylstilbestrol, but not testosterone, progesterone, or dexamethasone, competed with [3H]estradiol for binding sites in the cytosol prepared from the cell lines. Exposure of the cells to estradiol (10 nM) resulted in accumulation of estrogen receptors in nuclei, with maximal uptake by 30 min. The estrogen receptor concentration was very low or undetectable (less than 10 fmol/mg protein) in primary cultures of rat Sertoli cells that were cultured for 3 days. However, after 15 days in culture, the estrogen receptor concentration increased and reached levels similar to those in the established Sertoli cell lines. No estrogen receptors were measurable in myoid or endothelial cells. By contrast, androgen receptors were identified in all five cell lines and in primary Sertoli cells cultured for 3 and 15 days. The content of both estrogen and androgen receptors in the mouse Sertoli cell line increased as a function of cell density. We conclude from these studies that androgen receptors are present in all of the testicular somatic cell lines examined and in primary Sertoli cells; estrogen receptors are present in Sertoli cell and Leydig cell lines, but not in myoid and endothelial cell lines; the low estrogen receptor concentration in Sertoli cells cultured for 3 days increases 4-fold after 15 days in culture; and cell density is a major regulator of the concentrations of estrogen and androgen receptors in the Sertoli cell line.
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PMID:Estrogen and androgen receptors in Sertoli, Leydig, myoid, and epithelial cells: effects of time in culture and cell density. 673 11

A biphasic pattern of testosterone secretion in response to a single injection of 100 IU hCG has been observed in the rat. Serum testosterone increased from basal levels of 8.7 +/- 3.1 ng/ml (mean +/- SEM) to 23.0 +/- 1.4 ng/ml within 2 h of hCG-stimulation and returned to control levels by 2 days. A second, delayed, but significant increase in serum testosterone occurred, reaching a peak of 24.6 +/- 4.0 ng/ml at 3 days and declining to basal values at 5 days. To study this response further, lower doses of hCG were tried. Administration of 10 IU hCG produced a single peak of testosterone, which did not occur until 24 h. Differences in the serum testosterone response were related to the concentration of hCG measured in the serum after injection, as injection of 1 IU, which failed to increase serum hCG levels above detection, was also inadequate to increase serum testosterone. The response after stimulation with 500 micrograms ovine-LH or 0.1-10.0 micrograms LHRH was also evaluated. Injection of 500 micrograms ovine-LH produced a significant rise in serum testosterone reaching a peak at 2 h of 25.2 +/- 2.6 ng/ml and subsequently declining over the next 48 h to control levels where it remained for 5 days. Stimulation with doses of 0.1 - 10.0 micrograms LHRH produced rapid and short increase in serum LH concentration which induced peaks of testosterone up to 48.8 +/- 14.1 ng/ml 1 h post injection. No secondary peak of testosterone followed. Failure of ovine-LH and LHRH to produce a second testosterone peak suggests that this response may be due to a re-stimulation of the Leydig cell by elevated levels of hCG which persist until the fourth day after injection.
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PMID:Serum Testosterone response to single injection of hCG ovine-LH and LHRH in male rats. 704 Feb 56

Testosterone produced by Leydig cells is critical for the maintenance of spermatogenesis by Sertoli cells throughout adulthood in the rat. However, the presence of androgen receptors (AR) in Leydig cells in prepubertal rats suggests additional roles for androgen in early Leydig cell function and differentiation. In the present study, AR messenger RNA (mRNA) was directly measured by in situ hybridization in sections of rat testes at three developmental stages: on day 21 postpartum, when Leydig cells exist as mesenchymal-like progenitors; on day 35, when they are still immature, producing low amounts of testosterone; and on day 90, when they are fully functional in the sexually mature animal. Testicular AR mRNA was detected in Leydig cells, pericytes, peritubular myoid cells, and Sertoli cells. On day 90, AR mRNA levels in Sertoli cells varied with the cycle of the seminiferous epithelium, achieving peak intensity at stages VII-VIII. Measurements were made by image analysis and expressed as integrated signal intensities per unit labeled area (mean +/- SEM; n = 3 rats at each age). The results showed that levels of Leydig cell and Sertoli cell AR mRNA change significantly during development (P < 0.05). Leydig cell AR mRNA was intermediate on day 21 (at 17.3 +/- 0.7), highest on day 35 (at 26.9 +/- 1.6), and lowest on day 90 (at 11.8 +/- 1.1). The trend for isolated Leydig cells from these three ages was identical. In contrast, Sertoli cell AR mRNA was lowest on day 21 (at 19.3 +/- 1.0), intermediate on day 35 (at 24.5 +/- 1.4), and highest on day 90 (at 36.9 +/- 0.5). In Leydig cells, the highest level of AR mRNA was present during puberty, whereas the greatest amount of AR mRNA in Sertoli cells was present on day 90. This indicates that Leydig cells and Sertoli cells use different mechanisms to maintain AR levels. We infer from these data that Leydig cells are maximally sensitive to androgen during puberty, which is consistent with our hypothesis that androgens facilitate their differentiation.
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PMID:Quantitative analysis of androgen receptor messenger ribonucleic acid in developing Leydig cells and Sertoli cells by in situ hybridization. 764 92

Following their selective destruction 3 weeks previously by administration of ethane dimethanesulphonate (EDS) the regenerative capacity of Leydig cells was assessed in relation to seminiferous tubule morphology in hypophysectomized adult rats administered 7 daily injections of 100 iu hCG. Total Leydig cell volume per testis in hCG-treated rats (30.2 +/- 3.2 microliters, mean +/- SEM) was significantly (p < 0.01) greater than in the testes of rats at 3 and 4 weeks after EDS-treatment (7.6 +/- 0.7 and 22.7 +/- 1.4 microliters, respectively). Regeneration of Leydig cells in hCG-treated rats significantly (p < 0.05) favoured peritubular locations (18.6 +/- 2.8 microliters/testis) compared to central or perivascular sites of origin (11.6 +/- 1.2 microliters/testis). Partial restoration of spermatogenesis occurred in hCG-treated rats (tubule diameters usually > 250 microns) and a significant inverse correlation was found between peritubular Leydig cell percentage, or total volume per testis, and the volumetric proportion of seminiferous tubules (r = -0.94, p < 0.001) or the seminiferous epithelium (r = -0.73 to -0.79, p < 0.05-0.01). No significant (p > 0.4-0.9) correlation existed between centrally-regenerated Leydig cells and these parameters. The results show that in response to hCG stimulation, Leydig cells are more likely to develop around smaller seminiferous tubules, suggesting that hCG alone cannot mimic the expected pattern of Leydig cell regeneration (central and peritubular origins) which occurs during normal sexual maturation or at 3-4 weeks after EDS treatment. It is concluded that other factors, possibly FSH, are required for typical Leydig cell development which in turn may be influenced by local cellular growth factors originating from either the seminiferous tubules or the adjacent intertubular tissue.
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PMID:Effect of seminiferous tubule size on hCG-induced regeneration of peritubular Leydig cells in hypophysectomized, EDS-treated rats. 778 30

The earliest time of secretion of chorionic gonadotrophin (CG) by primate embryos and its role during preimplantation development and implantation are not clearly determined. We cultured in-vivo fertilized/developed zona-intact, morphologically normal morulae (n = 11) and early blastocysts (n = 11), freshly recovered (by non-surgical uterine flushing) on days 5 and 6 of pregnancy, respectively (day 0 = the day following LH surge), from non-superovulated naturally bred rhesus monkeys (Macaca mulatta). Embryos were cultured for a minimum of 24 days in dishes containing 1 ml of CMRL-1066 supplemented with 20% bovine fetal serum in a humidified atmosphere of 5% CO2 in air at 37 degrees C. The culture medium was changed every 48 h. The percentage of hatched blastocysts, developed from morulae and early blastocysts, was 90.9; elapsed times (mean +/- SEM) were 67.8 +/- 4.4 h (morula) and 37.8 +/- 3.6 h (blastocyst). The minimum number of Hoechst-stained cells/hatched blastocyst was 531. The mean diameter (+/- SEM) of cultured embryos increased from 180 microns at the beginning of culture to 374 +/- 28 and 450 +/- 19 microns at the fully expanded and hatched blastocyst stages, respectively. Hatched blastocysts continued to expand (maximum diameter: 1125 +/- 25 microns); after an additional 94-96 h they attached firmly to the serum-coated dishes and produced highly proliferating multinucleate trophectodermal cells, extending to a maximum diameter of 2-6 mm by 11-21 days of culture. Biologically active CG in embryo-grown, serial spent media samples was measured in a mouse Leydig cell bioassay.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In-vitro development of in-vivo produced rhesus monkey morulae and blastocysts to hatched, attached, and post-attached blastocyst stages: morphology and early secretion of chorionic gonadotrophin. 847 35

In vitro studies have shown that corticosterone (B) directly inhibits testosterone (T) production by purified Leydig cells but does so only at high concentrations. 11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) in Leydig cells oxidatively inactivates B, lowering its effective concentration, thus protecting against the suppressive effect of glucocorticoid on T production. The aim of the present study was to assess the significance of B at physiological levels in modulating T production and 11 beta-HSd activity in Leydig cells. To determine the effects of endogenous B on Leydig cell steroidogenesis, male rats (200-250 g body wt) were adrenalectomized (ADX), while control rats were subjected to sham surgery (SHAM). Seven days after surgery: T and LH were measured in serum; T production was measured in aliquots of spent culture media from 3-h incubations of purified Leydig cells; 11 beta-HSD activity and messenger RNA was measured in purified Leydig cells. ADX rats had elevated serum T (P < 0.05) in contrast to SHAM control or ADX rats that received B replacement (1 mg/100 g body wt per day, i.p., on the final 3 days). Serum LH levels were uninfluenced by ADX, with or without B replacement (SHAM), 0.45 +/- 0.16 ng/ml; ADX, 0.35 +/- 0.13 ng/ml; ADX + B, 0.61 +/- 0.09 ng/ml, NS, P > 0.05). This indicated that the alteration of T production was induced by a mechanism that is independent of LH. ADX nearly doubled LH-stimulated T production by purified Leydig cells, from 106.3 +/- 9.3 (SHAM) to 183.2 +/- 16.7 (ADX) ng/10(6) cells.3 h (mean +/- SEM for three replications of the experiment, P < or = 0.02). T production by Leydig cells from the ADX + B treatment group was suppressed to 53% of SHAM values, indicating that B inhibits T production after ADX. The oxidative activity of 11 beta-HSD in Leydig cells exceeded its reductive activity, and both activities declined after ADX. The decline in 11 beta-HSD activities after ADX was prevented by B replacement. Similarly, the steady state levels of 11 beta-HSD messenger RNA declined in Leydig cells after ADX, and this decline was prevented by B replacement. We conclude that physiological levels of B exert a tonic, negative control directly on Leydig cell steroidogenesis and also induce intracellular 11 beta-HSD activity, thereby protecting against B-mediated inhibition of T production. By modulating the level of active glucocorticoid in Leydig cells, 11 beta-HSD is thus a significant determinant of their steroidogenic capacity.
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PMID:Suppression of endogenous corticosterone levels in vivo increases the steroidogenic capacity of purified rat Leydig cells in vitro. 861 6

The quality of serum LH was assessed during pubertal maturation in boys by measuring immunoreactive (I) LH by a time-resolved immunofluorometric assay (IFMA, Delfia), and bioactive (B) LH by a sensitized in vitro bioassay. Seven samples were collected at 3-mo intervals from 14 healthy boys (median starting age 11.8 y) during pubertal maturation from Tanner stage I-III or II-IV (n = 7 for each). The mouse Leydig cell in vitro bioassay was sensitized 10-fold, to 0.05-0.1 IU/L, by including 1.5 mumol/L of forskolin in the incubation medium. The I- and B-LH levels showed good linear correlation throughout the concentration range analyzed. Mean I-LH increased between the pubertal stages I-IV from 0.42 to 2.24 IU/L and that of B-LH from 1.35 to 5.04 IU/L. No concomitant change occurred in the B-LH/I-LH (B/I) ratio, which was 2.84 +/- 0.54 in stage I and 2.58 +/- 0.48 in stage IV (mean +/- SEM, n = 7). Although the B/I ratios of LH varied from 0.59 to 5.85 in the samples analyzed, the intraindividual variation was small (mean coefficient of variance, 22%). In conclusion, IFMA and sensitized in vitro bioassay showed in healthy boys a similar 4-5-fold increase in the mean LH concentration during pubertal maturation, with no concomitant change in the B/I ratio. The sensitized in vitro bioassay of LH is useful for analysis of the low peripubertal LH levels. The good correlation between the I-LH and B-LH levels, and the lack of change in LH B/I ratio, indicate that IFMA correctly estimates the LH levels upon evaluation of pubertal maturation.
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PMID:Sensitive immunoassay and in vitro bioassay demonstrate constant bioactive/immunoreactive ratio of luteinizing hormone in healthy boys during the pubertal maturation. 882 7

We have proposed that the 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) of Leydig cells protects against glucocorticoid-induced inhibition of testosterone (T) production. However, Leydig cells express type I 11 beta-HSD, which has been shown to be reductive in liver parenchymal cells. Because reduction would have the opposite effect of activating glucocorticoid, the present study was designed to determine: 1) whether Leydig cell 11 beta-HSD is primarily oxidative or reductive; and 2) whether oxidative and reductive activities are separately modified by known regulators of Leydig cell steroidogenic function. Leydig cells and liver parenchymal cells were purified from mature male Sprague-Dawley rats (250 g BW), and 11 beta-HSD oxidative and reductive activities were measured using radiolabeled substrates and TLC of triplicate media samples from 1-h incubations immediately after cell isolation. Enzyme activities also were examined in purified Leydig cells at the end of 3 days of culture in vitro in the presence of LH (10 ng/ml), dexamethasone (DEX, 100 nM), T (50 nM), or epidermal growth factor (EGF, 50 ng/ml). In confirmation of previous reports, the reductive activity of 11 beta-HSD was predominant over oxidation in liver parenchymal cells. In contrast, 11 beta-HSD oxidative activity prevailed over reduction in Leydig cells by a ratio of 2:1. The activities of 11 beta-HSD also were analyzed in Leydig cells that were purified 7 days after endogenous glucocorticoid levels were suppressed by adrenalectomy (ADX). Oxidative activity declined in Leydig cells after ADX (22.53 +/- 1.12 pmol/h.10(6) cells, mean +/- SEM vs. 31.47 +/- 1.48 pmol/.10(6) cells in sham-operated controls, P < 0.05), whereas there was no change in reductive activity. This indicated that physiologically active corticosterone is involved in maintaining the predominance of 11 beta-HSD oxidation. When enzyme activities were analyzed in Leydig cells after 3 days of hormonal treatment in vitro, oxidation and reduction were observed to change in opposing directions. Culture of Leydig cells from sham-operated control rats with either LH, T, or EGF resulted in declines in oxidative activity from 33.35 +/- 0.77 to 28.24 +/- 1.93, 27.30 +/- 0.96, and 24.13 +/- 1.02 pmol/ h.10(6) cells (x +/- SE), respectively. However, EGF stimulated 11 beta-HSD reductive activity in cultured Leydig cells from both control (from 18.97 +/- 1.10 to 27.16 +/- 0.71 pmol/h.10(6) cells and ADX rats (from 16.51 +/- 0.75 to 23.56 +/- 0.84 pmol/h.10(6) cells). Among the hormonal treatments, only DEX increased oxidative activity and simultaneously decreased reductive activity in Leydig cells from ADX rats. This increase accentuated the predominance of oxidative activity in Leydig cells, with a ratio of oxidative to reductive activity of 4:1 after DEX treatment, compared with 2:1 in controls that were untreated. We conclude that 11 beta-HSD activity in Leydig cells is primarily oxidative. Moreover, oxidation and reduction are regulated separately by hormones.
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PMID:Hormonal regulation of oxidative and reductive activities of 11 beta-hydroxysteroid dehydrogenase in rat Leydig cells. 897 99

In an attempt to determine whether the seminiferous tubular atrophy of the cryptorchid testis is preventable by early surgical correction of the cryptorchid state, aberrantly developed gubernacula destined to result in a cryptorchid testis in the Long-Evans cryptorchid (LE/ORL) rat were surgically reimplanted to the bottom of the scrotum on day 10 to 12 of age. Testis descent was monitored and the changes in testicular histology and in the volumes of the seminiferous tubules and Leydig cells were examined at day 60. As expected, normal testis descent occurred on or about day 25. Compared to untreated undescended testes at day 60, relative seminiferous tubular volumes (volume: % +/- SEM) were significantly increased by early surgical reimplantation of the gubemacula (89 +/- 1 vs. 66 +/- 3; P < 0.01). Absolute seminiferous tubular volumes (microliter +/- SEM) were also significantly increased by early surgical intervention when compared to undescended nontreated testes (893 +/- 27 vs. 170 +/- 12; P < 0.01). The testes of the surgically corrected cryptorchid animals were similar in all respects to those found in the descended testes of the sham-operated controls. Relative Leydig cell volume (% +/- SEM) was increased in the untreated cryptorchid testes compared to the surgically corrected testes (5.2 +/- 0.6 vs. 1.2 +/- 1.0; P < 0.05). Relative Leydig cell volumes in the surgically corrected testes were not significantly different from those found in the sham-operated descended controls. A modest but significant (P < 0.05) increase in absolute Leydig cell volume was also noted in the cryptorchid testes when compared both to normal controls or surgically corrected cryptorchid testes. From these observations, we conclude that early gubernaculopexy reverses the histologic changes normally seen in the cryptorchid rat testis to a relatively normal histologic architecture. These data provide experimental evidence to support the value of orchiopexy in the treatment of cryptorchidism.
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PMID:Prevention of seminiferous tubular atrophy in a naturally cryptorchid rat model by early surgical intervention. 901 4

Fasting or severe caloric restriction in the human or experimental animal suppresses serum LH and sex steroid concentrations. In healthy men undergoing prolonged (5-day) nutrient deprivation, the daily LH secretion rate, the mass of LH secreted per burst, and the serum testosterone concentration fall markedly, with no decrease in responsiveness to a single bolus of GnRH. Here we test the hypothesis that the hypogonadotropic hypoandrogenemia accompanying fasting reflects decreased endogenous GnRH release. To this end, six healthy young men were studied on a fed day and during two 83-h fasting sessions with concurrent saline or pulsatile GnRH administration (100 ng/kg, i.v., every 90 min for 24 h) followed by a single bolus of 10 microg GnRH, i.v., to evaluate pituitary responsiveness. We employed a highly sensitive LH immunoradiometric assay, which correlates well with an in vitro Leydig cell bioassay, and deconvolution analysis to calculate in vivo LH secretory burst frequency, amplitude, duration, mass, and LH half-life. Fasting resulted in 30-50% declines in serum total and free testosterone and LH concentrations, and a 3-fold decrease in the calculated 24-h LH secretion rate (fed, 42 +/- 12; fasting, 14 +/- 1.9 U/L distribution volume x day; mean +/- SEM; P < 0.05, by ANOVA). Reduced LH secretion was accounted for by dual mechanisms, viz. a fall in both the apparent number of computer-resolved LH secretory bursts per 24 h (fed, 16 +/- 1.1; fasting, 10 +/- 1.2; P < 0.01) and the mass of LH secreted per burst (fed, 2.5 +/- 0.5; fasting, 1.5 +/- 0.1 U/L; P < 0.05). Fasting also decreased the mean value of the 24-h (nyctohemeral) rhythm in serum LH concentrations and reduced the approximate entropy (disorderliness) of LH release. Exogenous pulsatile GnRH injections prevented both the reduction in the calculated daily LH secretion rate (fed, 42 +/- 12; fasting plus GnRH, 64 +/- 16 IU/L; P = NS) and the decline in serum testosterone concentrations (fed, 556 +/- 71 ng/dL; fasting, 391 +/- 41; fasting plus GnRH, 859 +/- 65). Pulsatile GnRH treatment also restored the nyctohemeral mesor of serum LH concentrations and the approximate entropy value to baseline. Administration of a submaximal dose of exogenous GnRH (10 microg, i.v.) at the end of the fasting interval revealed statistically identical LH release in the three study groups, suggesting that pituitary responsiveness to GnRH was unchanged in this paradigm. In summary, a pulsatile iv GnRH infusion in young men averts completely the fasting-induced decline in LH secretory burst mass/amplitude and frequency, reinstates serum total and free testosterone concentrations, and restores the mesor of LH's nyctohemeral rhythmicity and the approximate entropy of LH release. Rescue of hypogonadism by pulsatile GnRH stimuli supports the thesis that nutrient withdrawal decreases the output of the human hypothalamic GnRH burst generator.
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PMID:Pulsatile intravenous gonadotropin-releasing hormone administration averts fasting-induced hypogonadotropism and hypoandrogenemia in healthy, normal weight men. 914 47

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