Pyruvate and lactate production by cultured Sertoli cells, fibroblasts and muscle satellite cells, and the effect of hormonal and dcAMP stimulation

Isolated male germ cells survive in culture if medium is supplemented with adequate energy substrates such as lactate or pyruvate. The purpose of the present study was to investigate if cultured Sertoli cells release in the medium lactate or pyruvate and if this production is affected by FSH or dcAMP treatment. We have also studied if the ability to produce lactate and pyruvate is shared by other cell types. The results show that 1) the two metabolites are released from germ-cell-free rat Sertoli cell monolayers, and their release is stimulated by hormone or dcAMP 2) other cell types of mesodermic origin release more lactate and pyruvate than Sertoli cells, but are not stimulated by FSH or dcAMP.     

Modulation of stimulatory action of follicle stimulating hormone (FSH) and inhibitory action of epidermal growth factor (EGF) on aromatase activity in Sertoli cells by calcium

Aromatization of testosterone by cultured Sertoli cells isolated from immature rats was stimulated more than 7-fold by follicle stimulating hormone (FSH) or dcAMP. The effects of FSH and dcAMP could be partly inhibited by epidermal growth factor (EGF) in a dose-dependent manner (ID500.5 nM). The phorbol ester 4 beta-phorbol-12-myristate-13-acetate (PMA) could also inhibit aromatase activity in a fashion similar to EGF. When 3 mM EGTA was present in the culture medium, the inhibitory effect of EGF was abolished but the stimulatory effect of FSH or dcAMP was magnified. These results suggest that EGF exerts a negative control on aromatase via calcium and protein kinase C. The abolishment of the inhibitory effect of EGF and the enhancement of the stimulatory effect of FSH or dcAMP by a calcium deficiency may be an indication that growth factors produced by Sertoli cells negatively controls FSH-induced responses in an autocrine fashion.     

Modification of Sertoli cell functions in vitamin A-deficient rats

FSH binding and cAMP responses to FSH in Sertoli cell-enriched testes were not affected by the vitamin A (retinol) status of the animals. These results indicate that changes in Sertoli cell functions during vitamin A deficiency are independent of FSH-Sertoli cell interactions. Concentrations of serum androgen binding protein (ABP) in vitamin A-deficient rats were consistently higher than those of control animals throughout the study period. The accumulation of testicular fluid after efferent duct ligation, an indication of Sertoli cell secretory function, was normal in vitamin A-deficient rats at least until 70 days of age, but declined thereafter. ABP concentrations in seminiferous tubular fluid of vitamin A-deficient rats increased transitorily during the 70-80-day age period but returned to normal by 90 days. The increment of ABP in seminiferous tubular fluid after efferent duct ligation, and ABP concentrations in interstitial fluid were consistently lower in vitamin A-deficient rats. The higher serum ABP in vitamin A-deficient rats therefore cannot be explained by an increase in the permeability of Sertoli-cell tight junctions or basement membrane.     

Age-dependent changes in the in-vitro response of a pig Sertoli cell-enriched population to FSH

The response of pig Sertoli cell-enriched cultures to FSH was investigated by measuring plasminogen activator (PA) secretion in culture, throughout the nonpubertal and prepubertal periods. Sertoli cell-enriched populations could be isolated from birth until a testicular weight of 56 g. FSH elicited a dose-dependent increase in PA secretion by pig Sertoli cell-enriched cultures. The ED50 was minimal for cells coming from testes weighing 10-22 g, and increased more than 2-fold for cells from heavier testes. This suggests that, at the end of the non-pubertal period, an increased FSH sensitivity is important for initiation of spermatogenesis in this species, and that during the prepubertal period Sertoli cells become less sensitive to FSH. The FSH-stimulated PA secretion increased about 10-fold from a testicular weight of 25 g onwards, i.e. when primary spermatocytes appear in seminiferous tubules.     

Prolonged ABP synthesis by Sertoli cells cultured in defined medium

Sertoli cells from 20 day old rats are stimulated to secrete ABP in cultured by a number of hormones and Vitamin A. Maximum ABP secretion in prolonged serum-free culture is seen when FSH, Testosterone, Insulin and Retinol are added to the medium. The plating conditions and type of medium used also affect the total ABP secretion. The decline of ABP secreted into medium by hormone stimulated cultures in prolonged incubations correlates with the detachment of the cells from the culture flask.     

Isolation and culture of FSH responsive Sertoli cells.

Methods for the isolation and culture of enriched populations of Sertoli cells from 20-60 day old rats are described. The identity of the Sertoli cells was verified by bright light and electron microscopy. Freshly isolated Sertoli cells specifically bound follicle stimulating hormone (FSH) but not luteinizing hormone (LH) and responded to FSH stimulation with dramatic increase in cyclic AMP level. Isolated Sertoli cells, maintained in culture for 11 days, showed no evidence of proliferation but retained their characteristic ultrastructural features and FSH binding ability. Incubation of cultured cells with FSH resulted in a significant stimulation of cyclic AMP and androgen binding protein (ABP). Since the freshly isolated or cultured cells were predominantly (greater than 80%) Sertoli cells, these results provide direct evidence that the Sertoli cells represent a primary target site for FSH activity in the testes. The culture method also provides a valuable in vitro model for the study of chronic effects of various agents on the Sertoli cell.     

Human Sertoli cells in vitro: morphological features and androgen-binding protein secretion.

Sertoli cells play a pivotal role in the regulation of spermatogenesis as they provide the anatomical basis of the blood-testis barrier. In the present paper we report some results of our studies on the ultrastructural features, the responsiveness to FSH, and the ability to secrete androgen-binding protein (ABP) of human Sertoli cells in vitro. The nucleus showed the characteristic foldings of the nuclear membrane, scattered chromatin, and a fibrillar nucleolus. In the cytoplasm Charcot-Boettcher crystals were present and active phagocytic activity was documented by the presence of vacuoles containing lipids and cellular debris. Human Sertoli cells in culture responded to FSH with a maximal rise in cAMP that was approx. 3-fold. This response to FSH is comparable to that reported for the adult rat but lower than that of the immature rat, and suggests that human as well as rat Sertoli cells could have a reduced response to FSH since sexual maturation was achieved. As no evidence has been reported on ABP secretion by human Sertoli cells in culture we evaluated the concentration of this protein in the Sertoli cell spent media. Human Sertoli cells in culture produced ABP and the response to FSH was dose-related. The Kd value of human ABP (hABP) was approx. 7.5 nM, being slightly higher than that of the rat ABP and an order of magnitude different from that of sex hormone-binding globulin (SHBG) present in human plasma. We also measured the association and dissociation rates of dihydrotestosterone-hABP complexes and the Kd/Ka ratio was very close to the value of Kd of the Scatchard analysis. The differences between hABP and SHBG may open the way to the selective measurement of ABP in many conditions of male infertility.     

A filter disc assay for the measurement and characterization of androgen-binding protein in unconcentrated media from Sertoli cell-enriched cultures

As easy, rapid and sensitive assay which permits measurements of androgen binding protein (ABP) in unconcentrated spent media from Sertoli cell cultures is described. The method is based on the adsorption of the 5 alpha-dihydrotestosterone-ABP complex onto DEAE-cellulose filter paper discs at pH 8.5. It is demonstrated that this method permits the characterisation of ABP (ligand specificity, kinetic properties) and represents a useful tool for the study of the effects of various hormones on ABP production by cultured Sertoli cells. When added on day 5 of culture, FSH and other agents that raise intracellular cAMP increase ABP secretion up to 3 times. Natural and synthetic androgens provoke a 1.5-1.8-fold increase. The effects of androgens and FSH are additive and cyproterone acetate blocks the effects of androgens in the presence as well as in the absence of FSH.     

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.     

Triiodothyronine decreases the production of androgen binding protein by rat Sertoli cells

Triiodothyronine (T3) effects on cultured Sertoli cells from immature rats were investigated by evaluating the production of androgen binding protein (ABP) a biochemical marker of Sertoli cell function. The results demonstrate that T3 administration to the rat as well as T3 addition to the culture medium specifically decreases ABP production by Sertoli cells, suggesting a direct regulatory role of thyroid hormone on male reproductive function.     

The effect of cryptorchidism and subsequent orchidopexy on testicular function in adult rats

Cryptorchidism for 28 or 10 days resulted in a severe disruption of spermatogenesis (assessed histologically or by fertility tests), Sertoli cell function (assessed by seminiferous tubule fluid production after efferent duct ligation, ABP levels, binding of 125I-labelled FSH to testis homogenates and serum FSH levels) and Leydig cell function (assessed by serum LH and testosterone levels, in-vitro testosterone production, binding of 125I-labelled hCG). Orchidopexy after 28 days of cryptorchidism resulted in a poor recovery of spermatogenesis since the majority of tubules were lined by Sertoli cells and a few spermatogonia. No recovery occurred in the indicators of Sertoli and Leydig cell function. Orchidopexy after 10 days of cryptorchidism also resulted in a poor recovery of spermatogenesis, with a few animals showing partial recovery after 6 months. No recovery occurred in seminiferous tubule fluid production but partial recovery occurred in ABP content and production rate. Serum FSH, LH levels and in-vitro testosterone production by the testis remained elevated and did not change from the values found during cryptorchidism. Fertility testing at 6 months revealed a small number of rats in which fertility was restored although the number of embryos was lower than in controls. In this group of animals there was a significant improvement in a number of indicators of Sertoli cell and Leydig cell function. These data provide further evidence to link the changes in Sertoli cell and Leydig cell function to the germ cell complement present in the testis.     

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.     

Isolation and culture of ram rete testis epithelial cells: structural and biochemical characteristics

Cultures of rete testis epithelial cell-enriched preparations from testes of adult rams have been investigated, and some of their properties have been determined. In monolayers, the cells form mosaic-like borders, and retain many ultrastructural features characteristic of rete epithelial cells in situ, including an indented nucleus with prominent heterochromatin clumps, short rod-shaped or round mitochondria that are easily distinguished from the elongated mitochondria of Sertoli cells, the presence of desmosomes, and few if any lipid droplets or vacuoles. Unlike Sertoli cell-enriched aggregates in culture, rete testis epithelial cell preparations do not form cytoplasmic extensions, and no associated germ cells are present. Rete cells in culture express cytokeratin and vimentin in the cytoskeleton, whereas Sertoli cells prepared from testes of adult rams contain vimentin but not cytokeratin. Both rete cells and Sertoli cells stain positively for laminin but not for fibronectin, Collagen Type I, or Collagen Type III. The rete cells synthesize and secrete several proteins into the culture medium, evident in gel electrophoresis patterns of radiolabeled proteins. This pattern is similar, but not identical, to that secreted by Sertoli cell-enriched preparations. Rete cells in culture in the presence of serum continue to undergo mitotic division, but Sertoli cells do not. A variety of criteria were employed to estimate the relative numbers of Sertoli cells present in the rete testis epithelial cell-enriched preparations from testes of adult rams, including morphological and ultrastructural differences between the two cell types, and the presence of desmosomal proteins and cytokeratin in rete cells but not in Sertoli cells. The relative number of fibroblast-like cells was determined by measuring the expression of fibronectin and Collagen Type I, and an immunocytochemical probe for the detection of Factor VIII was used to estimate the degree of contamination by vascular endothelial cells. Using these markers, we determined that the rete testis epithelial cell-enriched preparations were about 93% pure. Primary cultures under defined conditions contained relatively few Sertoli cells (0.4%), but were contaminated to a larger extent by fibroblast-like cells (approximately 4%) and by endothelial cells (about 3%). The possible functions of rete testis epithelial cells are discussed herein.     

Beta-endorphin regulation of FSH-stimulated inhibin production is a component of a short loop system in testis

Inhibin, a hormone produced by Sertoli cells in response to FSH, regulates androgen production in nearby Leydig cells. Beta-endorphin synthesized by Leydig cells under LH control is also known to regulate Sertoli function. To delineate whether beta-endorphin might constitute part of a short loop regulatory system between these two testicular cells, the effect of this opiate on inhibin secretion was examined. Beta-endorphin alone did not alter basal inhibin accumulation in primary Sertoli cell-enriched cultures, however it did significantly reduce FSH-induced inhibin production and adenylyl cyclase activity but had no effect on forskolin-stimulated inhibin accumulation or adenylyl cyclase activity. Other opioid peptides (ACTH, dMSH, methionine-enkephalin) were without effect. These observations suggest that beta-endorphin regulates inhibin secretion by inhibiting FSH receptor coupling to adenylyl cyclase.     

Effects of spinal cord injury on spermatogenesis and the expression of messenger ribonucleic acid for Sertoli cell proteins in rat Sertoli cell-enriched testes

The study was an examination of the effects of spinal cord injury (SCI) on spermatogenesis and Sertoli cell functions in adult rats with Sertoli cell-enriched (SCE) testes. The effects of SCI on the seminiferous epithelium were characterized by abnormalities in the remaining spermatogenic cells during the first month after SCI. Three days after SCI, serum testosterone levels were 80% lower, while serum FSH and LH levels were 25% and 50% higher, respectively, than those of sham control SCE rats. At this time, the levels of mRNA for androgen receptor (AR), FSH receptor (FSH-R), and androgen-binding protein (ABP) were normal whereas those for transferrin (Trf) had decreased by 40%. Thereafter, serum testosterone levels increased, but they remained lower than those of the sham control rats 28 days after SCI; and serum FSH and LH levels returned to normal. The levels of mRNA for AR, ABP, and Trf exhibited a biphasic increase 7 days after SCI and remained elevated 28 days after SCI. FSH-R mRNA levels were also elevated 90 days after SCI. Unexpectedly, active spermatogenesis, including qualitatively complete spermatogenesis, persisted in > 40% of the tubules 90 days after SCI. These results suggest that the stem cells and/or undifferentiated spermatogonia in SCE testes are less susceptible to the deleterious effects of SCI than the normal testes and that they were able to proliferate and differentiate after SCI. The presence of elevated levels of mRNA for Sertoli cell FSH-R and AR, as well as of that for the Sertoli cell proteins, in the SCE testes during the chronic stage of SCI suggests a modification of Sertoli cell physiology. Such changes in Sertoli cell functions may provide a beneficial environment for the proliferation of the stem cells and differentiation of postmeiotic cells, thus resulting in the persistence of spermatogenesis in these testes.     

Effect of uncoupling treatments on FSH-induced hyperpolarization of immature rat Sertoli cells from Sertoli cell-enriched cultures

Sertoli cell-enriched cultures isolated from immature rat testes by enzymic treatments were investigated by intracellular microelectrode recordings. The hyperpolarization of cells induced by FSH was independent of the age of the rats (7-37 days) and was unchanged by exposure to a hormone-free medium or to a glycine buffer of pH 3. It was reduced by treatments which decreased the electrical coupling between cells either by an increase of intracellular calcium [i.e. calcium ionophore (A 23187, 5 x 10(-6) M), general anaesthetic (heptanol, 3.5 mM) and uncoupler of oxidative phosphorylations (carbonylcyanide m-chlorophenylhydrazone-CCmP, 10(-6) M)] or by a decrease of extracellular calcium [i.e. 0Ca + EGTA (1 mM) medium]. These effects were partly or totally reversed by a recovery period in a drug-free medium. Similar results were obtained by an exposure to trypsin (0.05%) followed by a second mechanical dispersion, but new cell hyperpolarization was induced by a new exposure to FSH. This electrophysiological study suggests an initial effect of FSH on the junctional complex between Sertoli cells, then the control by calcium of this complex.     

Structural and functional modifications of sertoli cells in the testis of adult follicle-stimulating hormone receptor knockout mice

Follicle stimulating hormone (FSH) plays important roles during testicular development and in the maintenance of spermatogenesis in the adult. However, the cellular events or pathways that FSH regulates to achieve these effects in Sertoli cells, where the FSH receptors (FSH-R) are located, is still not fully elucidated. The development of FSH-R knockout (FORKO) mice provides a model to examine alterations in testicular structure and function in its absence. To this end, light (LM) and electron microscopic (EM) analyses of perfusion-fixed testes of wild-type and FORKO mice of different ages were performed. Under the LM, a significant reduction was noted in the profile area of seminiferous tubules of FORKO mice compared with their wild-type counterparts at different ages. In addition, FORKO testes revealed large irregularly shaped spaces within the seminiferous epithelium, extending from the base to the lumen. Such spaces were often separated by anastomotic cords of spherical germ cells or completely surrounded elongating spermatids. This phenotype was restricted to half or less of the circumference of only some tubules, but was seen at all stages. EM analyses revealed that the spaces corresponded to an apparent accumulation of fluid in the Sertoli cell cytoplasm, coincident with an absence of the fine flocculent ground substance seen in wild-type mice. However, the Sertoli organelles, while less prominent, appeared intact and to be floating in the enlarged fluid-filled cytoplasm. Functionally, androgen-binding protein (ABP), a major secretory protein of Sertoli cells, was dramatically reduced in FORKO mice. These results suggest that FSH-R signaling normally maintains water balance in Sertoli cells in addition to regulating ABP production.     

Reversible interaction between androgen binding protein and testicular macromolecules causing inhibition of androgen binding activity.

Sertoli cells in culture isolated from immature rat testes secrete androgen binding protein (ABP) in the culture medium. Binding activity of ABP in concentrated medium was estimated with equilibrium dialysis against 1 nM dihydrotestosterone at 4 degrees C. The ABP protein activity was inhibited approximately 50% through addition of cytosol preparations from testis or liver, but not from brain tissue, to the concentrated culture medium; this inhibition remained constant for at least two days. The inhibitor is probably a macromolecule, because the activity could not be removed by charcoal treatment and dialysis. The percent inhibition of ABP binding activity was increased when increasing amounts of cytosol were added, it decreased in the presence of increased concentrations of androgens, but it was not influenced by variations of the concentration of ABP. Inhibition of androgen binding to ABP by cytosols in the presence of 1 nM testosterone could be reversed after dialysis in the presence of 10 nM testosterone. These results suggest a reversible competition between testosterone and the testicular macromolecule for ABP. The occurrence of this interaction between ABP and a testicular macromolecule can explain the variable results of estimated ABP binding activity in testis cytosol preparations.     

Delta-9-tetrahydrocannabinol stimulates ABP secretion from rat Sertoli cells in vitro

The effect of delta-9-tetrahydrocannabinol (THC) on rat Sertoli cell function was investigated. THC significantly increased ABP secretion by 1.5- to 2.1-fold but did not consistently enhance the stimulation of ABP induced by FSH, testosterone or dibutyryl cyclic AMP. ABP was measured by steady-state polyacrylamide gel electrophoresis, DEAE Bio-Gel and immunoassay; all three methods gave similar results. The minimal concentration of THC that stimulated ABP was 10 ng/ml; maximal stimulation was observed with 100-200 ng/ml. This effect was specific since THC did not affect gamma glutamyl transpeptidase activity or the secretion of plasminogen activator, lactate and transferrin. This observation that THC affects ABP secretion specifically is the first report of any differential effect of a drug on Sertoli cell secretion.