Stimulation of rat Sertoli cell secretory activity in vitro by germ cells and residual bodies

The direct influence of germ cells and residual bodies on Sertoli cell basal and FSH-stimulated secretion of androgen-binding protein (ABP) was studied using Sertoli cells, recovered from 20-day-old rats, cultured alone or cocultured with a crude germ cell preparation from adult rats or with pachytene spermatocytes, round spermatids or populations of residual bodies enriched by centrifugal elutriation. The effect of a rat liver epithelial cell line (LEC) on Sertoli cell function was also tested. Addition of a crude germ cell preparation increased basal and FSH-stimulated ABP secretion. Pachytene spermatocytes and residual bodies adhered to the Sertoli cell monolayer to a much greater extent than did round spermatids. Addition of pachytene spermatocytes markedly enhanced basal and FSH-stimulated ABP secretion over 12 days of culture. Round spermatids and residual bodies stimulated ABP secretion although to a lesser extent than did spermatocytes. Furthermore, the increase of FSH-stimulated ABP levels was not maintained after 4 or 8 days of culture. LEC also enhanced basal and FSH-induced ABP levels but the increase of FSH-induced ABP production was only observed until Day 8 of culture. The influence of LEC on Sertoli cell secretion could be mediated through the production of an extracellular matrix. It is concluded that germ cells, particularly pachytene spermatocytes, can directly stimulate Sertoli cell secretory activity in vitro.     

Purification of ovine transferrin and study of the hormonal control of its secretion in enriched cultures of ovine Sertoli cells.

Ovine transferrin (o-transferrin) was purified from sheep serum by fractionated precipitation with ammonium sulphate, ion-exchange chromatography on DEAE trisacryl and finally by affinity chromatography on Affigel blue to remove albumin. Ovine transferrin was identified by its apparent molecular weight in sodium dodecyl sulphate polyacrylamide gel electrophoresis and by its N-terminal amino-acid sequence. The procedure presented in this report permits the preparation of highly purified o-transferrin with a good recovery (52% of initial total immunoactivity). An antiserum against o-transferrin was then raised in rabbits, using this highly purified preparation. A specific radioimmunoassay was set up using 125I-labelled o-transferrin. Its detection threshold (4 ng/ml) was low enough to measure o-transferrin in spent culture media of ovine Sertoli cells, which ranged between 15 and 600 ng/ml. Sheep seminiferous tubule cells, containing approximately 80% Sertoli cells, were cultured at a high density (1.5 x 10(6) cells/cm2) on a thin layer of reconstituted basement membrane. Kinetic studies showed that basal daily secretion of o-transferrin was reduced by half (-49%) between Day 1 and Day 2 of culture, and progressively decreased thereafter. Under FIRT (500 ng ovine follicle-stimulating hormone (FSH)/ml + 10 micrograms insulin/ml + 500 ng retinol/ml + 5 x 10(-7) mol/l testosterone) stimulation, the ratio of stimulated to basal secretions increased 11-fold between Day 1 (1.1) and Day 6 (12). When 10% fetal calf serum was added, mean o-transferrin secretion was a third of that in serum-free medium, suggesting that fetal calf serum contains factors that inhibit secretion of ovine Sertoli cell transferrin. In the presence of serum, the ratio of FIRT-stimulated to basal secretions doubled between Day 1 (1.0) and Day 4-6 (2.0). Between Days 2 and 4 of culture, insulin had a slight stimulatory effect on o-transferrin secretion (128% of control at 10 micrograms insulin/ml), as well as epidermal growth factor (124% of control at 50 ng/ml). Testosterone at up to 5 x 10(-7) mol/l had no effect; 500 ng retinol/ml doubled o-transferrin secretion (218% of control) as did 500 ng FSH/ml (220% of control). A combination of retinol and FSH increased the secretion 4-fold, indicating that maximal stimulation of o-transferrin secretion by ovine Sertoli cells requires the combined actions of mechanisms dependent and independent of cAMP.     

Somatomedin C/insulin-like growth factor 1: an intratesticular differentiative factor of Leydig cells?

By using immature porcine Sertoli cells cultured in serum-free defined medium, we report that medium conditioned by Sertoli cells contained immunoreactive somatomedin C/insulin-like growth factor 1 (SmC/IGF1) measured following acidic gel filtration. The release of this immunoreactive SmC/IGF1 was slightly increased following Sertoli cell treatment with fibroblast growth factor but not with follicle-stimulating hormone or growth hormone. On the other hand, human biosynthetic SmC/IGF1 exerts a potent stimulatory effect on Leydig cell differentiated functions such as LH/hCG-binding (greater than 4-fold) and hCG-stimulated testosterone secretion (greater than 15-fold). This effect was dose and time dependent and the maximal increase of Leydig cell function was observed following 48 h treatment with 50 ng/ml SmC/IGF1. The steroidogenic action of the peptide was not related to Leydig cell growth since both cell number and 3H-thymidine incorporation into DNA were not or slightly (approximately equal to 1.5-fold) increased in the optimal conditions with SmC/IGF1 treatment (100 ng/ml for 48 h). Moreover, the concomitant treatment of Leydig cells by both arabinoside C (10(-5) M), a DNA synthesis inhibitor, and SmC/IGF1 did not modify the stimulating effect of the peptide on LH/hCG-binding and hCG-stimulated testosterone production. Taken together, the present findings support the concept that Sertoli cell derived SmC/IGF1 could be a potent regulator of Leydig cell differentiated functions.     

Possible involvement of germ cells in the regulation of oestradiol-17 beta and ABP secretion by immature rat Sertoli cells (in vitro studies)

The effects of germ cells prepared from adult rats and of media conditioned by some of these germ cells have been studied in vitro on both ABP and oestradiol-17 beta secretion by immature rat Sertoli cells. Addition of the germ cells to the Sertoli cell cultures resulted in both a dose-dependent increase of ABP secretion and a dose-dependent inhibition of oestradiol production. These effects were suppressed after removal of germ cells by hypotonic treatment. Furthermore, spent media of highly viable germ cells (SMGC), but not spent media of an epithelial cell line, mimicked the effects of germ cells themselves on ABP and oestradiol levels after FSH or dbcAMP stimulation. These effects were reversible when SMGC were replaced by fresh media and did not result from a change in the conversion of oestradiol to oestrone. SMGC effects were unaltered by heating at 60 degrees C for 30 min, by freezing and thawing and non dialysable (MW greater than 10,000). However, heating at 100 degrees C for 3 min and treatment by trypsin, suppressed the SMGC effects. This indicates that the stimulation of ABP and inhibition of oestradiol levels by germ cells, in vitro, could be mediated by factor(s) of proteinaceous nature.     

Effects of delta 9-tetrahydrocannabinol on testosterone production in vitro: influence of Ca++, Mg++ or glucose

The major psychoactive component of marihuana, delta 9-tetrahydrocannabinol (THC), influences testicular function. In the present experiments, the addition of THC to incubations of whole decapsulated mouse testes altered testosterone (T) production differentially, depending on the specific gonadotropin used, the dose of THC and/or the amount of divalent cation present in the media. In the presence of luteinizing hormone (LH; 10 ng/ml), and a dose of 25 micrograms THC/ml, T production was significantly decreased, compared to that by testes incubated with LH and vehicle at all Ca++ levels, except at 0.127 or 1.0 mM Ca++. The production of T by these paired testes exposed to either THC or vehicle (ethanol; ETOH), increased as Ca++ concentration approached physiological levels. In contrast, in the presence of follicle-stimulating hormone (FSH; 1 microgram/ml), THC-induced suppression of T production was significant in the absence of Ca++ from the media, and at 12.7 mM Ca++. However, it appeared that the levels of Ca++ did not differentially affect T production in the presence of FSH, whether or not THC was also added. In the presence of human chorionic gonadotropin (hCG; 12.5 mIU/ml), a lower dose of THC (25 ng/ml), stimulated T production at 0.25 to 1 mM Ca++, but had no effect as Ca++ reached 2.5 mM. Without additional Ca++ in the media, this dose of THC significantly reduced T secretion. In contrast, in the presence of hCG, a higher THC dose (25 micrograms/ml), suppressed T accumulation at 0.127, and from 1.0 to 12.7, but had no effect at 0.25 mM, or in the absence of Ca++. In the presence of hCG, the high 25 micrograms/ml dose of THC stimulated T production, in the absence of additional Mg++, and at 0.01 mM Mg++, but THC had no effect at 0.1 mM Mg++, but inhibited T production at 1.1 mM Mg++. In the presence of hCG, 25 micrograms THC/ml produced a consistent suppression of T production across glucose concentrations examined. These findings suggest that the mechanisms by which THC effects testicular steroidogenesis may involve Ca++- and/or Mg++-dependent processes. Differential requirements for these divalent cations by the gonadotropins may explain the interactive effects of THC with LH, hCG or FSH.     

Pachytene spermatocyte protein(s) stimulate sertoli cells grown in bicameral chambers: Dose-dependent secretion of ceruloplasmin,sulfated glycoprotein-1, sulfated glycoprotein-2, and transferrin

Summary Interactions between pachytene spermatocytes and Sertoli cells were investigated using the bicameral culture chamber system. Pachytene spermatocytes were isolated from adult rats with a purity in excess of 90% by centrifugal elutriation. The pachytene spermatocytes were cultured in a defined media and pachytene spermatocyte protein prepared from the conditioned media by dialysis and lyophilization. This pachytene spermatocyte protein was reconstituted at various concentrations and incubated with confluent epithelial sheets of immature Sertoli cells cultured in bicameral chambers. Pachytene spermatocyte protein stimulated secretion of total [³⁵S]methionine-labeled protein from Sertoli cells in a dose-dependent manner predominantly in an apical direction. This stimulatory effect of pachytene spermatocyte protein was domain specific from the apical surface of Sertoli cells, and seemed specific for secretion because total intracellular protein did not increase under the influence of pachytene spermatocyte protein. Pachytene spermatocyte protein and follicle-stimulating hormone additively stimulated Sertoli cell secretion. The physicochemical characteristics of the stimulatory pachytene spermatocyte protein are indicative of heat stability, whereas the stimulatory pachytene spermatocyte protein exhibit acid, dithiothreitol and trypsin sensitivity, and partial urea sensitivity. Furthermore, Sertoli cell secretion of ceruloplasmin, sulfated glycoprotein-1, sulfated glycoprotein-2, and transferrin in response to various concentrations of pachytene spermatocyte protein were determined by immunoprecipitate of these [³⁵S]methionine-labeled proteins with polyclonal antibodies. Maximal stimulation of ceruloplasmin and sulfated glycoprotein-1 secretion from Sertoli cells was observed at a dose of 50 μg/ml pachytene spermatocyte protein, whereas maximal stimulation of sulfated glycoprotein-2 and transferrin secretion from Sertoli cells was observed at a dose of 100 μg/ml of pachytene spermatocyte protein. These results suggest that pachytene spermatocytes modulate Sertoli cell secretory function of at least four proteins in the regulation of spermatogenesis. Supported by grant #DCB-8915930 (D. D.) from the National Science Foundation, Washington, DC.     

Augmentation of respiratory mast cell secretion of histamine caused by vagus nerve stimulation during antigen challenge

We studied the effect of vagus nerve stimulation on the mast cell secretion of histamine after intraarterial (i.a.) administration of Ascaris suum antigen (AA) into the bronchial circulation of 10 randomly selected, natively allergic dogs in vivo. Respiratory mast cell response was measured as the arteriovenous difference (AVd) in histamine concentration across the bronchus. Plasma histamine concentration was determined simultaneously from right atrium, right ventricle, and femoral artery 60 and 15 sec before and 15, 30, 45, 60, 75, and 90 sec after i.a. injection of sham (Kreb-Henseleit) diluent, 1:100, and 1:30 concentrations of AA. The mean AVd in plasma histamine for five parasympathetically blocked animals (neural blockade with hexamethonium and beta-adrenergic blockade with propranolol) was 1.28 +/- 0.61 ng/ml (sham), 5.16 +/- 19.7 ng/ml (1:100 AA), and 36.6 +/- 11.1 ng/ml (1:30 AA). Substantial augmentation was obtained when AA was administered during parasympathetic stimulation in five other animals (beta-adrenergic blockade, no neural blockade), which was caused by continuous bilateral electrical stimulation of the vagus nerves. A mean AVd in plasma histamine of 110 +/- 27.6 ng/ml was obtained after 1:100 AA (p less than 0.001 vs parasympathetic blockade) and 166 +/- 32.4 ng/ml for 1:30 AA (p less than 0.001 vs parasympathetic blockade). Parasympathetic stimulation alone did not cause secretion of histamine. In contrast to the AVd response, parasympathetic stimulation did not augment nonrespiratory mast cell secretion after AA challenge. We conclude that vagus nerve stimulation augments secretion of histamine from respiratory mast cells during antigen challenge. We demonstrate that parasympathetic stimulation may potentiate the response to antigen challenge in central airways through augmented mast cell secretion of mediator.     

Rat Sertoli cells secrete a growth factor that blocks epidermal growth factor (EGF) binding to its receptor

The conditioned medium from Sertoli cells contains a potent mitogen(s) that can markedly stimulate the proliferation of 4 different cell lines of endoderm or mesoderm origin in the presence or absence of serum. With A431 cells, conditioned medium produced in a dose-dependent manner up to a 5.2-fold increase in cell number after 5 days in culture. Addition of follicle-stimulating hormone (FSH), testosterone, retinol, and insulin to the Sertoli cells increased the secretion of the mitogenic activity. The ability of Sertoli cell conditioned medium (SCCM) to displace 125I-labeled epidermal growth factor (125I-EGF) from formalin-fixed A431 cells was also examined. The SCCM from Sertoli cells incubated with insulin contained 1.42 ng eq of EGF/ml; testosterone, retinol, and FSH (in the presence of insulin) further increased the secretion of this EGF competing activity to 2.09, 2.56, and 3.22 ng eq/ml, respectively. The amount of EGF competing activity was positively correlated with mitogenic activity. Separation of SCCM by gel filtration on Bio-Gel P-10 produced three major peaks of EGF-competing activity at apparent Mr = 1800-2100, 3800-4200, and 8000-9500. Chromatographing SCCM (in the presence of protease inhibitors) on size exclusion high performance liquid chromatography revealed two peaks of EGF competing activity at Mr about 8000 and 2000 coincident with and proportional to peaks of mitogenic activity. This activity was heat-sensitive and resistant to reducing agents, and addition of an equivalent amount of EGF as that present in SCCM produced an inhibition in growth of the A431 cells compared to a 3-fold stimulation with SCCM. Thus, the Sertoli cells secrete a potent mitogen that is distinct from EGF and alpha TGF. This factor that we have termed Sertoli cell-secreted growth factor is hormonally regulated by FSH, testosterone, and retinol and may play an important role in controlling spermatogenesis.     

Effects of interferon on the steroidogenic functions and proliferation of immature porcine granulosa cells in culture.

Recent studies suggest the relevance of several cytokines to the growth and differentiation of granulosa cells. In the present study, we investigated the effects of interferon (IFN) on the steroidogenic functions and proliferation of immature porcine granulosa cells. Human IFN-alpha inhibited FSH-induced progesterone secretion in a concentration-dependent manner. The effect of IFN-alpha was significant at a concentration as low as 10 pg/ml. Maximal inhibitory concentrations (10-50 ng/ml) of IFN-alpha reduced FSH-induced progesterone secretion by 70%. In contrast, estradiol secretion induced by FSH was significantly enhanced by relatively high concentrations (1-50 ng/ml) of IFN-alpha. IFN-alpha (0.1-10 ng/ml) reduced cAMP generation in response to FSH by as much as 80%, although its effect was not concentration-dependent. The proliferation of cultured granulosa cells was inhibited by IFN-alpha in a concentration-dependent manner. Human IFN-gamma did not affect granulosa cell functions. The stimulation of estradiol secretion and the inhibition of cell proliferation induced by IFN-alpha in cultured porcine granulosa cells in this study are in contrast with the effects of IL-1, which, as we reported previously, inhibited both progesterone and estradiol secretion and stimulated cell growth in these cell cultures. Such differences in the mode of action of cytokines may contribute to the regulation of granulosa cell functions under physiological or pathological conditions.     

Actions of extracellular matrix on Sertoli cell morphology and function

Sertoli cells were isolated and cultured in the absence or presence of extracellular matrix (ECM) to determine whether ECM may influence Sertoli cell function on a molecular level. As previously described, a morphological analysis of the cells indicated that ECM allows the expression of a columnar histotype and the formation of junctional complexes. The combined actions of ECM and hormones were found to have a profound effect in promoting the expression of a polarized Sertoli cell morphology. In our investigation of the effects of ECM on Sertoli cells, we used transferrin and androgen-binding protein (ABP) production as biochemical markers of Sertoli cell function. The presence of ECM was found to cause a 25% increase in the basal level of transferrin production; however, ECM had no effect on the basal level of ABP production by Sertoli cells. Regulatory agents such as follicle-stimulating hormone (FSH) and a combination of FSH, insulin, retinol, and testosterone stimulated the production of both transferrin and ABP. The ability of hormones to stimulate these Sertoli cell functions was not influenced by the presence of ECM. Similar results were obtained with 2-microns- or 50-microns-thick ECM and with a seminiferous tubule biomatrix preparation. ECM was found to increase the maintenance of long-term Sertoli cell cultures; however, the decline in Sertoli cell functional integrity, which occurs during cell culture, was not affected by the presence of ECM. An additional functional parameter examined was the radiolabeled proteins secreted by Sertoli cells. ECM did not promote the production or affect the electrophoretic profile of Sertoli cell-secreted proteins under basal or hormonally stimulated conditions. Combined results indicated that although ECM allowed the expression of a normal Sertoli cell histotype, ECM had no major effects on the Sertoli cell functions analyzed nor on the hormonal regulation of these functions. The inability of ECM to affect Sertoli cell function on a molecular level is discussed with regard to environmental as opposed to regulatory cellular interactions. Our observations imply that dramatic effects of ECM on cell morphology do not necessarily correlate to subsequent effects on cellular function.     

Induction of interleukin-1alpha production in murine Sertoli cells by interleukin-1

In the present study we examined the involvement of interleukin (IL)-1alpha, -1beta, FSH, and lipopolysaccharide (LPS) in the regulation of IL-1alpha and -1beta production by Sertoli cells under in vitro conditions. Sertoli cell cultures from immature mice produced constitutively basal levels of intracellular IL-1alpha. Stimulation of Sertoli cell cultures with LPS (5 microgram/ml) resulted in a maximal production of intracellular IL-1alpha 2 h after the stimulation. Thereafter, these levels decreased but remained significantly higher within 24 h after stimulation than those in control cultures. The effect of LPS on IL-1alpha production was dose dependent. FSH did not show any effect on intracellular IL-1alpha production by Sertoli cells. IL-1alpha could not be detected in supernatants of unstimulated or stimulated Sertoli cell cultures. Sertoli cell cultures stimulated with recombinant IL-1alpha induced optimal intracellular levels of IL-1alpha within 2 h of stimulation. These levels remained high 24 h after stimulation. However, stimulation of Sertoli cell cultures with IL-1beta induced a peak of IL-1alpha production 8 h after stimulation. These levels decreased 24 h after the stimulation but were still found to be significantly higher than those in control cultures. The addition of IL-1 receptor antagonist (IL-1ra) to Sertoli cell cultures did not significantly alter their capacity to produce IL-1alpha. However, the stimulatory effects of recombinant IL-1alpha on IL-1alpha production by Sertoli cell cultures were reversed by the concomitant addition of recombinant IL-1ra. No immunoreactive IL-1beta could be detected in lysates or conditioned media of immature murine Sertoli cells under any of the stimulatory conditions outlined. Our results may suggest the involvement of physiological (IL-1) and pathophysiological factors (LPS) in the regulation of spermatogenesis and spermiogenesis processes and male fertility.     

Regulation by FSH and dibutyryl cyclic AMP of the formation of androgen-binding protein in Sertoli cell-enriched cultures.

Sertoli cell-enriched preparations from testes of 20-day-old rats were cultured in a defined medium in the presence and absence of FSH or dibutyryl cyclic AMP (dcAMP). Androgen-binding activity was assayed in the culture medium, and related to testicular androgen-binding protein (ABP). The production and secretion of ABP by the Sertoli cell-enriched preparation was increased after FSH or dcAMP treatment of the primary culture. It is concluded that ABP is produced by Sertoli cells. The possibility of involvement of other cell types in the testis in ABP production is discussed.     

Further evidence that prolactin does not affect gonadotropin release at pituitary level

In a primary monolayer cell culture of the anterior pituitary from mature male rats the effects of exogenous rPrl (rPrl exog.) and endogenously secreted rPrl (rPrl endog.) on basal and LHRH stimulated LH secretion were investigated. In pilot studies basal Prl- and LH secretion as well as influence of various LHRH concentrations (10(-1)-10(+3) ng/ml) on Prl- and LH release were observed. The influence of exogenous rPrl was studied at various concentrations (50-500 ng/ml) and with preincubation periods of 2 hrs and 6 hrs before starting LHRH stimulation. The dopamine agonist bromocriptine and the dopamine antagonist sulpirid were preferentially used to prove physiologic function of the cell system presented. Basal LH secretion started after a delay of 3 hrs, whereas basal Prl secretion began immediately showing a linear rise for 9 hrs. LHRH stimulation resulted in a non-linear dose and time dependent LH secretion. LHRH showed no influence on endogenous Prl (rPrl endog.) secretion of the mammotroph cells. Exogenous Prl (rPrl exog.) did not affect spontaneous Prl release excluding ultra short loop inhibition in this cell system. Furthermore, exogenous Prl had no effect on either basal or LHRH stimulated LH secretion even after a preincubation period of up to 6 hrs and at concentrations generally observed for prolactin secreting tumors. Bromocriptine suppressed endogenous Prl release and did not affect LH secretion. Sulpirid had no influence on either Prl or LH secretion.(ABSTRACT TRUNCATED AT 250 WORDS)     

Beta-nerve growth factor influences the expression of androgen-binding protein messenger ribonucleic acid in the rat testis.

The effect of infusion of nerve growth factor (NGF) into the rat testis on the expression of androgen-binding protein (ABP) mRNA was studied. A major 1.7-kb and a minor 3.7-kb ABP mRNA were present at all stages of the seminiferous epithelium with maximal levels at stages VIII-XI and the lowest levels at stages IV-VI. Infusion of 15 ng/h of NGF with a mini-osmotic pump for 14 days resulted in a 2-fold increase of ABP mRNA as revealed by Northern blots, whereas the mRNA level of another Sertoli cell protein, urokinase-type plasminogen activator, remained unchanged. Image analysis of autoradiograms obtained by in situ hybridization of sections from treated testes showed a similar increase in APB mRNA compared to noninfused or PBS-infused testes. However, at the cellular level the labeling intensity for ABP mRNA over Sertoli cells of different stages of the seminiferous epithelium was the same in NGF-infused and control testes. This suggests that the increase of ABP mRNA in NGF-infused testes was caused by prolongation of stages VII-VIII with maximal ABP mRNA expression; the suggestion is supported by an increase of 30 percent in frequency of these stages in histological sections from NGF-infused testes.     

The role of IGF-I, cAMP/protein kinase A and MAP-kinase in the control of steroid secretion, cyclic nucleotide production, granulosa cell proliferation and preimplantation embryo development in rabbits

The aim of this study was to investigate the actions of insulin-like growth factor I (IGF-I) on the secretory and proliferative functions of rabbit ovarian cells and on early embryogenesis. It was found that addition of IGF-I at a lower concentration (1 ng/ml) stimulated progesterone secretion by cultured rabbit granulosa cells, whilst higher concentrations of IGF-I (10, 100 ng/ml) were inhibitory. IGF-I had no effect on estradiol secretion. Cyclic AMP secretion was slightly increased after addition of IGF-I at 10 ng/ml, but not by higher concentrations. Cyclic GMP secretion was stimulated by IGF-I at 100 ng/ml only. A blocker of protein kinase A, Rp-cAMPS, did not alter progesterone and estradiol secretion but did prevent the action of IGF-I on progesterone secretion. An immunocytochemical study demonstrated that IGF-I significantly increased the proportion of proliferating cell nuclear antigen-positive (PCNA-positive) cells. Rp-cAMP did not change cell proliferation but partially prevented the proliferation-stimulating effect of IGF-I. IGF-I (100 ng/ml) significantly increased the proportion of divided zygotes and the number of embryos reaching the morula/blastocyst stage. Blockers of PKA, Rp-cAMPS and KT5720, reversed the effects of IGF-I on zygote cleavage and embryo development. Addition of IGF-I (100 ng/ml) significantly increased MAPK within the cells (proportion showing immunoreactivity to ERK-1 and ERK-3 antibodies and intensity of a 42 kDa band related to ERK-2). Rp-cAMPS suppressed the basal ERK-2 immunoreactivity but not that of ERK-1 or ERK-3. It completely inhibited the IGF-I-induced activation of ERK-3 but not that of ERK-1 or ERK-2. This in vitro study demonstrates that IGF-I is a potent stimulator of ovarian secretion, proliferation and embryogenesis in rabbit. Its effects are mediated by cAMP/PKA- and, probably by, MAPK-dependent intracellular mechanisms.     

The role of cell-cell interactions in androgen action

Androgen-regulated mesenchymal-epithelial interactions play an important role during embryonic development of the male urogenital tractus. Studies on the effects of androgens on cultured testicular cells derived from the immature rat testis indicate that, even during postnatal life, similar interactions may be instrumental for normal androgen action. Androgen receptors are found in epithelial Sertoli cells as well as in mesenchymal peritubular cells. The effects of androgens on isolated Sertoli cells, however, are limited. Coculture with peritubular cells increases the sensitivity and/or the responsiveness of a number of Sertoli cell parameters (transferrin, ABP, aromatase activity) to androgens. This effect is at least in part mediated by the secretion of one or more diffusible factors (P-Mod-S) by the peritubular cells. We investigated whether such indirect effects of androgens, relying on mesenchymal—epithelial interactions are also observed in other androgen target tissues. To this end stromal cells were isolated and cultured from the immature rat ventral prostate and the production of factors with P-Mod-S activity was monitored using Sertoli cells as the test system.Under coculuture conditions these stromal cells stimulate Sertoli cell transferrin secretion in an androgen-regulated fashion, exactly as peritubular cells. This stimulatory effect is related in part to the collaborative (and androgen-independent) deposition of an extracellular matrix and in part to the secretion of an androgen-regulated diffusible mediator. This mediator has the same physicochemical characteristics as P-Mod-S and it affects other Sertoli cell parameters (ABP, aromatase activity, inhibin, cGMP) in the same way as P-Mod-S. Cultured stromal and peritubular cells look very similar and stain positive after immunostaining for -smooth muscle isoactin. Tissue sections suggest that these cells may be derived from myoid peritubular cells in the testis and similar periacinar cells in the prostate. The hypothesis is advanced that P-Mod-S may be a more universal mediator of indirect effects of androgens in diverse target tissues and that this factor is derived from myoid cells closely associated with the epithelial component.     

Active cell aggregation by immature rat Sertoli cells in primary culture: a role for cell surface glycoproteins.

Follicle stimulating hormone (FSH) stimulates “colony formation” by immature rat Sertoli cells in primary culture. “Colony formation” involves cell aggregation. Consequently, the involvement of cell surface glycoproteins in cell aggregation was investigated by treatment of dissociated 10-day rat testis cells with sodium metaperiodate, glucosamine, various lectins, tunicamycin, and puromycin. Treatment of control cultures with 5 μM glucosamine stimulated cell aggregation; however, glucosamine did not affect FSH-stimulated cultures. Treatment of dissociated testis cells with 5 μM sodium metaperiodate, 10 μg/ml castor bean agglutinin (ricin), or 2.5 μg/ml horseshoe crab agglutinin inhibited FSH stimulation of cell aggregation. A similar inhibition of cell aggregation was observed following addition of 10 μg/ml puromycin or tunicamycin to culture media from 0- to 18-hours incubation. Treatment with soybean agglutinin, concanavalin A, or wheat germ agglutinin had no effect. The galactose-specific lectins, Ricin, Ricinus communis agglutinin I, and Bendeirea simplicifolia agglutinin, inhibit the FSH stimulation of ³H-aminoacid incorporation as well as cell aggregation in 24-hour cultres. The inhibition of cell aggregation by sodium metaperiodate treatment was reversed with 5 μM sodium borohydride reduction. Sodium metaperiodate treatment did not alter cell viability (as assayed with trypan blue dye exclusion), did not alter cell attachment, nor significantly decrease ¹²⁵I-FSH binding by cultured testis cells. The results suggest that FSH stimulation of cell aggregation by immature rat Sertoli cells requires cell surface glycoprotein interactions. Furthermore, the specificity of lectin inhibition suggests that glycoproteins with terminal galactose and sialic acid residues are required for the FSH induction of cell aggregation.