Immunocytochemical localization of aromatase in rat testis

The immunocytochemical localization of aromatase in the testes of young and adult rats was investigated by an indirect-immunofluorescent method using antihuman placental aromatase-II cytochrome P-450 antibody. In both young (1 and 2 weeks old) and adult rats, only the Leydig cells in the interstitial tissue showed a positive immunoreaction for aromatase, while the germ cells and Sertoli cells in the seminiferous tubule were entirely negative. In addition, electron microscopy revealed that the Leydig cells in the testes of young as well as adult rats have a well-developed smooth endoplasmic reticulum, mitochondria with tubulovesicular cristae, and a few lipid droplets, these structures being characteristic of steroid secretory cells. On the basis of these results, we suggest that estrogens are mainly synthesized in Leydig cells of the testes.     

Structural and functional abnormality of ectopic testes in rats

Some males of a mutant strain of King-Holtzman rats exhibit an anomalous heritable defect manifested as either unilateral or bilateral ectopic testes. In the adult, these testes contain seemingly immature Sertoli and Leydig cells, seminiferous tubules greatly reduced in diameter, and exhibit arrested spermatogenesis. Thus, the affected testis is essentially sterile. An inability to produce normal amounts of testosterone and androstenedione by these gonads is probably a reflection of changes that have been effected in their Leydig cells. Thus, this study suggests that abnormal function of the Leydig and Sertoli cells and seminiferous tubule failure in these mutant animals result from the physiologically cryptorchid condition.     

Differential effects of the destruction of Leydig cells by administration of ethane dimethane sulphonate to postnatal rats

Ethane dimethane sulphonate (EDS) is a cytotoxic drug that selectively destroys Leydig cells in adult testes. This study has examined the effect of a single injection of EDS on the Leydig cell populations present in the testes of rats aged 5, 10, or 20 days. Microscopic examination of the tissue demonstrated that the fetal Leydig cell population was destroyed at all ages, but that subsequent development of the adult population of Leydig cells was not affected. Whilst the destruction of the fetal Leydig cells in this acute phase of EDS on 5-day-old rats was accompanied by a decline in serum testosterone levels, there was no apparent effect on this hormone when EDS administered at 10 or 20 days of age, despite the destruction of fetal Leydig cells in these rats. The long-term effects of EDS on Day 5 of age resulted in proliferation of the intertubular tissue in which more Leydig cells were observed, but serum testosterone and testosterone levels in response to human chorionic gonadotropin stimulation in vitro were normal despite moderate or severe disruption of the seminiferous epithelium. These data show that the fetal Leydig cells of immature testes are sensitive to the cytotoxic effects of EDS in the adult, but the response of the testes differs depending on the age at which the drug is administered.     

Cyclic AMP phosphodiesterase in Leydig cell preparations of the rat testis

Enzymatic digestion of the interstitial tissue of early juvenile and adult rat testes resulted in an enrichment of the Leydig cell population. The cells of the intertubular preparation from adult testes were separated by centrifugal elutriation, according to differences in sedimentation velocity, a counter-flow centrifugation technique leading to 70% Leydig cell purity. Using this approach, it was possible to demonstrate that Leydig cells from adult testes contain only low affinity isoenzymes of cyclic AMP phosphodiesterase (PDE; E.C.: 3.1.4.17), an intracellular regulator of cAMP. Starch gel electrophoresis showed that the isozyme of cAMP PDe of Leydig cells is masked in crude testis homogenates due to the relatively low level of these cells in the total population. In Leydig cells, there are two different electrophoretic forms expressed which resemble two of eleven different molecular forms of cAMP PDE demonstrated for comparison in 21 different organs of the adult rat. An interstitial cell preparation from early juvenile testes, with a Leydig cell content of up to 20%, was also investigated electrophoretically with regard to molecular forms of cAMP PDE, the properties of which were characterized by kinetics analysis of cAMP hydrolysis. The results presented are discussed in relation to the onset of testosterone synthesis in Leydig cells of prepubertal rats leading to the initiation of male puberty.     

Ultrastructure and morphometry of testicular Leydig cells and the interstitial components correlated with testosterone in aging rats

The ultrastructure of testicular interstitium in young and aged adult rats was analysed using morphometric methods, and the plasma testosterone concentration was measured. With increasing age there was an augumentation in the volume of collagen fibrils in the intercellular matrix and in blood vessels. During the aging process (approximately two years) the average volume of the Leydig cell decreased from 1364 m³ to 637 m³, but the number of Leydig cells in paired testes increased from 53x10⁶ to 113x10⁶. The absolute volume of smooth surfaced endoplasmic reticulum (SER) per Leydig cell amounted in aged rats to 78% of that in young adult rats. The total amount of SER in paired testes increased by 62% with aging. The present analysis suggests that the ability of SER to maintain peripheral testosterone concentration decreases with age. In young adult rats the absolute volume of peroxisomes per Leydig cell correlated significantly with the concentration of testosterone in blood and also with the absolute volume of SER per Leydig cell. These results combined with ultrastructural observations of close apposition of peroxisomes and SER suggest that peroxisomes have a role in testosterone secretion by Leydig cells.Visiting scientist to Laboratory of Electron Microscopy (Director: Prof. L.J. Pelliniemi)     

Development of cytoplasmic digitations between Leydig cells and testicular macrophages of the rat

Summary Testicular macrophages and Leydig cells from adult animals are known to be functionally coupled. For example, secreted products from macrophages stimulate testosterone secretion by Leydig cells. In adult rat testes, structural coupling also exists between these cells. This coupling consists of cytoplasmic projections from Leydig cells located within cytoplasmic invaginations of macrophages. Although macrophages are known to exist in the testis in immature animals, it is not known when these digitations develop. The purpose of the present study was to determine whether the time of their development coincides with known maturational events that occur in Leydig cells, particularly during the peripubertal period. Testes from rats at 20, 30 and 40-days-of-age as well as testes from mature rats weighing more than 500 gm were prepared for ultrastructural analysis. It was found that digitations form between 20 and 30-days-of-age. These structures varied from simple tubular projections to complicated branched structures, suggesting that digitations are more than simple invaginations of microvilli into coated vesicles as previously described. Subplasmalemmal linear densities were also observed within macrophages juxtaposed to Leydig cells. Collagen was commonly observed between macrophages and Leydig cells in animals 20 days old. These studies demonstrate that although macrophages are present in the testis in maximal numbers at 20 days-of-age, they do not form junctions with Leydig cells until day 30. This is just prior to the major increase in secretory activity of rat Leydig cells that occurs during puberty.     

Cyclic AMP Phosphodiesterase in Leydig Cell Preparations of the Rat Testis

Enzymatic digestion of the interstitial tissue of early juvenile and adult rat testes resulted in an enrichment of the Leydig cell population. The cells of the intertubular preparation from adult testes were separated by centrifugal elutriation, according to differences in sedimentation velocity, a counter-flow centrifugation technique leading to 70% Leydig cell purity. Using this approach, it was possible to demonstrate that Leydig cells from adult testes contain only low affinity isoenzymes of cyclic AMP phosphodiesterase (PDE; E.C.: 3.1.4.17), an intracellular regulator of cAMP. Starch gel electrophoresis showed that the isozyme of cAMP PDE of Leydig cells is masked in crude testis homogenates due to the relatively low level of these cells in the total population. In Leydig cells, there are two different electrophoretic forms expressed which resemble two of eleven different molecular forms of cAMP PDE demonstrated for comparison in 21 different organs of the adult rat.
An interstitial cell preparation from early juvenile testes, with a Leydig cell content of up to 20%, was also investigated electrophoretically with regard to molecular forms of cAMP PDE, the properties of which were characterized by kinetic analysis of cAMP hydrolysis. The results presented are discussed in relation to the onset of testosterone synthesis in Leydig cells of prepubertal rats leading to the initiation of male puberty.     

Müllerian-inhibiting substance inhibits rat Leydig cell regeneration after ethylene dimethanesulphonate ablation

The postnatal development of Leydig cell precursors is postulated to be controlled by Sertoli cell secreted factors, which may have a determinative influence on Leydig cell number and function in sexually mature animals. One such hormone, Mullerian inhibiting substance (MIS), has been shown to inhibit DNA synthesis and steroidogenesis in primary Leydig cells and Leydig cell tumor lines. To further delineate the effects of MIS on Leydig cell proliferation and steroidogenesis, we employed the established ethylene dimethanesulphonate (EDS) model of Leydig cell regeneration. Following EDS ablation of differentiated Leydig cells in young adult rats, recombinant MIS or vehicle was delivered by intratesticular injection for 4 days (Days 11-14 after EDS). On Days 15 and 35 after EDS (1 and 21 days post-MIS injections), endocrine function was assessed and testes were collected for stereology, immunohistochemistry, and assessment of proliferation and steroidogenesis. Although serum testosterone and luteinizing hormone (LH) were no different, intratesticular testosterone was higher on Day 35 in MIS-treated animals. At both time points, intratesticular 5alpha-androstan-3alpha,17beta-diol concentrations were much higher than that of testosterone. MIS-treated animals had fewer mesenchymal precursors on Day 15 and fewer differentiated Leydig cells on Day 35 with decreased numbers of BrdU+ nuclei. Apoptotic interstitial cells were observed only in the MIS-treated testes, not in the vehicle-treated group on Day 15. These data suggest that MIS inhibits regeneration of Leydig cells in EDS-treated rats by enhancing apoptotic cell death as well as by decreasing proliferative capacity.     

Hormonal regulation of lh stimulation of testosterone production in isolated leydig cells of immature rats: The effect of hypophysectomy,fsh, and estradiol-17β

Testosterone production in isolated Leydig cells from testes of immature and adult rats was stimulated by addition of LH in a dose dependent way. Hypophysectomy of adult rats had no influence on LH-stimulated testosterone production in isolated Leydig cells after 5 days. In contrast hypophysectomy of immature rats resulted after 5 days in an almost complete loss of LH sensitivity of isolated Leydig cells. Daily administration of FSH during 5 days starting immediately after hypophysectomy maintained LH responsiveness of isolated Leydig cells of immature rats. Also FSH administration starting on day 5 after hypophysectomy resulted in a restoration of LH responsiveness. Estradiol benzoate, injected simultaneously with FSH, abolished the FSH-induced LH responsiveness.     

Ultrastructural and biochemical characteristics of leydig cells from newborn androgen-insensitive rats

Summary Leydig cells of the testis of newborn pseudohermaphrodite (tfm) rats have an ultrastructure similar to that of the normal, containing well developed organelles and inclusions. The cytoplasm is filled with smooth endoplasmic reticulum forming a network of interconnected tubules. Lipid droplets are surrounded by cisternae of smooth endoplasmic reticulum and are in close association with pleomorphic mitochondria. Many of the latter are cup-shaped and have tubular cristae and intramitochondrial dense bodies.Essentially, these are characteristics of normal Leydig cells. Accordingly, the production of testosterone by testes from newborn tfm rats is the same as that by testes from normal newborns and adults. However, it is significantly higher than that by testes of tfm adults. Also, the plasma testosterone levels of newborn tfm rats are the same as in the normal newborn, but lower than in normal adults and much lower than in adult tfm animals.Thus, since in the tfm rat the morphology of Leydig cells, androgen production, and maintenance of plasma levels of testosterone are normal in the newborn, but become abnormal with advancing age, it appears that defective androgen action rather than insufficient androgen production is the cause of male pseudohermaphroditism.     

Peroxisomes and intracellular cholesterol trafficking in adult rat Leydig cells following Luteinizing hormone stimulation

The present study was designed to explore the intracellular cholesterol trafficking in Leydig cells of adult rats following Luteinizing hormone (LH) injection. Histochemical techniques were used to demonstrate distribution of free cholesterol in Leydig cells of control and LH-injected rats. Two groups of sexually mature male Sprague Dawley rats (n=4/group) were used. Fifteen min following an injection of 200 microl of either saline (control) or luteinizing hormone (LH, 500 microg in saline) testes of rats were fixed by whole body perfusion using 0.5% glutaraldehyde and 4% paraformaldehyde in 0.1 M cacodylate buffer for 20 min. Fixed testes were cut into 3 mm3 and kept immersed in the fixative for further 15 min. Tissue cubes were then incubated at 37 degrees C in a medium containing cholesterol oxidase, 3,3'-diaminobenzidine tetrahydrochloride, horseradish peroxidase and dimethyl sulfoxide to histochemically localize free cholesterol in Leydig cells and processed for electron microscopy. Thin sections of these tissues were stained with aqueous uranyl acetate and lead citrate and examined with a Philips 201C electron microscope. In Leydig cells of control rats, free cholesterol was detected primarily in lipid droplets and plasma membrane. In the majority of Leydig cells, peroxisomes were unstained for free cholesterol, but occasionally few stained ones were present. Staining was not detected in mitochondria and smooth endoplasmic reticulum (SER) in Leydig cells of control rats. In LH-injected rats, lipid droplets, many peroxisomes, inner and outer mitochondrial membranes and some cisternae of SER in Leydig cells showed staining for free cholesterol. Fusion of Leydig cell peroxisomes with lipid droplets and mitochondria was also observed in the LH treated rats. These findings suggested that peroxisomes in adult rat Leydig cells participate in the intracellular cholesterol trafficking and delivery into mitochondria during LH stimulated steroidogenesis. Lipid droplets are used as one source for cholesterol for this process.     

Insulin-like growth factor I in the developing and mature rat testis: immunohistochemical aspects

The distribution of insulin-like growth factor I (IGF-I; somatomedin C) was mapped in testes of different aged rats by using immunohistochemical techniques. The antiserum used, K 624, has been demonstrated to be specific for human IGF-I, as defined by several criteria. Antibodies to the M1 subunit of ribonucleotide reductase, a key enzyme in DNA synthesis, were used to visualize meiotic and mitotic cells. Cytoplasmic IGF-I-like immunoreactivity as demonstrable during the first two postnatal weeks in spermatogenic cells, in Sertoli cells, and in Leydig cells. The IGF-I-like immunoreactivity decreased in the Sertoli and Leydig cells during the third and fourth postnatal weeks, and in adult rats, only spermatogenic cells showed IGF-I-like immunoreactivity. In mature rat testes, the spermatocytes were strongly immunoreactive. During puberty and adulthood, the spermatogonia expressed subunit M1 ribonucleotide reductase immunoreactivity, whereas no IGF-I-like immunoreactivity could be detected. No extracellular immunoreactivity was observed. We propose that IGF-I and/or IGF-I-like substances, possibly formed by primary spermatocytes, are likely to be involved in differentiation processes, but not in the initiation of cell proliferation in adult testes. The autocrine and/or paracrine action of IGF-I and/or IGF-I-like substances may thus have different action in developing testes than in adult testes. Our results do, however, not allow firm statements about whether IGF-I and related substances exert their actions on Sertoli cells or spermatogenic cells.     

A study of the morphology of the Leydig cells of the rat after unilateral vasectomy.

A study to examine possible modifications in the number and/or morphology of the Leydig cell following vasectomy was done on 45 adult male rats. Rats were classified into 3 groups of 15 in which Group 1 had undergone left-sided vasectomy by section and double ligation, Group 2 had been subjected to a left-sided sham operation and Group 3 were intact controls. 5 rats from each group were killed 2, 4 and 6 months after the surgical procedures. Examination revealed insignificant variations in the vasectomized testes' weight and no differences in Leydig cell number when compared with contralateral and control gonads. The Leydig cells appeared histologically normal and differences between vasectomized and control groups were not found. Finally, no differences were found between the testes from vasectomized and control rats. Results demonstrated that examination of the testes revealed insignificant modifications in Leydig cell number or structure and that steroidogenesis in the testes was normal.     

Cellular localization of cytochrome P450IIA1 in testes of mature Sprague-Dawley rats.

Previous studies have shown that a prominent site of extrahepatic cytochrome P450IIA1 in male rats is the testis. We investigated the cellular location of cytochrome P450IIA1 in the testes of adult rats. Using specific isolation of testicular compartments and individual cell types, as well as in vivo removal of Leydig cells by ethane dimethyl sulfonate, we determined the cellular location of cytochrome P450IIA1 using testosterone hydroxylation assay, Western immunoblotting, and immunohistochemical analysis. Enriched Leydig cell fractions had the greatest testosterone 7 alpha-hydroxylase activity as well as immunoreactivity. Immunohistochemical analysis confirmed that the cellular location of cytochrome P450IIA1 was specific to Leydig cells. The specific localization of enzyme systems that are involved in xenobiotic activation may have important implications for inducing specific cell toxicity by compounds that exert their effects in the testes.     

Immunolocalization of proliferating cell nuclear antigen (PCNA) in cynomolgus monkey (Macaca fascicularis) testes during postnatal development

The age-related distribution of proliferating cell nuclear antigen (PCNA) in the testes of cynomolgus monkeys (Macaca fascicularis) during postnatal development was detected using light-microscopic immunohistochemistry. In neonatal testes, some PCNA-positive spermatogonia, Sertoli cells, peritubular cells, and Leydig cells were detected. In early infantile testes, only a few of these cell types were positive. In late infantile testes, the numbers of positive cells were greater than in the earlier developmental stages. In pubertal testes, the numbers of positive spermatogonia, spermatocytes, Sertoli cells, peritubular cells, and Leydig cells were considerably higher. In adult testes, a larger percentage of spermatogonia and spermatocytes was positive, and peritubular cells and Leydig cells were occasionally positive; secondary spermatocytes, spermatids, and Sertoli cells were not positive. We concluded that immunolocalization of PCNA can serve as a tool for studying proliferation status in developing testes of cynomolgus monkeys. A relatively low proliferative activity in early infantile testes and a remarkable increase of proliferative activity in pubertal testes correlate with the fluctuations of steroidogenic functions during postnatal development in cynomolgus monkeys.     

Nuclear testicular 1,25-dihydroxyvitamin D3 receptors in Sertoli cells and seminiferous tubules of adult rodents

1,25(OH)2D3 receptors were studied in whole testes, Sertoli cells, seminiferous tubules, Leydig cells and spermatogonia of adult NMRI mice and SD rats. Specific reversible high affinity binding (KD 1.4 x 10(-10)M; Nmax 72 fmol/mg protein) by a 3.5 S macromolecule was demonstrated in whole testes, Sertoli cells and seminiferous tubules. With identical techniques, no receptors were found in Leydig cells despite previous reports of 1,25(OH)2D3 actions on Leydig cell function.     

Structure and expression of the rat relaxin-like factor (RLF) gene.

The relaxin-like factor (RLF) is a novel member of the insulin-IGF-relaxin family of growth factors and hormones, and its mRNA is expressed very specifically in the Leydig cells of the testis and in the theca and luteal cells of the ovary. Here we report the cloning of the RLF gene and cDNA from the rat. The 0.8kb mRNA is produced from a small gene comprising two exons situated less than 1 kb downstream of the gene for the signalling factor JAK3. Northern hybridization confirms high RLF mRNA expression in the adult rat testis, and low expression in the ovary, but in no other tissues examined. Northern analysis of fetal and neonatal gonadal tissues showed that RLF mRNA is highly upregulated in the testes of day 19 embryos, but not in later neonatal stages, nor in any ovarian tissue from this period. This would indicate that RLF is a marker for the mature fetal as well as the adult-type Leydig cell, but is not expressed in premature, precursor, or dedifferentiated Leydig cells of either cell type. Finally, RNA was analysed from the testes of rats which had been treated with ethylene dimethane sulfonate (EDS), an alkylating agent that specifically destroys rat Leydig cells. RLF mRNA was absent from the acutely treated testes, but became detectable between 15 and 20 days post-treatment, concomitant with the repopulation of the testes by new Leydig cells. Continuous testosterone substitution of EDS-treated rats suppressed the production of gonadotropins, and LH-dependent Leydig cell differentiation, with the result that RLF mRNA remained undetectable throughout the study period. In conclusion, RLF is a very specific marker for the mature Leydig cell phenotype in both the adult-type and fetal Leydig cell populations of the rat testis.