Cytological changes in the testes of vitamin-A-deficient rats. II. Ultrastructural study of the seminiferous tubules

RBP4 regulates androgen receptor expression and steroid synthesis in Sertoli cells from Bactrian camels

Retinol-binding protein (RBP4) plays an important role in the transport and metabolism of retinol. In addition, RBP4 contributes to testicular homeostasis, including maintenance of spermatogenesis and synthesis of androgens that mediate their physiological functions through the androgen receptor. RBP4 in Sertoli cells regulates testosterone and dihydrotestosterone synthesis and secretion, although the mechanisms have yet to be revealed. In this study, we examined the expression and function of RBP4 in Sertoli cells isolated from Bactrian camels. qRT-PCR analysis of various Bactrian camel tissues revealed high expression of RBP4 in the testis and epididymis. To examine RBP4 function, Sertoli cells isolated from testes were transfected with an RBP4 overexpression plasmid or RBP4-targeting siRNA. RBP4 overexpression resulted in significant inhibition of transcription and translation of the steroidogenic enzymes 3βHSD and SRD5A1 concomitant with a significant decrease in androgen receptor expression and dihydrotestosterone secretion. Conversely, RBP4 knockdown significantly increased the expression of 3βHSD, SRD5A1, and androgen receptor and enhanced the secretion of dihydrotestosterone and testosterone. These data reveal a novel role for RBP4 in regulating steroid synthesis in Sertoli cells from Bactrian camels.

Long-term dietary intake of excessive vitamin A impairs spermatogenesis in mice

Vitamin A and its derivatives contribute to many physiological processes, including vision, neural differentiation, and reproduction. Vitamin A deficiency causes early cessation of spermatogenesis, characterized by a marked depletion of germ cells. However, there has been no clear understanding about the role of chronic intake of vitamin A excess (VAE) in spermatogenesis. The objective of this study was to investigate whether chronic intake of VAE diet causes arrest of spermatogenesis. To examine the effects of VAE on spermatogenesis, we used ICR male mice fed with control (AIN-93G purified diet: 4 IU/g) diet or VAE (modified AIN-93G diet with VAE: 1,000 IU/g) diet for 7 weeks (from 3 to 10 weeks of age). At 10 weeks of age, the retinol concentration in the testes of VAE mice was significantly higher than that of control mice. Testicular cross sections from control mice contained a normal array of germ cells, while the seminiferous tubules from VAE mice exhibited varying degrees of testicular degeneration. Daily sperm production in VAE testes was dramatically decreased compared to that in control testes. Sperm viability, motility, and morphology were also impaired in VAE mice. Furthermore, we examined the effects of VAE on the expression of genes involved in retinoid signaling and spermatogenesis to determine the underlying molecular mechanisms. Therefore, we are the first to present results describing the long-term dietary intake of VAE impairs spermatogenesis using a mouse model.

Molecular Mechanisms and Signaling Pathways Involved in Sertoli Cell Proliferation

Sertoli cells are somatic cells present in seminiferous tubules which have essential roles in regulating spermatogenesis. Considering that each Sertoli cell is able to support a limited number of germ cells, the final number of Sertoli cells reached during the proliferative period determines sperm production capacity. Only immature Sertoli cells, which have not established the blood-testis barrier, proliferate. A number of hormonal cues regulate Sertoli cell proliferation. Among them, FSH, the insulin family of growth factors, activin, and cytokines action must be highlighted. It has been demonstrated that cAMP/PKA, ERK1/2, PI3K/Akt, and mTORC1/p70SK6 pathways are the main signal transduction pathways involved in Sertoli cell proliferation. Additionally, c-Myc and hypoxia inducible factor are transcription factors which participate in the induction by FSH of various genes of relevance in cell cycle progression. Cessation of proliferation is a pre-requisite to Sertoli cell maturation accompanied by the establishment of the blood-testis barrier. With respect to this barrier, the participation of androgens, estrogens, thyroid hormones, retinoic acid and opioids has been reported. Additionally, two central enzymes that are involved in sensing cell energy status have been associated with the suppression of Sertoli cell proliferation, namely AMPK and Sirtuin 1 (SIRT1). Among the molecular mechanisms involved in the cessation of proliferation and in the maturation of Sertoli cells, it is worth mentioning the up-regulation of the cell cycle inhibitors p21Cip1, p27Kip, and p19INK4, and of the gap junction protein connexin 43. A decrease in Sertoli cell proliferation due to administration of certain therapeutic drugs and exposure to xenobiotic agents before puberty has been experimentally demonstrated. This review focuses on the hormones, locally produced factors, signal transduction pathways, and molecular mechanisms controlling Sertoli cell proliferation and maturation. The comprehension of how the final number of Sertoli cells in adulthood is established constitutes a pre-requisite to understand the underlying causes responsible for the progressive decrease in sperm production that has been observed during the last 50 years in humans.

The effects of long-lasting hypoglycemia on male reproductive organs in rats

Glucose has an important role in spermatogenesis. Nevertheless there are few reports in which the effects of long-lasting hypoglycemia on male reproductive organs have been evaluated. Therefore, insulin was administered subcutaneously at 100, 200, and 400 IU/kg to male rats twice a day for one month. This treatment regimen produced plasma glucose levels that rapidly decreased after treatment, with decreased glucose levels lasting for several hours after each administration on the first and final treatment days. During the treatment period, no abnormalities in clinical signs or body weight were observed. No statistically significant differences were noted in the weights of testes, epididymides, prostates and seminal vesicles, or pituitary glands. Histopathological examination revealed that the insulin-treated animals exhibited degeneration of seminiferous tubules in the testes and exfoliation of germ cells in the lumens of epididymides as a secondary change related to the testicular lesions. The incidences of the histopathological findings were found to be proportional to insulin dose. Sperm analysis of the group receiving the highest dosage indicated that the sperm concentration tended to decrease and the incidences of sperm malformations tended to increase. Our results suggest that long-lasting hypoglycemia affects male reproductive organs in rats.

Retinoids and spermatogenesis: Lessons from mutant mice lacking the plasma retinol binding protein

Using Rbp4-null mice as models, we have established for the first time the kinetics of the spermatogenetic alterations during vitamin A deficiency (VAD). Our data demonstrate that the VAD-induced testicular degeneration arises through the normal maturation of germ cells in a context of spermatogonia differentiation arrest. They indicate that retinoic acid (RA) appears dispensable for the transition of premeiotic to meiotic spermatocytes, meiosis, and spermiogenesis. They confirm that RA plays critical roles in controlling spermatogonia differentiation, spermatid adhesion to Sertoli cells, and spermiation, and suggest that the VAD-induced arrest of spermatogonia differentiation results from simultaneous blocks in RA-dependent events mediated by RA receptor gamma (RARgamma) in spermatogonia and by RARalpha in Sertoli cells. They also provide evidence that expression of major RA-metabolizing enzymes is increased in mouse Sertoli cells upon VAD and that vitamin A-deficient A spermatogonia differ from their RA-sufficient counterparts by the expression of the Stra8 gene.

Retinoic acid receptor alpha is required for synchronization of spermatogenic cycles and its absence results in progressive breakdown of the spermatogenic process

Targeted mutagenesis of the retinoic acid receptor alpha (RAR alpha) gene has revealed its essential role in spermatogenesis. Although cells in all stages of spermatogenesis were detected in RAR alpha(-/-) testes, there was an increase in degenerating pachytene spermatocytes and a temporary developmental arrest in step 8-9 spermatids in the first wave of spermatogenesis, a delay in the onset of the second wave, and a temporary arrest in preleptotene to leptotene spermatocytes in the first, second, and third waves. A striking aspect of the mutant phenotype was the failure of spermatids to align at the tubular lumen at stage VIII. Furthermore, there were missing or decreased numbers of the predicted cell types in tubules, and they exhibited a profound asynchrony of mixed spermatogenic cell types. In vivo bromodeoxyuridine labeling revealed a significant decrease in germ cell proliferation in both juvenile and adult RAR alpha(-/-) testes and confirmed the arrest at step 8-9 spermatids. Retinoid signaling through RAR alpha, thus, appears to be critical for establishment of synchronous progression of spermatogenesis and the subsequent establishment of correct cellular associations.

Role of retinoid signaling in the regulation of spermatogenesis

While the need for vitamin A for the normal progression of male germ cell differentiation has been known for many years, the molecular mechanisms underlying this requirement are poorly understood. This review will explore the aspects of the effects on spermatogenesis of dietary deprivation of vitamin A, in particular as to how they compare to the male sterility that results from the genetic ablation of function of the retinoid receptor RARalpha. The effects of other genes involved with retinoid synthesis, transport, and degradation are also considered. The possible cellular mechanisms that may be affected by the lack of retinoid signaling are discussed, in particular, cell cycle regulation and cell-cell interaction, both of which are critical for normal spermatogenesis.

Characterization of rat testes mitochondrial retinoylating system and its partial purification

Retinoylation (retinoic acid acylation), a posttranslational modification of proteins occurring in a variety of eukariotic cell lines both in vivo and in vitro, was studied in rat testes mitochondria. all-trans-Retinoic acid, a highly active form of vitamin A in inducing cellular differentiation, is incorporated covalently into proteins of rat testes mitochondria. The maximum retinoylation activity of rat testes mitochondrial proteins was 21.6 pmoles mg protein(-1) 90 min(-1) at 37 degrees C. The activation energy was 44 kJ mol(-1) from 5 to 37 degrees C. The retinoylation activity had a pH optimum of 7.5. The retinoylation process was specific for the presence of ATP, ADP, and GTP (even if only 30% of the control). The half saturation constant (Km) was 0.69 microM for all-trans-retinoic acid, while the inhibition constant (Ki) was 1.5 microM for 13-cis-retinoic acid. Retinoylation was not inhibited by high concentrations of myristic acid (MA) and palmitic acid (PA), indicating that retinoylation and acylation reactions involved different rat testes mitochondrial proteins. The ATP or CoASH saturation curves of retinoylation reaction showed sigmoidal behavior with apparent half saturation constants (K0.5) of 6.5 mM ATP and 40.6 microM CoASH. On SDS-gel electrophoresis, the hydroxylapaptite/celite eluate showed various protein bands between 25 and 80 kDa. This retinoylated protein was purified 17-fold with respect to the mitochondrial extract.

Vitamin A and infancy. Biochemical, functional, and clinical aspects

Vitamin A is a very intriguing natural compound. The molecule not only has a complex array of physiological functions, but also represents the precursor of promising and powerful new pharmacological agents. Although several aspects of human retinol metabolism, including absorption and tissue delivery, have been clarified, the type and amounts of vitamin A derivatives that are intracellularly produced remain quite elusive. In addition, their precise function and targets still need to be identified. Retinoic acids, undoubtedly, play a major role in explaining activities of retinol, but, recently, a large number of physiological functions have been attributed to different retinoids and to vitamin A itself. One of the primary roles this vitamin plays is in embryogenesis. Almost all steps in organogenesis are controlled by retinoic acids, thus suggesting that retinol is necessary for proper development of embryonic tissues. These considerations point to the dramatic importance of a sufficient intake of vitamin A and explain the consequences if intake of retinol is deficient. However, hypervitaminosis A also has a number of remarkable negative consequences, which, in same cases, could be fatal. Thus, the use of large doses of retinol in the treatment of some human diseases and the use of megavitamin therapy for certain chronic disorders as well as the growing tendency toward vitamin faddism should alert physicians to the possibility of vitamin overdose.

Retinoylation of proteins in cell-free fractions of rat tissues in vitro

all-trans-Retinoic acid, a highly active form of vitamin A in inducing cellular differentiation, is incorporated covalently into proteins both in vivo and in vitro. The relative rates of incorporation of all-trans-11,12-(3)H-retinoic acid into rat tissue homogenates in the presence of ATP and coenzyme A were testes>>lung> or =brain> or =kidney>liver. Although all studied cellular organelles of the testes incorporated (3)H-retinoic acid into protein, mitochondria were by far the most active; indeed, up to 25% of the added tritiated retinoic acid (RA) became covalently bound to protein in a 90 min incubation period. In the absence of ATP, coenzyme A, or both cofactors, the amount of RA incorporated into the proteins of testes mitochondria fell to 37%, 16%, and 11%, respectively, of that incorporated in their presence. N-Ethylmaleimide (5 mM) strongly inhibited the reaction. Boiled mitochondria were inactive. After extensive extraction with CHCl(3)-CH(3)OH, the protein-bound radioactivity, which proved largely to be retinoic acid, was released by treatment with proteinase K, hydroxylamine, and dilute base. Thus, retinoic acid is most probably linked to protein as a thiol ester. By SDS-polyacrylamide gel electrophoresis, four protein fractions with molecular masses of approx. 20, 24, 29, and 45 kDa, as well as smaller amounts of larger entities, were labeled in testes mitochondria. The possible identities and roles of these retinoylated proteins are currently being explored.

Immunolocalization of retinol-binding protein and profiles of its mRNA as related to testicular development in the beef bull

A study was conducted to identify the cell types that express retinol-binding protein (RBP) in the bovine testis and to compare relative steady-state levels of RBP mRNA expression at different times of testicular development. At the ages of 10 (n = 3), 20 (n = 8), and 34 (n = 7) wk, Angus bulls were bled three times at 1.5-hr intervals, then surgically castrated. Blood samples were analyzed for follicle-stimulating hormone (FSH), luteinizing hormone (LH), and testosterone (T), by radioimmunoassay and the degree of seminiferous tubule development was evaluated histologically in sections of fixed tissue samples stained with hematoxylin and eosin. Immunolocalization of RBP was based on the biotin-strepavidin-horseradish peroxidase method. Testis weight and concentrations of LH and T increased with age (P < 0.05), but those of FSH did not change (P > 0.05) between 10 and 34 wk. Seminiferous tubules at 10 wk contained immature Sertoli cells and gonocytes whereas, at 20 wk, spermatogonia and few spermatocytes were detected. At 34 wk, Sertoli cells appeared differentiated and spermatids were observed. RBP was immunolocalized in Sertoli, Leydig, and peritubular cells at the ages of 10, 20, and 34 wk. Furthermore, no differences in staining between Sertoli cells from tubules with or without germ cells were detected. Northern hybridization of testicular RNA with an RBP cDNA probe revealed the presence of a 1.4-Kb mRNA, which was similar to previous RBP transcripts found in other bovine tissues. Quantitative slot blot analysis revealed that steady-state RBP mRNA levels were 50% higher at 10 wk (P < 0.05) than at 20 and 34 wk of age.

Time course of testicular degeneration in rats induced by a synthetic retinoid (Ro 23-2895) and evidence for induction of hypovitaminosis A in the testes

Eight-week-old male Sprague--Dawley rats were dosed by gavage with 90 mg/kg of Ro 23-2895, (all-E)-9-[2-(nonyloxy)phenyl]-2,4,6,8 nonatetraenoic acid, dissolved in Tween 80. Treated animals (n = 3--4) were sacrificed after 3, 7, 11 and 21 days of dosing. Control rats (n = 3) received an equal volume of Tween 80 and were sacrificed after 3 or 21 days. Cross sections of formalin fixed testes were embedded in glycolmethacrylate, sectioned at 3 microns, and stained with periodic acid-Schiff and hematoxylin. No morphologic alterations were observed in the control rats or in treated rats after 3 days. After 7 days of treatment, there were occasional tubules in which there was a delayed release of mature sperm and occasionally the retained sperm were being resorbed. The frequency and severity of these morphologic changes was increased after 11 days of treatment, and round spermatids were occasionally observed with marginated chromatin in their nuclei. After 21 days of treatment, there was a significant reduction in testicular weight accompanied by marked degenerative changes and in some cases almost a complete desquamation of the germinal epithelium. Multinucleated giant cells and germ cells with marginated chromatin in their nuclei were commonly observed and there was moderate to severe oligospermia in the tubules. Sertoli cell nuclei were swollen and showed lucent, vesiculated nucleoplasm. In a parallel 21-day study, treated rats (n = 10) showed an 80% reduction in plasma retinol and a 56% decrease in testicular retinol compared to vehicle-treated rats (n = 10). A 53% decrease in plasma testosterone levels was also observed in treated rats. The testicular lesions produced by treatment with Ro 23-2895 were similar to vitamin A deficiency, which supports the hypothesis that high doses of synthetic retinoids may cause testicular degeneration through interference of normal retinol homeostasis.

Multinucleate epithelial cells in the ductuli efferentes of human epididymis

The histological and ultrastructural study of the ductuli efferentes in epididymides from 40 adult men revealed the occurrence of multinucleate epithelial cells in all specimens. These cells appeared in the luminal protrusions of epithelial folds and correspond to either principal or ciliated cells. The ultrastructure of their cytoplasm did not differ from that of their respective mononucleate cells. Multinucleate cells contained 3-20 closely juxtaposed nuclei, thus appearing much more irregularly outlined than those of the mononucleate epithelial cells. Multinucleation four times more frequent in the principal cells than in the ciliated cells. The number of multinucleate cells increased progressively from the age of 60 years onwards. The average number of nuclei per cell increased in the fourth decade of life, was maintained up to the eighth decade, and then increased again.

Inhibitory effect of chlorpromazine on rat reproduction: a test of administration for nine weeks before breeding

The effect of chlorpromazine (CPZ) administration prior to insemination on reproduction was studied using male and female Sprague-Dawley strain rats evaluated over three generations. CPZ in doses of 12.5, 25, 50, and 100 mg/kg was administered to both male and female rats orally every day for 9 weeks before mating with the following results: 1) The duration of the estrous cycle was prolonged in the F0 females. 2) The incidence of insemination and pregnancy of the F0 males and females as well as the number of surviving fetuses and newborns showed a tendency to decrease. 3) The body weight of the rats in F0 and F1 generations decreased depending on the dose of CPZ, but the body weight of the F2 generation increased. 4) The wet weight of the major organs of the rats in F0 and F1 generations was affected by administration of CPZ at 100 mg/kg. The weights of the liver, kidney, adrenal, pituitary, testis, and prostate glands in males and the kidney, adrenal gland, and ovary in females were increased, whereas the weights of the pituitary and the uterus were decreased in females. These results suggest that premating administration of CPZ to the parent rats exerts influence on the reproduction of the F0 and F1 generations.

Changes in testicular morphology in boars actively immunized against gonadotropin hormone-releasing hormone

Alterations in testicular morphology were studied in boars actively immunized against gonadotropin hormone releasing hormone (GnRH). Ten boars were divided equally into two experimental groups (five GnRH-immunized, and five controls). Antibody production was achieved by conjugating GnRH to human serum globulin (hSG). The GnRH-hSG conjugate was emulsified in complete Freund's adjuvant, and administered to boars at 12 weeks of age. Boars were given a booster in incomplete Freund's adjuvant on week 18 and 20. The presence of high antibody titers to GnRH caused luteinizing hormone and testosterone to decline to nondetectable levels. Morphometric examination showed a reduction in percentage volume in Leydig cells/unit testis, seminiferous tubule diameter and seminiferous epithelial height, and an increase in non-Leydig cell interstitial tissue in GnRH-immunized boars compared with controls. Histologic evaluation displayed severe damage of the seminiferous epithelium, absence of spermatids, incomplete cell associations, disruption of Sertoli cells, formation of multinucleated giant cells, and a striking reduction in size and cytoplasmic structures of Leydig cells in GnRH-immunized animals. These results demonstrate the potent inhibitory effects of GnRH immunoneutralization on the boar reproductive system.

Vitamin A modifies the glycopeptide composition of cultured Sertoli cells

Sertoli cells obtained from prepubertal rat testes were cultured in the presence or absence of retinol. Incorporation of monosaccharides and glycopeptide composition of the cells were studied under two experimental conditions. The results indicate that retinol increases the amount of mannose and glucosamine incorporated into cellular glycoconjugates. The labeled glycopeptides obtained from control and retinol-treated cells were separated by size and lectin affinity. Gel filtration analysis showed no size differences between the glycopeptides obtained from control and vitamin A-treated cells. Affinity chromatography on Concanavalin A and Wheat Germ Agglutinin of 3H-mannose-labeled glycopeptides showed that Sertoli cells cultured in the presence of retinol contain a higher percentage of high mannose-type glycopeptides compared with control cells. The effect of retinol on Sertoli cell glycopeptide composition is partially reversed by the administration of FSH.

Multinucleate spermatids in aging human testes

A comparative morphologic study between the testes of 25 young adult men and 41 elderly men without testicular or related pathological conditions revealed the presence of multinucleate spermatids, showing up to 86 nuclei, in the testes of 3 of the elderly men. The formation of multinucleate spermatids is probably due to cell fusion, since the number of nuclei in these cells is not always 2n and multinucleate spermatocytes were uncommon. This anomaly seems to be another manifestation of an involutive process that also affects other cell types in the aging testis.

An ultrastructural study on the presence of various types of crystals in the infertile human testis

Testicular biopsies obtained from 23 infertile outpatients, found to be normal except for oligospermia, were investigated using a Zeiss electron microscope. Ultrastructural changes in the Sertoli cells were encountered frequently, whilst most of the spermatogenic cells were degenerative. Sertoli cells exhibited abundant microfilaments which were seen to form small clusters leading to the formation of Charcot-Böttcher crystals, whilst the Leydig cells of the same specimens revealed the presence of small microtubular arrays and numerous small sized crystals. Fusion of small sized crystals resulted in the formation of typical Reinke crystals in the Leydig cells. Crystalloid structures similar to those seen in the Sertoli cells were also observed in the cytoplasm of type-A-spermatogonia and in a number of multinucleated cells with cytoplasmic characteristics of spermatogonia and Sertoli cells. Similar crystallization processes in both Sertoli and Leydig cells imply a close relationship between crystallization processes and impairment of spermatogenesis.