Multiplication stimulating activity (MSA) can substitute for insulin to stimulate the secretion of testicular transferrin by cultured Sertoli cells

Both MSA and insulin were found to stimulate transferrin production in cultured Sertoli cells to the same extent in the absence or presence of follitropin, testosterone, or retinol. Sertoli cells were responsive to 30-fold lower concentrations of MSA than of insulin. MSA and insulin together stimulated transferrin secretion to the same extent as either hormone alone. These results, and what is presently understood about the relationship of MSA and insulin, suggest that insulin can substitute for the action of an MSA-like peptide in the stimulation of testicular transferrin secretion by Sertoli cells.     

Regulation of the synthesis and secretion of transferrin and cyclic protein-2/cathepsin L by mature rat Sertoli cells in culture.

While numerous studies have examined the response of immature rat Sertoli cells to specific hormones and growth factors, the regulation of mature cells in vitro has not been well examined because highly purified cells have been difficult to isolate. We now describe a detailed method for isolating Sertoli cells from mature (> 60 days of age) rats and generating primary cultures of these cells greater than 90% in purity. We demonstrate that cell density, hormones, and growth factors regulate the synthesis or secretion of two Sertoli cell products, transferrin and Cyclic Protein-2 (CP-2)/cathepsin L. Cell density modulated the response of mature Sertoli cells to some hormones; insulin (at 10 micrograms/ml) and epidermal growth factor (EGF) acted synergistically to stimulate transferrin synthesis by 80% when cells were cultured at a density of 1.65 x 10(5) cells/cm2 but had no effect on transferrin synthesis by cells cultured at 1.46 x 10(5) cells/cm2. A mixture of FSH, retinol, and testosterone increased transferrin synthesis by 30% at both cell densities, and this stimulation was independent of the effect of EGF and insulin. CP-2/cathepsin L synthesis was significantly stimulated by increased cell density. FSH, retinol, and testosterone also stimulated CP-2/cathepsin L synthesis by 30%; however, this stimulation just missed being statistically significant. Finally, we demonstrated that secretion of transferrin and CP-2 was reduced when cells were cultured in the presence of interleukin-1 alpha, a cytokine synthesized by Sertoli cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Levels of binding proteins for retinoids in cultured Sertoli cells: effect of medium composition

The levels of cellular retinol-binding protein (CRBP) and cellular retinoic acid-binding protein (CRABP) have been measured in Sertoli cells maintained under different cultural conditions. Sertoli cells were isolated from prepubertal rats and cultured in a chemically defined medium without or with follicle-stimulating hormone (FSH), insulin, retinol or testosterone added individually or in combinations. The additions were made at the beginning of the culture or 24 h before the cells were subjected to determinations of CRBP and CRABP by radioimmunoassay. No differences were observed either after 1 or 4 days of treatment. The results obtained indicated that the levels of the two retinoid-binding proteins were unchanged in Sertoli cells in response to hormone and/or retinol administration. To rule out the possibility that the Sertoli cells used in our study were unresponsive to the hormones, lactate production by the cells cultured in the presence of FSH or insulin was measured. The amount of lactate produced under hormonal stimulation was significantly higher than the amount produced in absence of the hormones, thus indicating the ability of our Sertoli cells to respond to the hormonal stimulation.     

Hormone interactions in the Sertoli cells.

The effects of follicle-stimulating hormone (FSH) and testosterone in rat Sertoli cells were investigated in vitro by means of isolated cell populations. The Sertoli cells selectively bind FSH, and respond to FSH stimulation with increased accumulation of endogenous cyclic AMP and secretion of androgen-binding protein (ABP). FSH binding and cyclic AMP response in the Sertoli cells change dramatically during sexual maturation. Cyclic AMP response decreases despite an increase in FSH-binding receptors per cell. Evidence has been provided for the existence of cytoplasmic and nuclear androgen receptors and chromatin acceptor-sites that specifically bind the androgen-receptor complex in the Sertoli cells. A model has been proposed for the hormonal interactions in the seminiferous tubule and the possible role of Sertoli cells in mediating the hormonal effects on spermatogenesis.     

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.     

Dicyclohexane derivatives that bind to androgen-binding protein (ABP) also inhibit hormone stimulated aromatase activity in rat Sertoli cells

Dicyclohexane derivatives are known to inhibit testosterone binding to rat androgen-binding protein (ABP) a secretory product of Sertoli cells. In this paper we show that these compounds also inhibit the aromatization of testosterone by Sertoli cells in response to cyclic AMP and to hormones that act via this nucleotide. The inhibitory activity of the nonsteroidal androgen analogues is dose-dependent and roughly parallels their ability to interfere with the aromatase activity in human placental microsomes and their affinity for ABP. Diethylstilbestrol and mesohexestrol--two nonsteroidal estrogens which resemble the dicyclohexane derivatives--also inhibit aromatase activity in Sertoli cells and placental microsomes. The effects of the synthetic estrogens on Sertoli cells, however, are less specific. Unlike the dicyclohexane derivatives they also block hormone induced activation of the adenylate cyclase. We conclude that dicyclohexane derivatives are representative of a novel series of inhibitors of aromatase activity.     

Rat Sertoli cell extracellular matrix regulates glycosaminoglycan synthesis by peritubular myoid cells in vitro

We have previously reported metabolic cooperation between Sertoli and peritubular myoid cells in terms of synthesis of one of the main testicular extracellular matrix (ECM) constituents, glycosaminoglycans (GAG). This study concerns Sertoli cell ECM-peritubular myoid cell interactions in terms of GAG synthesis. We have examined the responses of hormones and other regulatory agents such as a combination of follicle-stimulating hormone (FSH), insulin, retinol, and testosterone (FIRT) on peritubular myoid cells, and tested if Sertoli cell ECM or serum factor substitute for the stimulation by FIRT. Testicular peritubular myoid cells cultured on Sertoli cell ECM showed significant increases in the levels of cell- and ECM-associated GAG over that when cultured on uncoated plastic. This indicates a specific cell-substratum interaction between Sertoli cell ECM and peritubular myoid cells in the testis in terms of GAG synthesis. Moreover, in terms of cell-associated GAG synthesis, peritubular myoid cells cultured on Sertoli cell ECM or on plastic in the presence of serum substituted for the stimulatory response of FIRT on peritubular myoid cells cultured on uncoated plastic. The data are discussed in relation to the possible role of cell-substratum interaction in maintaining peritubular myoid cell functions. © 1993 Wiley-Liss, Inc.     

Hormone interactions in the sertoli cells

Summary The effects of follicle-stimulating hormone (FSH) and testosterone in rat Sertoli cells were investigated in vitro by means of isolated cell populations. The Sertoli cells selectively bind FSH, and respond to FSH stimulation with increased accumulation of endogenous cyclic AMP and secretion of androgen-binding protein (ABP). FSH binding and cyclic AMP response in the Sertoli cells change dramatically during sexual maturation. Cyclic AMP response decreases despite an increase in FSH-binding receptors per cell. Evidence has been provided for the existence of cytoplasmic and nuclear androgen receptors and chromatin acceptor-sites that specifically bind the androgen-receptor complex in the Sertoli cells. A model has been proposed for the hormonal interactions in the seminiferous tubule and the possible role of Sertoli cells in mediating the hormonal effects on spermatogenesis. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This work was supported by Grant P50 HD08338 from the NICHHD. Dr. barbara M. Sanborn is a recipient of Research Career Development Award 1-K04-HD00126 (NIH).     

Isolation and characterization of Sertoli cell plasma membranes and associated plasminogen activator activity

Plasma membranes were isolated from the cultured Sertoli cells of 20-day-old rat testes by differential centrifugation and sucrose density fractionation. The distribution and purity of subcellular components was determined by marker enzyme analysis of gradient fractions. The plasma membrane fraction showed an enrichment in two plasma membrane marker enzymes, 5'-nucleotidase and ouabain-sensitive Na+/K+-ATPase-specific activities, of 9- and 23-fold, respectively. Forty-two percent and 52% of the total cellular 5'-nucleotidase and ouabain-sensitive Na+/K+-ATPase activities, respectively, were found in the membrane fraction. The protein yield of plasma membrane was approximately 6% of the total cellular protein. Two-dimensional polyacrylamide gel electrophoresis was used to compare [35S] methionine- and [3H] glucosamine-labeled membrane proteins. The incorporation of [35S] methionine and [3H] glucosamine was increased in several proteins when the cultured Sertoli cells were treated with follicle-stimulating hormone, insulin, retinol, and testosterone. Isolated Sertoli cell membranes contained a membrane-associated form of plasminogen activator. Analysis of this plasminogen activator demonstrated that the membrane-associated enzyme existed primarily as a single 38,000-40,000-Mr form.     

Regulation of seminiferous tubular function by FSH and androgen.

Seminiferous tubules contain a cytoplasmic androgen receptor similar to the receptors in the epididymis and ventral prostate. The presence of a cytoplasmic receptor indicates that androgens maintain spermatogenesis by a direct action on certain types of cells within the seminiferous tubule. The Sertoli cell appears to be one of the cell types containing androgen receptors and the receptor might also be present in spermatogonia, primary spermatocytes, or peritubular cells. The Sertoli cell is stimulated by FSH to produce an androgen-binding protein which may serve to increase the accumulation of androgen in the seminiferous epithelium and make it available for binding by intracellular androgen receptors. This may be a way in which FSH enhances the action of androgen on spermatogenesis. Androgens act on the Sertoli cell to increase its response to FSH. This action of androgens on the Sertoli cell results in increased production of androgen-binding protein and may enhance the production of other substances which exert trophic effects on spermatogenesis.     

Uptake and metabolism of retinol in cultured Sertoli cells: evidence for a kinetic model

When cultured Sertoli cells derived from 20-day-old weanling rats were supplied [3H]retinol bound to serum retinol binding protein-transthyretin complex, [3H]retinol was rapidly incorporated and [3H]retinyl esters were synthesized. Within 28 h after administration, 83% of the labeled retinoids were accounted for as retinyl esters (64% as retinyl palmitate). Sertoli cells derived from vitamin A deficient rats and supplied [3H]retinol in culture under identical conditions likewise incorporated [3H]retinol and synthesized retinyl esters. In contrast to normal Sertoli cells, vitamin A deficient Sertoli cells eventually metabolized virtually all of the cellular [3H]retinol to retinyl esters. The primary metabolic fate of retinol administered to Sertoli cell cultures was the synthesis of retinyl esters under all conditions tested. However, administration of [3H]retinol bound to serum retinol binding protein gave metabolic profiles having a higher proportion of retinyl esters and lower proportions of unresolved polar material than administration of [3H]retinol alone. The kinetics of retinol uptake and intracellular retinyl ester synthesis in cultured Sertoli cells was complex. An initial, rapid phase of [3H]retinol incorporation lasting 30 min was followed by a slower rate of incorporation and a concomitant decrease in the intracellular concentration of [3H]retinol. During the time course the specific activity of [3H]retinyl palmitate eventually exceeded that of intracellular [3H]retinol. These observations suggest that two intracellular pools of retinol may exist in Sertoli cells.     

Retinol esterification in Sertoli cells by lecithin-retinol acyltransferase

Esterification of retinol occurs during the metabolism of vitamin A in the testis. An acyl-CoA:retinol acyltransferase (ARAT) activity has been described for microsomes isolated from testis homogenates. That activity was also observed here in microsomal preparations obtained from cultured Sertoli cells from 20-day-old (midpubertal) rats. ARAT catalyzed the synthesis of retinyl laurate when free retinol and lauroyl-CoA were provided as substrates. However, in the absence of exogenous acyl-CoA, retinol was esterified by a different activity in a manner similar to the lecithin:retinol acyltransferase (LRAT) activity described recently for liver and intestine. Microsomal preparations obtained from enriched Sertoli cell fractions from the adult rat testis had 75-fold higher levels of LRAT than the preparations from midpubertal animals, but ARAT activity was the same in both these preparations. LRAT utilized an endogenous acyl donor and either unbound retinol or retinol complexed with cellular retinol-binding protein (CRBP) to catalyze the synthesis of retinyl linoleate, retinyl oleate, retinyl palmitate, and retinyl stearate. The addition of exogenous dilaurylphosphatidylcholine (DLPC) resulted in the synthesis of retinyl laurate. The esterification from both exogenous DLPC and endogenous acyl donor was inhibited by 2 mM phenylmethanesulfonyl fluoride (PMSF). ARAT activity was not affected by similar concentrations of PMSF. Furthermore, retinol bound to CRBP, a protein known to be present in Sertoli cells, was not an effective substrate for testicular ARAT. When retinol uptake and metabolism were examined in cultured Sertoli cells from 20-day-old rats, the cells synthesized the same retinyl esters that were produced by microsomal LRAT in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

Studies on Spermatogenesis and Steroidogenesis in Culture

This paper summarizes the major pertinent findings of previouslypublished work and includes new experimental data. Culture conditionshave been defined for long-term maintenance of basic testicularstructure, primitive type A spermatogonia, and Sertoli cells.The primitive type A spermatogonia grown for 8 weeks in organculture were capable of restoring complete spermatogenesis afterthe cultures were transplanted into the testes of sexually maturehomologous hosts. Since the primitive type A spermatogonia werethe only germinal elements present in the organ cultures atthe time of transplantation, they probably represent the spermatogenicstem cells. Differentiation of gonocytes or spermatogonia tospermatocytes in late pachytene stage required presence of vitaminsA, C, and E or 4 mM concentration of glutamine in the mediumbut was not affected by hormones. The replication of Sertolicells in vivo and in organ culture was shown to be age relatedand hormone independent. The Sertoli cells possess specificFSH binding receptors and respond to FSH with increased synthesisof c-AMP and androgen-binding protein. The biologic functionof FSH in the Sertoli cells remains to be clarified. Other cellularcomponents of the testis, the germinal, or peritubular cellsdo not bind FSH. In organ cultures of testicular tissue or Leydig-cellcultures all enzymes in the steroid biosynthetic pathway, leadingfrom progesterone to testosterone, remain active for severaldays. In older cultures, the conversion of progesterone to testosteronebecomes impaired primarily due to loss of two specific enzymes:17 hydroxylase and 17-20 lyase. Addition of HCG to monolayercultures of Leydig cells stimulated both the synthesis and releaseof testosterone.     

Vitamin A metabolism in cultured somatic cells from rat testis

Sertoli and peritubular myoid cells, the somatic cells of the seminiferous tubule, support growth and differentiation of developing germ cells. This action strictly depends on the availability of in situ synthesized retinoic acid and we have previously documented the ability of Sertoli, but not peritubular cell extracts, to support the oxidation of retinol to retinoic acid. Using primary cultures of somatic cells treated with a physiological concentration of free retinol, we show here that the same is essentially true also for whole cultured cells. Sertoli cells are capable of producing not only retinoic acid, but are also the major site of retinyl ester (mainly, retinyl palmitate) formation. Compared with retinyl palmitate accumulation, retinoic acid synthesis was both faster and positively influenced by prior exposure to retinol. This increase in retinoic acid synthesis was further augmented by treatment with the retinoic acid catabolic inhibitor liarozole, thus indicating that enhanced synthesis, rather than reduced catabolism, is responsible for such an effect. Myoid cells had a higher capacity to incorporate exogenously supplied retinol, yet retinoic acid synthesis, and even more so retinyl palmitate formation, were considerably lower than in Sertoli cells. Retinoic acid synthesis in myoid cells was not only depressed, but also very little influenced by prior retinol exposure and totally insensitive to liarozole. These data further support the view that myoid cells are involved in retinol uptake from the blood and its transfer to other cells, rather than in metabolic interconversion or long-term storage of vitamin A, two processes that mainly take place in Sertoli cells.     

An activated human follicle-stimulating hormone (FSH) receptor stimulates FSH-like activity in gonadotropin-deficient transgenic mice

FSH mediates its testicular actions via a specific Sertoli cell G protein-coupled receptor. We created a novel transgenic model to investigate a mutant human FSH receptor (FSHR(+)) containing a single amino acid substitution (Asp567Gly) equivalent to activating mutations in related glycoprotein hormone receptors. To examine the ligand-independent gonadal actions of FSHR(+), the rat androgen-binding protein gene promoter was used to direct FSHR(+) transgene expression to Sertoli cells of gonadotropin-deficient hypogonadal (hpg) mice. Both normal and hpg mouse testes expressed FSHR(+) mRNA. Testis weights of transgenic FSHR(+) hpg mice were increased approximately 2-fold relative to hpg controls (P < 0.02) and contained mature Sertoli cells and postmeiotic germ cells absent in controls, revealing FSHR(+)-initiated autonomous FSH-like testicular activity. Isolated transgenic Sertoli cells had significantly higher basal ( approximately 2-fold) and FSH-stimulated ( approximately 50%) cAMP levels compared with controls, demonstrating constitutive signaling and cell-surface expression of FSHR(+), respectively. Transgenic FSHR(+) also elevated testosterone production in hpg testes, in the absence of circulating LH (or FSH), and it was not expressed functionally on steroidogenic cells, suggesting a paracrine effect mediated by Sertoli cells. The FSHR(+) response was additive with a maximal testosterone dose on hpg testicular development, demonstrating FSHR(+) activity independent of androgen-specific actions. The FSHR(+) response was male specific as ovarian expression of FSHR(+) had no effect on hpg ovary size. These findings reveal transgenic FSHR(+) stimulated a constitutive FSH-like Sertoli cell response in gonadotropin-deficient testes, and pathways that induced LH-independent testicular steroidogenesis. This novel transgenic paradigm provides a unique approach to investigate the in vivo actions of mutated activating gonadotropin receptors.     

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.     

Characteristics of retinol accumulation from serum retinol-binding protein by cultured Sertoli cells

The uptake of retinol was examined in cultured Sertoli cells when retinol was provided as a complex with the transport protein retinol-binding protein (RBP). Sertoli cells accumulated [3H]retinol in a time- and temperature-dependent manner. At 32 degrees C, the rate of retinol accumulation was biphasic. Accumulation was linear for approximately 1 h, but then accumulation continued at a linear but decreased rate for 23 h. The change in rate of retinol accumulation occurred when the cells had accumulated approximately 0.53 pmol of retinol/micrograms of cellular DNA. This amount of retinol was approximately equal to the cellular content of cellular retinol-binding protein (CRBP). Extraction and HPLC analysis of the cell-associated radioactivity yielded retinol and retinyl esters, indicating that a significant proportion of the accumulated retinol was esterified. Excess unlabeled retinol-RBP competed with [3H]retinol-RBP for [3H]retinol delivery to the cells, indicating that RBP delivery of retinol was a saturable and competable process. However, free [3H]retinol associated with Sertoli cells in a noncompetable manner. The transport constant for specific retinol accumulation from RBP was 3.0 microM, suggesting that any change in the normal circulating retinol-RBP level (approximately 2 microM) would directly affect the rate of retinol accumulation. Neither iodinated nor reductively methylated RBP was accumulated by or tightly bound to Sertoli cells. In addition, energy inhibitors and lysosomal poisons had no effect on [3H]retinol accumulation, indicating that RBP delivery of retinol to Sertoli cells did not occur by endocytosis of the retinol-RBP complex. Competition studies indicated, however, that protein recognition is important in the retinol uptake process.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation mechanisms of spermatogenesis in red-backed mice at different population phases

This paper gives morphological and functional analysis of the endocrine and germinal testicular sections in red-backed mice Myodes glareolus from a natural population at different population sizes. The decrease in the germinal testicular activity at the peak population is due to the reduced functional activity of the endocrine testicular section (Leydig and Sertoli cells), which leads to a decreased content of testosterone, androgen-binding protein, and inhibin that take part in the hormonal regulation of spermatogenesis. The trend towards suppression of spermatogenesis is noted to persist in animals at a low population size.