Gonadotropin stimulation of testosterone production in primary culture of adult rat testis cells

Testis cells from adult hypophysectomized rats were cultured in serum-free medium. Treatment with human chorionic gonadotropin caused an initial increase and a subsequent decline in testosterone production, followed by a recovery in steroidogenesis on day 10 of culture. The recovery in testosterone production was inhibited by the addition of serum in culture media. Luteinizing hormone, dibutyryl adenosine-3′,5′-monophosphate or cholera toxin, but not follicle stimulating hormone or prolactin, stimulated testosterone production which was potentiated by a phosphodiesterase inhibitor. This is the first report of a primary culture of adult testis cells with retention of androgen synthetic capacity.     

Effect of retinol and retinoic acid on testosterone production by rat Leydig cells in primary culture

Adult rat Leydig cells, purified by Percoll density gradient centrifugation, were used to determine the effect of retinol and retinoic acid on steroidogenesis. It was found that both retinoic acid and retinol stimulated testosterone production. Although retinol was less potent than retinoic acid, retinol had the greater efficacy. When these retinoids were tested in the presence of a maximal dose of LH, it was found that retinol inhibited LH-stimulated testosterone synthesis whereas retinoic acid had no similar effect. These results demonstrate for the first time that retinol and retinoic acid have a direct effect on Leydig cell steroidogenesis in culture suggesting that retinoids play a role in the maintenance and regulation of Leydig cell function.     

Hormonal regulation of testosterone production in short-term primary culture of fetal mouse leydig cells

Short-term primary culture of Leydig cells were prepared from 18 day old fetal mouse testes. The cells were cultured in a defined medium supplemented with 1% fetal calf serum, EGF and Insulin. The cells rapidly attached to the plastic culture dish. Seventy to eighty percent of the firmly attached cells stained positively for 3β-HSD activity and gradually assumed a flattened epitheloid appearance. The functional activity of these cells in terms of testosterone production and hCG-responsiveness was maintained for 2 days. There was a significant effect of plating density. Pre-culture (24 h) of fetal Leydig cells in the presence of 100 mIU hCG desensitized these cells to a subsequent stimulation by hCG. This is the first report of a short-term primary culture of fetal Leydig cells which demonstrates the maintenance of androgenic activity of these cells in vitro.     

Collagen production by rat liver fat-storing cells in primary culture

Morphological changes, proliferation and collagen synthesis of fat-storing cells (FSC) in primary culture were examined. FSC, isolated from rats treated with vitamin A, showed numerous large lipid droplets in the cytoplasm and positive desmin staining. After 4-7 days culture, these cells were transformed into fibroblast-like cells with a gradual depletion of lipid droplets and with abundant well-developed rough endoplasmic reticulum. The proliferation analysis revealed that DNA synthesis preceded the increase of cell number. Enhancement of the collagen synthesis by FSC were associated with the morphological change of the cells. Quantitative analysis revealed that these cells produced mainly type I collagen (84%) and a small amount of type III collagen (16%).     

Functional activity of rat testicular cells in culture

Testicular cells from adult hypophysectomized rats were cultured for 10 or 12 days, and the effect of treatment with hCG (10 ng/ml) on testosterone and progesterone production and the activity of the Leydig cell enzyme, 3 beta-hydroxysteroid dehydrogenase, were studied. Regardless of hormone treatment, on 4th day in culture a decline in the steroidogenic activity of cultured cells could be observed. Treatment with hCG resulted in stimulation of steroidogenesis on days 6 to 10 in culture, as measured by testosterone and progesterone production. Hormone treatment stimulated or inhibited the enzyme activity depending on the presence or absence in the culture medium of 10(-6) M spironolactone, an inhibitor of 17 alpha-hydroxylase, or an anti-androgen, cyproterone acetate.     

Inhibition of testosterone secretion by S-petasin in rat testicular interstitial cells

S-petasin, a kind of sesquiterpene ester, is the anti-inflammatory ann analgesic component of the butterbur (Petasites hybridus). The clinical benefit of S-petasin is the spasmolytic activity, but its side effects on the reproductive endocrinology are not clear yet. The present study was to explore the effects of S-petasin on the secretion of testosterone in vivo and in vitro. We found that single intravenous injection of S-petasin (1 microg/kg) decreased basal plasma testosterone concentration in adult male rats. The enzymatically dispersed rat testicular interstitial cells were incubated with S-petasin (0-4.3 x 10(-5)M) in the presence or absence of human chorionic gonadotropin (hCG, 0.05 IU/ml), forskolin (adenylyl cyclase activator, 10(-5) M), and androstenedione (testosterone biosynthesis precursor, 10(-9) M) at 34 degrees C for 1 h. The concentrations of testosterone in the incubation medium were measured by radioimmunoassay. S-petasin at 4.3 x 10(-7) M was effective to reduce the basal and hCG-stimulated release of testosterone in rat testicular interstitial cells. The stimulatory effects of testosterone secretion induced by forskolin and androstenedione were significantly reduced by S-petasin at 4.3 x 10(-5) M and 4.3 x 10(-6) M, respectively. These results suggest that S-petasin inhibits the production of testosterone in rat testicular interstitial cells in part through diminishing the activities of adenylyl cyclase and 17-ketosteroid reductase.     

The role of Sertoli cells in the differentiation and exclusion of rat testicular germ cells in primary culture

We have previously established a primary co-culture of spermatogenic and somatic cells of the rat testis, in which spermatogenic cells differentiate to some extent in terms of the occurrence of testis-specific gene expression. In the present study, the interaction between spermatogenic and somatic Sertoli cells was investigated in this culture system. Spermatogenic differentiation did not proceed when these two cell types were placed on opposite sides of a permeable membrane, thus avoiding direct contact. Further, a significant proportion of spermatogenic cells died by apoptosis during culture, and Sertoli cells engulfed and digested the degenerating spermatogenic cells. These results indicate that Sertoli cells participate both in the differentiation of spermatogenic cells and in the exclusion of degenerating spermatogenic cells, by directly attaching to those cells.     

Inhibition of testosterone secretion by digitoxin in rat testicular interstitial cells.

Both in vivo and in vitro experiments were conducted to determined the effects of digitoxin on the secretion of testosterone, and its underlying mechanisms including testicular adenosine 3':5'-cyclic monophosphate (cAMP), and the activities of steroidogenic enzymes. Male rats were injected with digitoxin, human chorionic gonadotropin (hCG), or hCG plus digitoxin via a jugular catheter. Blood samples were collected immediately before and at 30 and 60 min after the challenge, and analyzed for testosterone by radioimmunoassay. In an in vitro study, rat testicular interstitial cells were isolated and incubated with digitoxin, hCG, 8-bromo-cAMP (8-Br-cAMP), digitoxin plus hCG, or digitoxin plus 8-Br-cAMP at 34 degrees C for 1 h. The media were collected and analyzed for testosterone. For studying cAMP accumulation, testicular interstitial cells were incubated for 1 h in the medium containing isobutyl-1-methylxanthine (IBMX) and different doses of digitoxin with the absence or presence of hCG. After incubation, cells were processed for determining cAMP content. Intravenous injection of digitoxin decreased hCG-stimulated, but not basal, plasma testosterone levels. Administration of digitoxin in vitro resulted in an inhibition of both basal and hCG- as well as 8-Br-cAMP-stimulated release of testosterone. In addition, digitoxin diminished hCG-stimulated cAMP accumulation in rat testicular interstitial cells. Furthermore, digitoxin inhibited the activity of cytochrome P450 side chain cleavage enzyme (P450scc) but failed to affect the activities of other steroidogenic enzymes. Taken together, these results suggest that the acute inhibitory effect of digitoxin on the testosterone production in testicular interstitial cells involves, at least partly, an inefficiency of post-cAMP events, and a decrease of P450scc activity.     

Effect of transforming growth factor-beta on human chorionic gonadotropin induced testosterone production by cultured rat testicular cells

The potential role of transforming growth factor-beta (TGF-beta) as an intragonadal regulator in the testis was investigated by studying the effect of TGF-beta on testosterone (T) production by neonatal rat testis cells in primary cultures. After 3 days of preincubation in serum-free medium, testis cells were treated with hormones for 3 additional days. Human chorionic gonadotropin (hCG) treatment (0.3-30 ng/ml) of testis cells elicited a dose-dependent increase of T levels with maximum values greater than 9-fold over baseline. Although TGF-beta alone did not affect T levels, a dose-dependent inhibition of hCG-stimulated T production was observed when cells were cotreated with TGF-beta. Maximal inhibition was greater than 85%, and the IC50 value was 5 ng/ml (2 x 10(-10) M; n = 5 experiments). This inhibitory effect was evident 48 h after the initiation of treatment and could be reversed 1 day after the cessation of TGF-beta exposure of cells. TGF-beta also reduced forskolin and (Bu)2cAMP-induced T production (greater than 85% decrease), indicating that TGF-beta can inhibit steroidogenesis distal to the formation of cAMP. The conversion of exogenously added androgen precursors (progesterone (P) and 17 alpha-hydroxyprogesterone) to T by hCG-stimulated cells was suppressed by the addition of TGF-beta. In contrast, endogenous P accumulation did not change in cultures treated with TGF-beta. Because TGF-beta-like activity has been found in the testis, the observed inhibitory effect of TGF-beta suggests a potential intratesticular regulatory role of this growth factor.     

Procollagen production by rat hepatocytes in primary culture

Hepatocytes were obtained from rat liver and maintained in primary culture for periods up to 14 days. Collagen synthesis was maximal after 3–5 days and declined thereafter. The rate of collagen production was appox. one-tenth that observed by the rat skin fibroblasts of the same animals after 3–5 passages. Type I procollagen, the major macromolecular collagenous species, was identified as a 450 000 dalton molecule which was converted to 120 000 dalton, denatured, reduced procollagen chains. Prior pepsin digestion of the native procollagen released 95 000 dalton collagen chains identified as α1(I) and α2(I) by co-migration with carrier rat skin type I collagen chains. The production of type III procollagen was also tentatively identified by DEAE-cellulose chromatography. This material was isolated and identified with type-specific antibodies developed against the amino-terminal extension peptide of bovine skin type III procollagen. The relative distribution of type I:type III procollagen was estimated at 7:3 similar to the ratio previously found in whole rat liver. No evidence of type IV or type V procollagen biosynthesis was observed. These results suggest that rat hepatocytes in primary culture are capable of interstitial type I and type III collagen biosynthesis in a ratio similar to that found in their parent hepatic tissue in situ. They also suggest that the less abundant type IV (basement membrane-associated) or type V are nor major collagenous products of these cells.     

Insulin regulation of steroidogenic activity in rat culture luteal cells

The effect of insulin on the function of rat luteal cells in monolayer culture was examined. Cells were obtained from PMSG-hCG primed immature rats and further cultured in serum free medium with or without insulin. The hormone produced an increase of progesterone production and maximal stimulation was achieved at 0.2 nM of insulin (100% stimulation). This effect was enhanced by addition of methyl-isobutyl-xantine (MIX 0.1 mM) to the culture medium. However, the stimulation produced by LH was not augmented by the presence of insulin. The conversion of progesterone into 20 alpha-hydroxy-progesterone was also enhanced after insulin treatment. Luteal cells were also cultured in the presence of 25-hydroxy-cholesterol (10 micrograms/ml). In these conditions insulin produced a 2-fold increase in progesterone production. Aromatase activity was assessed by adding androstenedione (0.25 microM) as substrate. Insulin produced a 14-fold stimulation of estradiol production after 24 h of culture. Insulin action was tested in short time incubations of luteal cells in a glucose free medium, in these experiments the hormone was able to induce a significant increase in progesterone and 20 alpha-hydroxy-progesterone production. These data suggest that luteal cell function is regulated by insulin and that this hormone has a direct effect on the steroidogenic process.     

Inhibition of testosterone production by propylthiouracil in rat Leydig cells

Propylthiouracil (PTU) is a thioamide drug used clinically to inhibit thyroid hormone production. However, PTU is associated with some side effects in different organs. In the present study, the acute and direct effects of PTU on testosterone production in rat Leydig cells were investigated. Leydig cells were isolated from rat testes, and an investigation was performed on the effects of PTU on basal and evoked-testosterone release, the functions of steroidogenic enzymes, including protein expression of cytochrome P450 side-chain cleavage enzyme (P450(scc)) and mRNA expression of the steroidogenic acute regulatory protein (StAR). Rat Leydig cells were challenged with hCG, forskolin, and 8-bromo-cAMP to stimulate testosterone release. PTU inhibited both basal and evoked-testosterone release. To study the effects of PTU on steroidogenesis, steroidogenic precursor-stimulated testosterone release was examined. PTU inhibited pregnenolone production (i.e., it diminished the function of P450(scc) in Leydig cells). In addition to inhibiting hormone secretion, PTU also regulated steroidogenesis by diminishing mRNA expression of StAR. These results suggest that PTU acts directly on rat Leydig cells to diminish testosterone production by inhibiting P450(scc) function and StAR expression.     

Effects of hyperprolactinemia on testosterone production in rat Leydig cells

The pathogenesis of hyperprolactinemia (hyperPRL) induced hypogonadism has been suggested to be related with a dysfunction of hypothalamus-pituitary-testis axis. While the direct inhibitory effects of prolactin (PRL) on testosterone (T) release have been demonstrated, the mechanism is still unclear. Our previous study demonstrated a diminished T release in the testicular interstitial cells (TICs) from the anterior pituitary (AP)-grafted rats as compared with the control, and the pattern was in agreement with the in vivo model. However, TICs incubation cannot totally represent the response of the Leydig cells. Therefore, a Percoll gradient purified Leydig cell model was adopted to explore the response of T release under similar challenges in this study to investigate the effects of hyperPRL on the Leydig cells per se. HyperPRL in male rats was induced by grafting rat AP under the renal capsule. The control animals were grafted with rat brain cortex tissue (CX). Six weeks after grafting, the rats were sacrificed. Either TICs or Leydig cells were isolated, respectively, for in vitro incubation and challenge. Challenge drugs included human chorionic gonadotropin (hCG, 0.05 IU/ml), steroidogenic precursors (25-OH-cholesterol, 10(-6) M; pregnenolone, 10(-6) M), forskolin (an anenylyl cyclase activator, 10(-4) M) and 8-bromo-3':5' cyclic adenosine monophosphate (cAMP) (8-Br-cAMP 10(-4) M). T released by TICs or Leydig cells was determined by radioimmunoassay. The TICs from the AP-grafted rats showed lower levels of T release than the control group while the purified Leydig cells demonstrated a reverse pattern in response to challenges of hCG, steroidogenic precursors, forskolin and 8-Br-cAMP. In hyperPRL rats, a paradoxical pattern of T release between TICs and purified Leydig cells is observed. The purified Leydig cells from AP-grafted rats demonstrated a higher level amount of T release than the control after stimulation. The phenomenon can be attributed to the change of Leydig cell sensitivity to the stimulation after the effects of chronic hyperPRL. Moreover, another possibility is the role played by other interstitial cells to modulate steroidogenesis in Leydig cells.     

Progesterone and testosterone production by dispersed rat placental cells

Isopycnic separation and unit gravity sedimentation were employed to identify the rat placental cell types capable of producing progesterone and testosterone. Subdivision of Day 12-dispersed placental cells in Percoll gradients revealed that fractions (less than 1.048 g/ml) containing giant cytotrophoblast cells produced greater quantities of progesterone (p less than 0.01) than did fractions (greater than 1.048 g/ml) with equal numbers of placental cells but void of giant cytotrophoblasts. Unit gravity sedimentation of Day 16-dispersed placental cells revealed that when incubated, isolated giant cytotrophoblast cells were capable of producing both progesterone and testosterone. Both of the separation studies strongly suggested that other cell types also produce steroids. However, the biosynthetic capacity of the giant cytotrophoblast cell appeared to be 1000-fold greater than that of the other cell types. Incubation of Day 12-dispersed placental cells with human chorionic gonadotropin or 3',5'-cyclic adenosine monophosphate did not further increase progesterone production as compared to untreated control incubates, suggesting rat placental steroidogenesis is not under trophic hormone control. Electron microscopic observations of giant cytotrophoblast cells revealed a complex ultrastructure suggesting a variety of physiological functions.