The pituitary-testicular axis in microgravity: analogies with the aging male syndrome.

Extraterrestrial exploration has gone on for decades before reversible testicular failure was shown to be a consequence of space flight in humans and animals at the end of the XXth century. This phenomenon was initially thought to depend on the psycho-physical stress expected to derive from a decidedly unusual environment, but the lack of consistent data concerning cortisol increase and/or gonadotrophin suppression pointed to the possibility of a primary defect. This was indirectly confirmed by the observation that a continuum of testicular androgen secretion potential exists from microgravity to centrifuge-derived hypergravity. Further experiments using tissue slices and suspended cells confirmed a direct inhibitory effect of microgravity upon testicular androgen production. A parallel deterioration of major physiological parameters, such as bone density, muscle mass/force, red blood cell mass, hydration and cardiopulmonary performance, has been repeatedly described during space missions, which, luckily enough, fully recover within days to weeks after landing, the time lag depending on single organ/system adaptation rates. According to the Authors of the present review, when taking together all reported changes occurring in space, a picture emerges closely resembling the so-called aging male syndrome, which is currently the object of daily screening and clinical care in their endocrine unit, so that microgravity may become a tool for better understanding subtle mechanisms of testicular senescence.

Polyunsaturated fatty acids of germ cell membranes, glutathione and blutathione-dependent enzyme-PHGPx: from basic to clinic.

The lipid metabolism in sperm cells is important both for energy production and for cell structure. A special composition of membrane phospholipids, rich in polyunsaturated fatty acids (PUFA), and the different composition of sperm and immature germ cell membrane are described and discussed. Testis germ cells as well as epididymal maturing spermatozoa are endowed with enzymatic and non-enzymatic scavenger systems to prevent lipoperoxidative damage. Catalase, superoxide dismutase, and glutathione-dependent oxidoreductases are present in variable amounts in the different developmental stages. Phospholipid hydroperoxide glutathione peroxidase (PHGPx) activity and roles in caput and cauda epididymal sperm cells are discussed. Also seminal plasma has a highly specialized scavenger system that defends the sperm membrane against lipoperoxidation and the degree of PUFA insaturation acts to achieve the same goal. Systemic predisposition and a number of pathologies can lead to an anti-oxidant/pro-oxidant disequilibrium. Scavengers, such as glutathione can be used to treat these cases as they can restore the physiological constitution of PUFA in the cell membrane.

Interleukin-1 is a potent growth factor for immature rat sertoli cells.

Testes from rats of different maturational ages were explored for presence of paracrine sertoli cell growth factors. Pubertal and adult testes contained a 17 kDa protein, with potent stimulatory effect on immature Sertoli cell multiplication in vitro. The bioactivity of this protein was mimicked by rat interleukin-1 (IL-1) and neutralized by IL-1 receptor antagonist. A receptor-mediated action was further supported by the demonstration of IL-1 receptor type I mRNA and protein expression in the cultured sertoli cells and in intact immature rat testes. IL-1alpha showed higher efficacy in stimulating proliferation than IL-1beta and follicle-stimulating hormone (FSH), and displayed synergistic action in combination with FSH. As IL-1alpha is constitutively produced by the rat testis and IL-1beta readily inducible by proinflammatory stimuli, our results suggest that IL-1 may serve as a growth factor for Sertoli cells under physiological and pathophysiological conditions.

Age-dependent activin receptor expression pinpoints activin A as a physiological regulator of rat Sertoli cell proliferation.

It is currently believed that the fertility level of the adult mammalian testis is related to the total number of Sertoli cells, which is established in the early prepubertal life. We have previously reported that, in an in-vitro system, terminal Sertoli cell proliferation is sustained by activin A in concert with FSH. In this paper, we have addressed the question of whether this activin A effect correlates with activin receptor II (ActRII) expression pattern during early post-natal testis development. We first determined the precise developmental interval of activin proliferative effect on Sertoli cells in vitro and then analysed the expression of ActRII in purified testicular cell populations by Northern blot and in-situ hybridization. While the 3 kb ActRII isoform was widely expressed at different ages and in several testicular cells, including Sertoli cells, germ cells and myoid cells, the canonical 6 kb ActRII isoform was specifically and transiently expressed at a high rate in Sertoli cells at 7-9 days after birth, the time when these cells respond to activin A in vitro. In the light of these results, we conclude that activin A regulates terminal Sertoli cell proliferation in the rat testis and that this effect is mediated by the 6 kb isoform of ActRII.

Transforming growth factor-alpha stimulates proliferation of rat Sertoli cells.

The number of Sertoli cells is positively correlated with the number of germ cells produced in the testis, but the regulation of Sertoli cell proliferation and final density is poorly understood. Using non-aggregated Sertoli cells from 8 to 9-day-old rat testes, highly enriched by lectin binding, we explored effects of Sertoli cell growth factor candidates in vitro. Proliferation was assessed by 3H-thymidine incorporation, bromodeoxyuridine labeling and supravital staining, and FSH was used as positive control. Transforming growth factor-alpha (TGF-alpha) was found to stimulate Sertoli cell proliferation in a dose-dependent manner. Epidermal growth factor (EGF) and betacellulin mimicked the effect, demonstrating specificity of the response as they share receptors with TGF-alpha. Insulin-like growth factor I and II, acidic and basic fibroblast growth factor and stem cell factor lacked significant stimulatory effects. We conclude that EGF/TGF-alpha is a growth factor for Sertoli cells in vitro, possibly contributing to paracrine regulation of Sertoli cell proliferation in vivo.

The mammalian homologues of frog Bv8 are mainly expressed in spermatocytes.

Bv8, a protein from skin secretions of Bombina variegata, reacts with receptors present in mammalian brain and intestine (Mollay et al. (1999) Eur. J. Pharmacol. 374, 189-196). As deduced from cloned cDNAs, the murine and human Bv8 homologues have identical amino-terminal sequences and also contain 10 cysteines. From mouse testes, two forms of Bv8 mRNA have been characterized, of which one contains an additional exon which codes for 21 mostly basic amino acids. The mouse Bv8 gene is most active in mid-late pachytene spermatocytes. In mouse testes, Bv8 mRNA can first be detected at the end of the second week post partum.

Junctional contacts between Sertoli cells in normal and aspermatogenic rat seminiferous epithelium contain alpha6beta1 integrins, and their formation is controlled by follicle-stimulating hormone.

The distribution of alpha6beta1 integrins at the level of cell-to-cell contacts within the rat seminiferous epithelium was investigated. Double fluorescence experiments using phalloidin staining of actin filaments and anti-integrin subunit antibodies showed that the receptor belongs to the Sertoli cell lateral domains engaged in the characteristic junctional structures known as ectoplasmic specializations (ES), at the level both of inter-Sertoli junctions and of the contacts between Sertoli cells and elongating spermatids. In the seminiferous epithelium of aspermatogenic testes, obtained through X-irradiation in utero (Sertoli-cell-only testes), at the level of inter-Sertoli junctions both ES and alpha6beta1 integrins are present. In order to study the dependence of alpha6beta1 receptors and ES formation upon FSH stimulation during development, 9-day-old testes were grown in organ culture in basal as well as FSH-supplemented conditions. FSH stimulation, which is necessary for the progression of spermatogenesis to early meiotic stages, appears to be required for the development of inter-Sertoli junctional structures containing ES and alpha6beta1 integrins. These observations indicate that the receptor belongs to the inter-Sertoli junctional machinery and that its expression at that level is not dependent on active spermatogenesis but requires FSH stimulation.

A rapid method of Sertoli cell isolation by DSA lectin, allowing mitotic analyses.

We have developed a rapid and convenient method of Sertoli cell preparation for studying the growth kinetics of these cells in in vitro culture. Datura Stramonium agglutinin (DSA)-coated dishes were used to rapidly purify single Sertoli cells from immature rat testis. We have monitored by immunohistochemical markers the degree of contamination of our Sertoli cell preparation by other cell types. The cell preparation is essentially free of germ cells and interstitial cells and contains a minimal percentage of myoid cells. Sertoli cells isolated with this method retain functional activities such as the FSH responsiveness in terms of cAMP production. In addition, we have studied the proliferative activity of Sertoli cells isolated by lectin binding from rats of different ages. Sertoli cells exhibited a characteristic pattern of proliferation which was a function of the donor animal age. The proliferative activity of isolated Sertoli cells decreased with age, being much higher in 3 day-old rats than in older animals. A similar pattern was observed when the mitotic activity of Sertoli cells in response to mitogens present in the testicular extracts from 5 day-old rats was evaluated. The method described here reduces or eliminates many of the drawbacks of the conventional procedures used to isolate Sertoli cells, thus providing a useful tool in studies of growth kinetics and regulation of cell proliferation in vitro.

Isolation of highly purified type A spermatogonia from prepubertal rat testis.

We have developed a new method that allows isolation of highly purified type A spermatogonia from prepubertal rats. The procedure is based on the maximal release of spermatogonia from the seminiferous epithelium obtained by the complete enzymatic digestion of the tubular basal lamina, followed by removal of contaminating somatic cells through adhesion to plastic dishes coated with the lectin Datura stramonium agglutinin and fractionation on a discontinuous Percoll gradient. The cell suspension obtained contains up to 85% type A spermatogonia. Besides morphological criteria, the identification of germ cells and somatic cells has been performed by means of immunocytochemical markers, such as c-kit receptor, which is present only in germ cells, and vimentin, which is present only in somatic cells. All type A spermatogonia isolated were c-kit positive, thus suggesting that c-kit receptor is present in both undifferentiated and differentiating type A spermatogonia. Preliminary culture experiments demonstrate that spermatogonia survival in vitro was significantly improved by the addition of 10% fetal calf serum or horse serum to the culture medium; however, optimal culture conditions remain to be established. In vitro studies on isolated spermatogonia may provide a significant contribution toward elucidation of the mechanisms regulating spermatogonial proliferation and differentiation.

Isolation of the synchronized A spermatogonia from adult vitamin A-deficient rat testes.

A method for isolating A spermatogonia from the adult vitamin A-deficient (VAD) rat testis is described. After removal, the testes were decapsulated and tubules were dissected. An enzymatic digestion with collagenase, hyaluronidase, and trypsin was performed first to eliminate most of the interstitial cells. A second digestion with collagenase and hyaluronidase was performed to obtain a cell suspension with a high number of A spermatogonia. The cell suspension was further enriched with A spermatogonia by preplating on peanut agglutinin and separating on a discontinuous Percoll gradient. By this procedure, purification of the suspension to 70-90% A spermatogonia was obtained. In the seminiferous tubules of the VAD rats, only Sertoli cells, A spermatogonia, and some preleptotene spermatocytes are present. In our rats, the A spermatogonia are almost all arrested in the G1 phase of the cell cycle before the S phase of A1 spermatogonia, and presumably before their differentiation into A1 spermatogonia. After administration of vitamin A, spermatogenesis starts synchronously from these A spermatogonia. The isolation of these synchronized A spermatogonia opens ways to investigate the regulation of differentiation and proliferation of A spermatogonia and the biochemical characteristics of the subsequent types of A spermatogonia.

Activin stimulates Sertoli cell proliferation in a defined period of rat testis development.

The action of activin-A on Sertoli and spermatogonial cell proliferation during early postnatal life was studied by using in vitro organ culture of testis fragments from 9-day-old rats. Activin significantly stimulated 3H-thymidine incorporation into testis fragments cultured for 3 days in the presence of FSH, whereas it had no effect in the absence of the hormone. This effect was dose dependent in the range 10-200 ng/ml and was specifically inhibited by the activin-binding protein, follistatin. The effect of activin upon proliferation of different testicular cells was studied in detail by 5-bromo-2'-deoxyuridine-labeling fragments at the end of in vitro culture and then determining percentages of different labeled cells on immunostained histological sections. Concomitant treatment with FSH and activin, but not with FSH or activin alone, significantly stimulated Sertoli cell proliferation but markedly depressed that of differentiating type A spermatogonia. In contrast, proliferative activity of undifferentiated type A spermatogonia was independent of activin, irrespective of the presence of FSH. The effect of donor animal age was then investigated by culturing fragments derived from 3- and 18-day-old rats for 3 days. An age-related response was evident. Sertoli cell proliferation was stimulated by FSH alone in fragments from 3-day-old rats, activin having no apparent effect at this age. In contrast, none of the hormones tested either alone or in combination was effective in 18-day-old animals. These results demonstrate that activin acts with FSH in maintaining mitotic potentiality of Sertoli cells in a defined phase of their maturation path, when their proliferative activity is approaching the final arrest. These findings suggest that activin may be an important local factor in regulating Sertoli cell number and that the mitosis of differentiating spermatogonia subsides during Sertoli cell proliferation.

Stage and cell-specific expression of the adenosine 3',5' monophosphate-phosphodiesterase genes in the rat seminiferous epithelium.

Four genes (ratPDE1/IVc, ratPDE2/IVa, ratPDE3/IVd, and ratPDE4/IVb) encoding different isoforms of phosphodiesterase that specifically hydrolyze the second messenger cAMP (cAMP-PDEs) are present in the rat. Previous data from our laboratory indicated that these genes are differentially expressed in the somatic and germ cells of the seminiferous epithelium of the testis. To further characterize their spatial and temporal expression in the seminiferous tubules, in situ hybridization was used to monitor the expression of the four cAMP-PDE messenger RNAs (mRNAs). The signals corresponding to ratPDE1/IVc and ratPDE2IVa mRNAs were localized in two restricted layers of the seminiferous epithelium. The ratPDE1/IVc mRNA was present in a region of the epithelium corresponding to the location of middle-late pachytene spermatocytes. Conversely, the ratPDE2/IVa signal was confined to a more adluminal area corresponding to the location of maturing round spermatids. The ratPDE3/IVd and ratPDE4/IVb mRNAs were distributed throughout the span of the seminiferous epithelium, indicating a localization in the Sertoli cell cytoplasm. Although the intensity of the signal corresponding to ratPDE4/IVb was similar in all seminiferous tubule stages, the ratPDE3/IVd signal varied in intensity in tubules at different stages of the seminiferous cycle. Maximal expression was present in tubules at stages I-V and XI-XIII of the cycle and minimal at stages VIII-IX of the cycle. The expression of the ratPDE3/IVd mRNA positively correlated with the ability of specific inhibitors of the cAMP-PDEs to potentiate the FSH-dependent cAMP accumulation in tubules at different stages of the seminiferous cycle, with maximal potentiation observed at stages II-VI of the cycle. These data demonstrate that different cAMP-PDE genes are active in different cells of the seminiferous tubules and that the ratPDE3/IVd gene is expressed in the Sertoli cell in a cyclical fashion during the seminiferous cycle.

Spermatogonial cell proliferation in organ culture of immature rat testis.

Regulatory mechanisms of male germ cell proliferation in mammals were investigated by using in vitro organ culture of immature rat testis. Nutritional and hormonal requirements for maintenance and differentiation of germ cells in vitro were first characterized by testing different culture conditions. FSH was essential for the progression of type A spermatogonia up to the stage of pachytene spermatocytes after 3 wk of in vitro culture, while vitamins A, C, and E, LH, and testosterone were not effective. The proliferative activity of Sertoli cells markedly declined after 1 wk of in vitro culture, irrespectively of the presence of FSH in the medium. In addition, basal testosterone production by Leydig cells was maintained after 1 wk of culture, provided that FSH was present in the medium. The appearance of differentiating type I and type B spermatogonia and meiotic cells in the seminiferous cords throughout culture was accompanied by a significant reduction in the number of undifferentiated spermatogonia. Moreover, a similar labeling index of undifferentiated spermatogonia was observed in both unstimulated and FSH-stimulated testis fragments at all culture times considered. Therefore, FSH did not influence the mitotic activity of undifferentiated spermatogonia, suggesting a differential role of this gonadotropin during the mitotic phase of spermatogenesis. These results indicate that the organ culture system of immature rat testis represents a useful experimental model for studying regulatory mechanisms of spermatogonial cell proliferation.

ACTH-like peptides in postimplantation mouse embryos: a possible role in myoblast proliferation and muscle histogenesis.

ACTH and related peptides are mitogens for certain mesodermal cell types such as adrenocortical cells, T-lymphocytes, and skeletal myoblasts. In order to postulate a possible physiological role for these peptides in skeletal muscle histogenesis, it is necessary to establish whether they are present in muscle forming anlagens of postimplantation mouse embryos. By radioimmunoassay and immunofluorescence with antibodies specific for ACTH, we have detected these peptides in many areas of mouse embryos including neural tube, limb buds, eye lens, and myotomal muscles. During fetal development, immunoreactivity decreased in muscle tissue and appeared in visceral ganglia. Furthermore, primary myotubes or C2C12 myotubes, but not muscle or 3T3 fibroblasts, release significant levels of ACTH immunoreactive peptides into the culture medium. Using a microassay for mitogen production, primary myotubes or C2C12 myotubes, but not other mesodermal cells (with the exception of dermal fibroblasts) were shown to release factors into the medium which support myoblast proliferation. Neutralizing antibodies against ACTH inhibit myoblast but not fibroblast proliferation in a dose-dependent fashion. Based on these results, we propose that myotube-derived mitogens (including ACTH-like peptides) promote the proliferation of surrounding myoblast during muscle histogenesis in vivo.

Estradiol and plasminogen activator secretion by cultured rat Sertoli cells in response to melanocyte-stimulating hormones.

Pro-opiomelanocortin-derived peptides, alpha-MSH and beta-endorphin, are synthesized and secreted by Leydig cells, and are believed to have paracrine effects on Sertoli cells in the testis. Peptides with MSH activity stimulate adenylate cyclase and cAMP accumulation in Sertoli cell-enriched cultures. The purpose of the present study was to determine whether such peptides would affect Sertoli cell parameters, such as aromatase and plasminogen activator activities, that are known to be regulated by cAMP. alpha-MSH stimulated aromatase activity in Sertoli cell-enriched cultures prepared from 10-day-old rats and this effect was potentiated by methyl isobutylxanthine (MIX). The combination of alpha-MSH plus MIX was not as potent as FSH. alpha-MSH, des-acetyl-alpha-MSH, beta-MSH, ACTH(1-13), and ACTH(1-24) stimulated aromatase activity to a similar extent, suggesting that Sertoli cells do not distinguish between the activities of these peptides. alpha-MSH potentiated the action of dbcAMP and forskolin on Sertoli cell aromatase, but unexpectedly had no effect on the action of either half-maximal or maximal doses of FSH. The regulation of plasminogen activator was examined next; urokinase was markedly suppressed by FSH in 10-day-old Sertoli cells. Although neither alpha-MSH nor MIX alone had an effect on urokinase secretion, in combination they were as effective as FSH. In 10-day-old Sertoli cells each of these peptides had little or no effect on tissue plasminogen activator.(ABSTRACT TRUNCATED AT 250 WORDS)

Adrenocorticotropin is a specific mitogen for mammalian myogenic cells.

Peptides derived from proopiomelanocortin (POMC) have been found to stimulate the proliferation of murine myogenic cells. Among these peptides, adrenocorticotropin (ACTH) and alpha-, beta-, and gamma-melanocyte-stimulating hormones (MSH) were found to be active, whereas the opioid peptides were not. At clonal density, both ACTH and MSH caused a three- to fourfold increase in the average number of cells per clone in myogenic but not in fibroblast colonies. At high cell density, ACTH and MSH caused a three- to fourfold increase in proliferation of myogenic cells, reflected by an increased accumulation of skeletal myosin. On the other hand mouse embryo skin or muscle fibroblasts or vertebral chondroblasts did not increase proliferation in response to POMC-derived peptides. The half-maximal dose at which ACTH stimulated myoblast proliferation was around 5 nM, and the mitogenic effect was doubled by suboptimal doses of fibroblast growth factor. The possible physiological significance of the mitogenic effect of ACTH on myogenic cells is discussed.