Cell-cell interactions in the control of spermatogenesis as studied using Leydig cell destruction and testosterone replacement

This review centers around studies which have used ethane dimethane sulphonate (EDS) selectively to destroy all of the Leydig cells in the adult rat testis. With additional manipulations such as testosterone replacement and/or experimental induction of severe seminiferous tubule damage in EDS-injected rats, the following questions have been addressed: 1) What are the roles and relative importance of testosterone and other non-androgenic Leydig cell products in normal spermatogenesis and testicular function in general? 2) What are the factors controlling Leydig cell proliferation and maturation? 3) Is it the Leydig cells or the seminiferous tubules (or both) which control the testicular vasculature? The findings emphasize that in the normal adult rat testis there is a complex interaction between the Leydig cells, the Sertoli (and/or peritubular) cells, the germ cells, and the vasculature, and that testosterone, but not other Leydig cell products, plays a central role in many of these interactions. The Leydig cells drive spermatogenesis via the secretion of testosterone which acts on the Sertoli and/or peritubular cells to create an environment which enables normal progression of germ cells through stage VII of the spermatogenic cycle. In addition, testosterone is involved in the control of the vasculature, and hence the formation of testicular interstitial fluid, presumably again via effects on the Sertoli and/or peritubular cells. When Leydig cells regenerate and mature after their destruction by EDS, it can be shown that both the rate and the location of regenerating Leydig cells is determined by an interplay between endocrine (LH and perhaps FSH) and paracrine factors; the latter emanate from the seminiferous tubules and are determined by the germ cell complement. Taken together with other data on the paracrine control of Leydig cell testosterone secretion by the seminiferous tubules, these findings demonstrate that the functions of all of the cell types in the testis are interwoven in a highly organized manner. This has considerable implications with regard to the concentration of research effort on in vitro studies of the testis, and is discussed together with the need for a multidisciplinary approach if the complex control of spermatogenesis is ever to be properly understood.     

Taenia crassiceps: A secretion-substance of low molecular weight leads to disruption and apoptosis of seminiferous epithelium cells in male mice

The present research was performed to isolate and study the effects of a low molecular weight (<1300 Da) parasite-associated substance, obtained from peritoneal fluids of female mice infected with Taenia crassiceps cysticerci, on seminiferous epithelium cells of male mice testis. The results showed an intense disruption of Sertoli cells and germ cells within the seminiferous tubules of experimental mice, along with the destruction of their gap junction (GJ). Significant generalized apoptosis of germ cells within seminiferous tubules was determined by TUNEL staining (P = 0.0159). In addition, a significant number of infiltrating macrophages were found in the luminal space of these seminiferous tubules (P < 0.0001). Finally, electron microscopy studies revealed structural and morphological abnormalities in the somatic cells (Sertoli and Leydig cells) and in the germ cells, primarily in the round and elongate spermatids.     

Nestin, a neuroectodermal stem cell marker molecule, is expressed in Leydig cells of the human testis and in some specific cell types from human testicular tumours

The intermediate filament protein nestin is predominantly expressed in some stem/progenitor cells and appears to be a useful molecular tool to characterise tumours originating from precursor cells of neuroectodermal and mesenchymal lineages. Leydig cells originate in the adult testis by differentiation from stem cells and express a variety of neural and neuroendocrine markers. The possible expression of the neural stem cell marker nestin in Leydig cells and testicular tumour cells was determined by analysing the patterns of nestin expression in normal and pathological human testes by Western blot and immunohistochemical methods. In normal testis, nestin was found in some vascular endothelial cells, a subset of peritubular spindle-shaped cells and some Leydig cells; spermatogenic and Sertoli cells were unstained. In normal Leydig cells, nestin was distributed in the perinuclear cytoplasm and accumulated in the crystalloids of Reinke with ageing. In non-tumour pathologies (cryptorchidism, impaired spermatogenesis), the seminiferous tubules were immunonegative, whereas hyperplastic Leydig cells showed cytoplasmic immunolabelling. In testicular malignancies, nestin was localised in the Sertoli cells of the seminiferous tubules affected with intratubular germ cell neoplasia, in the hyperplastic Leydig cells associated with these tumours and in some components (mesenchymal and neuroepithelial cells) of teratomas; spermatocytic and non-spermatocytic seminomas were unstained. Some vascular endothelial cells were immunolabelled in all tumour samples. Thus, nestin is expressed in a population of normal and hyperplastic Leydig cells and in Sertoli cells in the presence of intratubular germ-cell neoplasia. Nestin may be a good marker for identifying components of testicular teratomas.The two first authors participated equally in this workThis work was supported by a grant from the Fondo de Investigaciones Sanitarias (FIS 02/3003 to M.V.T. Lobo)     

Variations in testicular androgen receptors and histology of the lamb testis from birth to puberty

Changes in testicular androgen receptor numbers were studied in lambs from 25 to 100 days of age. During this period, cytoplasmic receptors increased from 5 to 80 pmol/testis and nuclear receptors from 1 to 12 pmol/testis, while the total volume of Leydig cells increased 7-fold. The total number of Sertoli cells doubled between 25 and 40 days of age. From 40 days onward their number remained constant while their cellular and nuclear sizes increased by a factor of 3 and 1.5 respectively. Cytoplasmic receptor concentration was positively correlated with the number of Sertoli cells per section of seminiferous tubule, and negatively correlated with the number of germinal cells per cross section. One explanation for these results could be that Sertoli cells are the main androgen target cells in lamb seminiferous tubules.     

Morphometric studies on hamster testes in gonadally active and inactive states: light microscope findings

This study provides quantitative information on the testes of seasonally breeding golden hamsters during active and regressed states of gonadal activity. Seminiferous tubules occupied 92.5% of testis volume in adult gonadally active animals. Leydig cells constituted 1.4% of the testicular volume. The mean volume of an individual Leydig cell was 1092 microns 3, and each testis contained about 25.4 million Leydig cells. The volume of an average Sertoli cell nucleus during stage VII-VIII of the cycle was 502 microns 3. A gram of hamster testis during the active state of gonadal activity contained 44.5 million Sertoli cells, and the entire testis contained approximately 73.8 million Sertoli cells. Testes of the hamsters exposed to short photoperiods for 12-13 wk displayed a 90% reduction in testis volume that was associated with a decrease in the volume of seminiferous tubules (90.8% reduction), tubular lumena (98.8%), interstitium (72.7%), Leydig cell compartment (79.3%), individual Leydig cells (69.7%), Leydig cell nuclei (50.0%), blood vessels (85.5%), macrophages (68.9%), and Sertoli cell nuclei (34.1%). The diameter (61.1%) and the length (36.8%) of the seminiferous tubules were also decreased. Although the number of Leydig cells per testis was significantly lower (p less than 0.02) after short-photoperiod exposure, the number of Sertoli cells per testis remained unchanged. The individual Sertoli cell in gonadally active hamsters accommodated, on the average, 2.27 pre-leptotene spermatocytes, 2.46 pachytene spermatocytes, and 8.17 round spermatids; the corresponding numbers in the regressed testes were 0.96, 0.20, and 0.04, respectively. The striking differences in the testicular structure between the active and regressed states of gonadal activity follow photoperiod-induced changes in endocrine function and suggest that the golden hamster may be used as a model to study structure-function relationships in the testis.     

Localization of epidermal growth factor (EGF) and its receptor (EGFR) during postnatal testis development in the alpaca (Lama pacos)

The objective of the present studies was to determine the localization of epidermal growth factor (EGF) and the epidermal growth factor receptor (EGFR) in testicular tissue collected from male alpacas at 12 and 24 months of age. In the testes of 12-month-old alpacas, positive staining for EGF was not detected. EGFR was localized to Leydig cells within the 12-month-old alpaca testis, but staining was absent within seminiferous tubules. At 24 months of age, EGF was localized to Leydig cells, peritubular myoid cells, Sertoli cells and germ cells of the alpaca testis, with a preferential adluminal compartment staining within the seminiferous tubules. EGFR was also localized to the Leydig cells, peritubular myoid cells, Sertoli cells and germ cells within the 24-month-old alpaca testis, but staining within the tubules was primarily within the basal compartment. Results indicate distinct temporal and spatial regulation of EGF and EGFR in the alpaca testis and support a potential role for EGF and its related ligands in alpaca testis development and spermatogenesis.     

Long-term biopermanence of ceramides,cholesteryl esters,and ether-linked triglycerides with very-long-chain PUFA in the cadmium-damaged testis

Cadmium is known to harm rat testis by causing the dose-dependent apoptotic or necrotic death of seminiferous epithelium cells. Here we investigated how this affects the lipids with long-chain (C₁₈–C₂₂) and very-long-chain (C₂₄–C₃₂) polyunsaturated fatty acids (VLCPUFA) typical of spermatogenic and Sertoli cells. A severe acute inflammatory reaction resulted from the massive necrotic death of these cells two days after a single high (4 mg/kg) dose of CdCl₂. This led to the conversion of most testicular glycerophospholipids to diradylglycerols (DRG) and free fatty acids (FFA) and of most sphingomyelins to ceramides (Cer). By day 30 the testis weight had decreased three-fold. The DRG and FFA had been metabolized but, unexpectedly, ceramides persisted. Also slow to disappear were VLCPUFA-containing triacylglycerols from former germ cells and ether-linked triglycerides and cholesteryl esters (CE) from former Sertoli cells. Similar results were observed 30 and 45 days after administering repeated small non pro-inflammatory CdCl₂ doses (1 mg/kg). At day 30 after both treatments, an amorphous material replaced the original seminiferous tubules and the interstitium was populated by macrophages. Species of CE and ether-linked triglycerides containing fatty acids other than VLCPUFA steadily accumulated in the irreversibly damaged testis, a manifestation of the activity of these cells. The long-term permanence of original VLCPUFA-containing neutral lipids, especially ceramides, indicates that these phagocytes were slow to clear out the acellular material contained in seminiferous tubules, pointing to a form of silent chronic inflammation as an additional outcome of the multifactorial commotion caused in the testis by experimentally administered cadmium.     

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.     

Morphologic study of the testes from spontaneous unilateral and bilateral abdominal cryptorchid boars

Macroscopical and histological characteristics were examined in both testes from three healthy boars, three boars with unilateral abdominal cryptorchidism on the right side, and three boars with bilateral abdominal cryptorchidism. Abdominal cryptorchidism, unilateral and bilateral, provoked a significant decrease of the weight and volume of the ectopic testes. The scrotal testis of the unilateral cryptorchid boars showed an increase in its volume and weight. Cryptorchidism also induced abnormalities in the histological structure of seminiferous tubules, lamina propria, and interstitial tissue of the abdominal testes. The number of seminiferous tubules decreased; the seminiferous epithelium was constituted by few spermatogonia with an atypical pattern and by abnormal Sertoli cells. The lamina propria showed a variable degree of thickening and collagenization. The interstitial tissue was very developed but displayed a decrease in the Leydig cell population. These abnormalities were more critical in bilateral cryptorchidism than in unilateral cryptorchidism. The scrotal testis of the unilateral cryptorchid boars showed normal appearance, but a decrease of the number of seminiferous tubules was observed. Moreover, the seminiferous tubules showed impaired spermatid maturation. The alterations observed in the abdominal testes of the unilateral and bilateral cryptorchid boars were attributed to defective proliferation and differentiation of Sertoli cells and Leydig cells. The anomalies in the scrotal testis of the unilateral cryptorchid boars were due to disturbances in the Sertoli cell activity.     

Expression of the androgen receptor in the testis of mice with a Sertoli cell specific knock-out of the connexin 43 gene (SCCx43KO−/−)

Gap junctions are intercellular channels that connect the cytoplasm of adjacent cells, allowing the passage of small molecules (<1 kDa) and thereby the regulation of many different processes. In the male gonad, the most abundant protein that builds gap junctions is connexin 43 (Cx43, GJA1). Specific knock-out of Sertoli cells (SCCx43KO^?/?) results in an impaired spermatogenesis up to the Sertoli cell only syndrome. The aim of this study was to compare the testicular expression pattern of the androgen receptor (AR) in wild type (WT) and SCCx43KO^?/? mice. In both WT and SCCx43KO^?/? testes, the AR staining was restricted to the nuclei of Sertoli, Leydig, and peritubular cells. However, the staining intensity varied between control and mutant mice. In the latter, the AR expression depended on the level of the seminiferous tubule impairment. In tubules with qualitatively normal spermatogenesis, the AR protein expression was similar to that observed in the testes of WT mice. Conversely, seminiferous tubules with an arrest of spermatogenesis at the level of spermatogonial or spermatocyte phase expressed the AR at a lower intensity. In Sertoli cell only tubules (no germ cells in the tubules), the AR immunoreaction was mainly weak or undetectable. Moreover, AR staining was lower in Sertoli and Leydig cells (p < 0.001 and p < 0.05, respectively) of SCCx43KO^?/? mice compared to WT mice, as revealed by a semiquantitative analysis. In conclusion, the deletion of Cx43 leads to a partial disruption of the AR signaling pathway, indicating a possible reason for the observed impaired spermatogenesis.     

Effects of imidacloprid-contaminated feed exposure on spermatogenic cells and Leydig cells in testes of adult male rabbits (Oryctolagus cuniculus)

This research was undertaken to assess the results of repeated exposure to the insecticide; imidacloprid (IMI)-contaminated feed on testicular tissue, spermatogenic cell population, Leydig cell number, and sperm morphology in adult male rabbits (n = 24). The treatment groups received IMI (Bildor® 100 mg/L water spray on green grass)-contaminated green grass without wash (n = 8, not-washed-feed rabbit group) and after wash (n = 8, washed-feed rabbit group) once daily for two weeks on an alternate day basis. The rest of the rabbits, as control, received a normal pesticide-free standard feed. During the exposure time, there was no evident toxic symptom found on regular monitoring of IMI-treated rabbits. Histopathologically, the thickness of tunica albuginea of testes reduced significantly with loosely arranged connective tissues in IMI-treated rabbits. Within the testes, the bizarre-shaped seminiferous tubules were seen with increased lumen diameter in IMI-treated rabbits. The spermatogenic cells were disorganized and detached from the basement membrane in seminiferous tubules of IMI-exposed testes of rabbits. The spermatogenic cell population decreased significantly (P < 0.05) in IMI-treated rabbits compared to control rabbits. Leydig cell number decreased significantly (P < 0.05) in IMI-treated rabbits. A high percentage of morphologically abnormal spermatozoa was seen in IMI-treated rabbits. The degree of the histopathological changes was more prominent in the testes of IMI-exposed not-washed-feed rabbits. The results showed that insecticide-IMI has toxicological effects on testicular tissues, mainly spermatogenic and Leydig cell population of adult rabbits which may cause infertility.A short running title: Effect of imidacloprid on testicular tissue of rabbits.     

Analyse morphométrique semi quantitative de l’histologie testiculaire au cours du vieillissement

Testicular aging is usually studied using sperm and quantitative hormone analysis. Testicular samples are obviously difficult to obtain from a control aging population. Body donations from the Anatomy Department of the Saint-Peres University provided access to testicular samples from deceased men between the ages of 53 to 102 years. We present the first results of a semiquantitative histological morphometric study of testicular aging. We studied a series of 39 subjects. After removal of the sample within the first 24 hours, several investigations were conducted. Macroscopic examination (volume, weight) was followed by histological examination and computer-assisted morphometric analysis: N.I.H images based on the following parameters: (i) transverse sections of the seminiferous tubules (total surface, thickness of the basal membrane, and nuclear density of Sertoli cells, spermatogonia, spermatocytes and spermatozoids; (ii) histological sections were studied for interstitial tissue, number of clusters and the surface occupied by Leydig cells (percentage per parenchyma area), their appearance, size and nuclear density were determined; (iii) this study was completed by visual count of the various cell types in the seminiferous epithelium. The results obtained on a series of 39 subjects aged from 53 to 102 showed various alterations, such as thickening of the tunica albuginea and basal membrane and intertubule hyalinization. The most frequent histological pattern of the aging testis is a mosaic of various seminiferous tubule lesions varying from tubules with complete although reduced spermatogenesis to entirely sclerosed tubules. Individual variations are extremely marked with major alterations of spermatogenesis as early as 60 years old, with atrophied Leydig cells and, on the contrary, preserved spermatogenesis until the age of 95 years.     

Immunocytochemical localization of 17 beta-hydroxysteroid dehydrogenase in porcine testis

The immunocytochemical localization of 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) in porcine testes was examined by applying an indirect-immunofluorescence method using an antiporcine testicular 17 beta-HSD antibody. Only the Leydig cells located in the interstitial tissue exhibited a positive immunoreaction for 17 beta-HSD: the germ cells and Sertoli cells located in the seminiferous tubules were entirely negative. These results suggest that, in porcine testis, the biosynthesis of testicular testosterone, the final step of which is the conversion of androstenedione to testosterone, takes place in the Leydig cells.     

Immunohistochemical Localization of Mitochondrial Fatty Acid ��-Oxidation Enzymes in Rat Testis

The testis consists of two types of tissues, the interstitial tissue and the seminiferous tubule, which have different functions and are assumed to have different nutritional metabolism. The localization of enzymes of the mitochondrial fatty acid β-oxidation system in the testis was investigated to obtain a better understanding of nutrient metabolism in the testis. Adult rat testis tissues were subjected to immunoblot analysis for quantitation of the amounts of enzyme proteins, to DNA microarray analysis for gene expression, and to immunofluorescence and immunoelectron microscopy for localization. Quantitative analysis by immunoblot and DNA microarray revealed that enzymes occur abundantly in Leydig cells in the interstitial tissue but much less so in the seminiferous tubules. Immunohistochemistry revealed that Leydig cells in the interstitial tissue and Sertoli cells in the seminiferous tubules contain a full set of mitochondrial fatty acid β-oxidation enzymes in relatively plentiful amounts among the cells in the testis, but that this is not so in spermatogenic cells. This characteristic localization of the mitochondrial fatty acid β-oxidation system in the testis needs further elucidation in terms of a possible role for it in the nutritional metabolism of spermatogenesis. (J Histochem Cytochem 58:195–206, 2010)     

Immunolocalization of cytochrome P450 aromatase in rat testis during postnatal development

Aromatization of androgens into estrogens in rat testis is catalyzed by the microsomal enzyme cytochrome P450 aromatase. In this work, aromatase cellular site was investigated in prepuberal, peripuberal and postpuberal testis, from 10-, 21- and 60-day-old rats respectively. Paraffin-embedded testis sections were processed for P450arom immunostaining using a rabbit polyclonal antiserum generated against purified human placental cytochrome P450 aromatase. Next, biotinylated anti-rabbit IgG was applied, followed by ABC/HRP/complex amplification with diaminobenzidine as chromogen. Prepuberal testis sections showed a strong immunoreactivity of aromatase in Sertoli cell cytoplasm while interstitial cells were immunonegative. In peripuberal testis sections, cytoplasmic immunoreaction was weak in Sertoli cells, but it was strong in spermatocytes and sporadic in Leydig cells. Postpuberal testis sections displayed a moderate aromatase immunoexpression in spermatocytes while a strong immunostaining was observed in round and elongated spermatids, as well as in Leydig cells. These results indicate a different age-dependence of aromatase localization in rat testicular cells during gonadal development. In particular, inside the seminiferous tubules, the aromatization site moves from Sertoli cells to late germ cells, suggesting a proliferative role of aromatase in prepuberal testis and its subsequent involvement in meiotic and post-meiotic germ cell maturation.     

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.     

Gonadal dysgenesis induced by prenatal exposure to ethinyl estradiol in mice

Daily oral administration of ethinyl estradiol (0.02, 0.2, or 2.0 mg/kg of body weight) to pregnant Jc1:ICR mice resulted in ovotestis and intra-abdominal testis with persistent Müllerian duct and Wolffian duct in male fetuses and ovarian hypoplasia in female fetuses when it was given from day 11 through day 17 of gestation (before gonadal differentiation in the fetus). The ovotestis consisted of testicular and ovarian portions. In the testicular portion, a few solid seminiferous tubules containing spermatogonia, some with pachytene nuclei with Sertoli cells and compact interstitial tissue including Leydig cells, were seen. In the ovarian portion, pachytene nuclei were seen. The intra-abdominal testis was smaller and contained more spermatogonia per tubule in cross section than the control testis. These findings suggest that in male fetuses ethinyl estradiol affects Sertoli cell differentiation resulting in suppression of Müllerian inhibiting factor. On the other hand, in the ovarian hypoplasia, the primordial follicles and follicular cells in a primordial follicle were significantly decreased in number, and the number of the degenerated primordial follicles was significantly increased. It seems likely that ethinyl estradiol affects the intimate contact between follicular cells and oocytes to cause degeneration of primordial follicles.     

The seasonal breeding hamster as a model to study structure-function relationships in the testis

The present study was undertaken to document morphological changes in the testis of the seasonally breeding golden hamster, an animal model which has been studied extensively from an endocrine standpoint but for which morphological data is inadequate. Germ cells, Sertoli cells and Leydig cells were studied during active and regressed state of gonadal activity by exposing the animals to long (16L:8D) and short photoperiods (6L:18D), respectively. Testis of the hamster exposed to short photoperiods displayed more than a ten-fold reduction in weight and decreased seminiferous tubule diameter. The seminiferous tubules contained primarily Sertoli cell and spermatogonia but also occasional spermatocytes and round spermatids. Leydig cells were decreased in size, a change which appeared to be primarily due to a decrease in cytoplasmic volume. The Leydig cell endoplasmic reticulum which was atypically saccular displayed both rough and smooth components and was decreased during short photoperiods. Mitochondria generally appeared larger and showed considerable structural heterogeneity. Short photoperiod-induced changes in the Sertoli cells included a marked reduction in cell height and an apparent reduction in cell volume, absence of lateral processes, presence of small, almost spheroidal nuclei with inconspicuous nucleoli, an increase in the amount of lipid and decreases in the amount of smooth endoplasmic reticulum and glycogen. The striking differences in the testicular structure between the active and regressed state of gonadal activity follows photoperiod-induced changes in endocrine parameters and suggests that the hamster would be an ideal model to study structure-function relationships in the testis, and especially those related to the Sertoli cell.     

Effect of ethinyl estradiol on the differentiation of mouse fetal testis

In an evaluation of the effect of ethinyl estradiol (EE) on the differentiation of fetal mouse testes, the ratio of the seminiferous tubular region to the testicular tissue region, the ratio of Sertoli cells to gonocytes in tubule cross sections, and the size of Leydig cells were determined by the Texture Analyse System (T.A.S., Leitz) in histological preparations of the testes. The testes were those of fetuses taken from dams given orally 0, 0.02, 0.2 or 2.0 mg/kg of body weight of EE in olive oil from day 11 through day 17 of gestation and killed at term. From experimental and the control testes, five sections were taken at 40-micron intervals. The areas of the seminiferous tubular region and the testicular region were determined and the Sertoli cells and gonocytes in tubule cross section were counted in each of the five sections. The diameters of 100 Leydig cells selected at random were averaged. These data were analyzed by Student's t test. The seminiferous tubular region was significantly increased in the testes treated with 0.02 mg/kg of EE and significantly decreased in those treated with 0.2 mg/kg of EE. The number of gonocytes per tubule cross section was significantly increased in the testes treated with 0.02 or 2.0 mg/kg of EE. The number of Sertoli cells per tubule cross section and the number of Sertoli cells per gonocyte were significantly decreased in the experimental testes. The size of the Leydig cells was significantly decreased in the testes treated with 0.2 mg/kg of EE. These findings suggest that prenatal exposure to EE before testicular differentiation affects tubular formation, the proliferation of fetal Sertoli cells, and Leydig cell differentiation, resulting in disturbances of spermatogenesis.     

Morphological findings in cryptorchism in the adult male

Cryptorchidism, the most common endocrine disturbance in the newborn, is still present in 0.3% of all postpubertal men as monolateral or bilateral condition. The undescended testis, in postpubertal age, is permanently damaged, so about 80% of cryptorchids are subfertile or definitively sterile. In the present study we relate our observations on structure and ultrastructure of testicular biopsies obtained from 29 cryptorchid men aged from 16 to 64. The individual pattern of morphological alterations is closely related to age and position of undescended testis. The following aspects are recognizable in cryptorchid testis: 1) seminiferous tubules reduced in size and irregular in shape; 2) tubular lumen occluded; 3) reduced germ cell population; 4) altered stages of spermatogenesis; 5) increased thickness of spermatogonia layer; 6) vacuolization of germ cells; 7) polynucleated germ cells; 8) acrosomal deformities; 9) delivery of immature germ cells; 10) Sertolisation of the seminiferous tubule; 11) immature Sertoli cells; 12) multilayered and thickened basement lamina; 13) peritubular fibrosis; 14) vascular fibrosis; 15) vacuolisation of Leydig cells; 16) interstitial mastocytosis. The findings present a mosaic of the morphological events, that are characteristic not only of the undescended testis but also of numerous testicular pathologies as well as of other conditions as prolonged hyperthermia, experimental ischaemia and senescence.