C.M. Knell scite author profile

Five-day-old male rats received a single treatment of ethane dimethanesulphonate (EDS), and the response of the testis on days 6-10 and 21 was examined by light microscopy and morphometry, supplemented by measurement of peripheral testosterone levels. One day after treatment, foetal Leydig cells degenerated, showing fragmentation, condensation and nuclear pyknosis. Macrophages phagocytosed the foetal leydig cells resulting in their disappearance by day 7. Destruction of foetal Leydig cells was followed by an arrest of testicular growth in comparison to testes of intact age-matched control rats. In testes of EDS-treated rats, gonocytes and spermatogonia also degenerated, forming pyknotic bodies within the seminiferous cords. In contrast, interstitial fibroblasts and mesenchymal cells showed proliferative activity, which on days 4 and 5 after treatment resulted in peritubular hyperplasia surrounding each seminiferous cord. Thereafter, on day 21 after EDS administration, the previously depressed serum testosterone levels became markedly elevated coincident with the development of many immature-type Leydig cells, of which the total volume per testis was similar to that of Leydig cells in control testes, despite a four- to five-fold difference in testicular volumes. The results indicate that, although EDS destroys the foetal Leydig cells and impairs spermatogenesis, the interstitial tissue exhibits increased cell growth. The latter probably occurs in response to altered gonadotrophic stimulation and/or disturbances in the interaction between the seminiferous cords and the interstitial tissue.

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Ultrastructural analysis of the effect of ethane dimethanesulphonate on the testis of the rat, guinea pig, hamster and mouse

Kerr

Knell

Abbott

et al. 1987

Cell Tissue Res.

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Effect of unilateral cryptorchidism on the intertubular tissue of the adult rat testis: evidence for intracellular changes within the Leydig cells

et al. 1988

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Adult male rats were made unilaterally cryptorchid for 1, 2 or 4 weeks, and the morphological response of the Leydig cells was then studied using morphometric assessment of total Leydig cell volume and number per testis in abdominal and scrotal testes. Serum hormone levels were measured and the steroidogenic properties of isolated Leydig cells were evaluated by in-vitro stimulation with hCG and interstitial fluid (IF) obtained from normal rat testes. Total Leydig cell volume and number per testis were not altered in abdominal vs scrotal testes, although the volume of the abdominal testis was 46, 29 and 21%, respectively, of the volume of the contralateral scrotal testis after 1, 2 and 4 weeks. This reduction was accompanied by significant (P less than 0.05) elevation of the serum levels of FSH and LH, although serum testosterone levels were unchanged from the normal range. Despite the lack of quantitative alterations in Leydig cell morphology, hCG- and IF-stimulated testosterone production was significantly (P less than 0.01) greater by abdominal Leydig cells when compared with scrotal Leydig cells derived from the same animals. Ultrastructural examination of Leydig cells in situ suggested an increase in volumetric density of mitochondria in abdominal Leydig cells. Together with the enhanced steroidogenic responses of these cells, these findings suggest that disruption of spermatogenesis in the cryptorchid testis is accompanied by intracellular activation of Leydig cells. Since these effects were not exhibited by Leydig cells from the scrotal testis it is concluded that local factors within the cryptorchid testis are responsible, at least in part, for regulation of Leydig cell activity.

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The fate of fetal Leydig cells during the development of the fetal and postnatal rat testis

Kerr

Knell

1988

176

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The ultrastructure and developmental fate of the fetal generation of Leydig cells of the rat testis was studied from the 17th day of fetal life up to 100 days after birth. The number of fetal Leydig cells per testis was determined by light microscopic morphometric analysis of semithin plastic sections. In fetal testes (days 17–22 postconception), Leydig cells exhibited a characteristic ultrastructure, containing smooth endoplasmic reticulum, many lipid inclusions and glycogen. Testes of 17-day-old fetuses contained about 25 × 10(3) fetal Leydig cells, rapidly increasing to 90 × 10(3) per testis in 21-day-old fetuses. After birth, fetal Leydig cells per testis remained relatively constant up to 2 weeks (80–90 × 10(3) per testis) and were identified by light and electron microscopy which showed their numerous lipid inclusions, their tendency for clustering and their association with interstitial tissue fibroblasts which partly encapsulated the fetal Leydig cells. From 21–100 days after birth, fetal Leydig cell numbers were quite variable with a mean of 45–60 × 10(3) per testis. These results are the first to show that the fetal generation of Leydig cells persist in the adult testis and do not undergo early postnatal degeneration or dedifferentiation into other interstitial cells. The simultaneous occurrence of the fetal Leydig cells and the adult population of Leydig cells indicates that these cells are distinct cell generations which are developmentally unrelated.

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Ultrastructure and possible function of giant crystalloids in the Sertoli cell of the juvenile and adult koala (Phascolarctos cinereus)

1987

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Sertoli cells of the juvenile and adult koala testis exhibit a unique morphology due to their large nuclei and in particular, a remarkable abundance of large cytoplasmic crystalloid inclusions. Numerous crystalloid subunits in immature Sertoli cells are aggregated into distinct clusters where by assembly and union, they form large slender crystalloids consisting of an ordered substructure of filaments and tubules. Adult Sertoli cells contain large numbers of basally-positioned crystalloids up to 60 micron in length and the observations suggest a possible mechanism for their growth from collections of tubules assembled together within membrane-bound inclusions. The trunk and adluminal cytoplasm of the adult Sertoli cell also contains crystalloids, usually single, positioned between germ cells or their excess residual cytoplasm. Following sperm release, crystalloids are not shed from the seminiferous epithelium but are retained within the apical Sertoli cell cytoplasm. Although their subsequent fate could not be determined crystalloids did not show evidence of breakdown or phagocytosis by the Sertoli cell, suggesting that they may be reutilized and possibly function to stabilize the association between Sertoli cell cytoplasm and the developing germ cells.

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C.M. Knell

Stimulation of interstitial cell growth after selective destruction of foetal Leydig cells in the testis of postnatal rats

Ultrastructural analysis of the effect of ethane dimethanesulphonate on the testis of the rat, guinea pig, hamster and mouse

Effect of unilateral cryptorchidism on the intertubular tissue of the adult rat testis: evidence for intracellular changes within the Leydig cells

The fate of fetal Leydig cells during the development of the fetal and postnatal rat testis

Ultrastructure and possible function of giant crystalloids in the Sertoli cell of the juvenile and adult koala (Phascolarctos cinereus)

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