Age-related changes in the ultrastructure of the resting follicle pool in human ovaries.

Age-related decline of fertility in women is the result of the decline in both quantity and quality of the resting ovarian follicle pool. The aim of the present study was to determine whether the decline of follicle quality with age is reflected by ultrastructural changes in the resting follicle pool. Ovarian biopsy specimens were obtained by laparoscopy from seven healthy women aged 25-32 yr (young group) and from 11 healthy women aged 38-45 yr (advanced-age group). A total of 182 resting follicles from the young group were compared with 81 resting follicles from the advanced-age group for signs of age-related changes by transmission-electron microscopy. The ooplasmic fraction of vacuoles was increased (P = 0.02), and the fraction of mitochondria decreased (P = 0.005), in the advanced-age group. Also, the density of the mitochondrial matrix (P < 0.001) and the frequency of dilated smooth endoplasmic reticulum (SER; P = 0.001) and Golgi complex (P = 0.02) were increased with age. The frequencies of ruptured mitochondrial membranes (P = 0.001) and dilated SER (P = 0.003) were increased with age in the granulosa cells. Overall follicle-quality scores, which should reflect atretic changes, were not different for the young and advanced-age groups. In conclusion, in resting follicles, the morphological changes with age are different from the changes seen in quality decline by atresia. The morphological changes with age specifically involved the mitochondria, the SER, and the Golgi complex, and they may be the cause of atresia on initiation of follicular growth because of the substantial increase in metabolic requirements.

Ultrastructure of the resting ovarian follicle pool in healthy young women.

In humans, follicle quantity and quality decline with age by atresia. In the present study we aimed to describe the quality of the follicle pool through an ultrastructural investigation of resting follicles in young healthy women. From ovarian biopsies of 7 women aged 25-32 yr, 182 small follicles were morphometrically assessed for various signs of atresia. Morphometric variables were analyzed by principal components analysis (PCA) to demonstrate correlations between variables and to construct an objective follicle score. One third of small follicles consisted of primordial follicles. Nucleus:cell ratios remained constant for oocytes and granulosa cells from primordial to primary follicles, suggesting that follicles up to primary stages belong to the resting pool. The distribution of follicle quality scores as derived from PCA showed that most follicles were of good quality and with little signs of atresia. Atresia in resting follicles appears to be a necrotic process, starting in the ooplasma. Early atresia was characterized by increasing numbers of multivesicular bodies and lipid droplets, dilation of smooth endoplasmic reticulum and Golgi, and irregular mitochondria with changed matrix density. In progressive atresia mitochondrial membranes ruptured, oocyte nuclear membranes were indented or ruptured, and the ooplasma showed extensive vacuolarization. The early involvement of mitochondria in this process suggests that damage is induced by oxygen radicals. PCA follicle quality scores can be reliably approximated using a reduced number of seven morphometric variables, which were selected by stepwise forward analysis. The algorithm to calculate these follicle scores is presented.

Effects of exercise on the diameter of collagen fibrils in the central core and periphery of the superficial digital flexor tendon in foals.

OBJECTIVE: To determine the effects of exercise on collagen fibril diameter distribution in the superficial digital flexor tendon (SDFT) of foals. ANIMALS: 43 Dutch Warmblood foals. PROCEDURE: From 1 week until 5 months of age, group-1 foals (n = 14) were housed in stalls and not exercised, group-2 foals (14) were housed in stalls but were exercised, and group-3 foals (15) were maintained at pasture. Biopsy specimens were collected from the SDFT at 2 months, and 8 foals in each group were euthanatized at 5 months. Remaining foals were housed together in a loose stall and paddock until euthanatized at 11 months. After euthanasia, specimens were collected from the SDFT; all specimens were analyzed by use of electron microscopy. Collagen fibrillar index (CFI), mass average diameter (MAvD), and area dependent diameter (ADD) were compared among groups. RESULTS: Exercise-related differences in fibril distribution were not detected among groups at 2 months. At 5 months, ADD in peripheral specimens was significantly greater in group 1 than group 3. At 11 months, MAvD in core specimens was significantly less in group 3, compared with the other groups. However, in peripheral specimens, MAvD was significantly less in groups 2 and 3. CONCLUSIONS AND CLINICAL RELEVANCE: Collagen fibril restructuring in the SDFT of foals is in part an exercise-driven process. Withholding exercise may cause a delay in fibril development that can be partially overcome by increasing exercise at a later age. Exercise type may also affect remodeling of the SDFT in foals.

Ultrastructure and viability of isolated bovine preantral follicles.

Techniques for the isolation of ovarian follicles and maturation of oocytes in vitro have enormous reproductive potential. Preservation of normal tissue function is vital. This study emphasizes the ultrastructure and viability of mechanically isolated bovine small (diameter 40-100 microm) preantral and large (140-450 microm) preantral/early antral follicles. Viability studies were performed for small preantral follicles. The presence of esterase activity, active mitochondria and dead cells served as parameters of oocyte and granulosa cell viability. After 1 day of culture, all follicles had a viable granulosa, displaying active mitochondria and/or esterase activity in all their cells, although a few (generally <5) dead granulosa cells were present in 17% of the follicles. Of the oocytes, 35 and 80% had esterase activity and active mitochondria respectively, whereas 8% appeared dead. The percentages of oocytes showing esterase activity and active mitochondria decreased during culture, whereas the percentage of follicles with dead oocytes or dead granulosa cells strongly increased. More than 90% of the isolated small follicles showed a poor ultrastructure, especially of their oocyte, which points to a negative selective isolation of poor follicles in the present study and/or an isolation procedure-induced damage of follicles. With respect to large preantral follicles, 42% of those distributed in the cortex and 64% of those isolated and cultured for 1 day had a poor ultrastructure. In contrast with the small ones, the percentage of ultrastructurally poor large preantral follicles had decreased to 27% after 5 days of culture, possibly due to better isolation and culture conditions. It is recommended to use ultrastructural and/or viability cell markers for in-vitro grown follicles to evaluate their quality, and particularly that of their oocytes.

Survival and proliferation of rat gonocytes in vitro.

Quiescent gonocytes were isolated from fetal testes of rat 18-day post coitum and cultured alone or on monolayers of somatic cells from different origins. The gonocytes specifically adhered to Sertoli cells, isolated from 21 to 23-day-old rat testes; this adherence was necessary for their survival in vitro. Addition of follicle-stimulating hormone and testosterone to these cultures did not increase the viability of the gonocytes. Serum was found to be deleterious to the germ cells. Electron-microscopic examination of Sertoli-cell-gonocyte co-cultures revealed the presence of numerous adhesion plaques between these cells, indicating that Sertoli cells and gonocytes are able to communicate in vitro. Gonocytes, in co-culture with Sertoli cells, were viable for at least 9 days. The gonocytes did not spontaneously resume proliferation. The simple culture system described in the present paper should be useful in studying the nature of the factors that are responsible for sending the quiescent gonocytes into the cell cycle and for stimulating the formation of A spermatogonia, a process characterizing the start of spermatogenesis.

Effect of pregnant mares' serum gonadotrophin on the micromorphology of antral follicles in heifers, with special reference to atypical granulosa cells.

Five Dutch-Friesian heifers were injected i.m. with 3000 iu pregnant mares' serum gonadotrophin (PMSG) on day 10 of the oestrous cycle, to study the effects on the number and micromorphological quality of antral follicles (> or = 0.3 mm in diameter). The ovaries were collected 48 h after PMSG injection. As well as the presence of mitotic figures and the absence of pyknotic nuclei in the granulosa, atypical granulosa cells were found in nonatretic follicles. These cells had an oblong nucleus and stained with toluidine blue. They were characterized by their dark cell matrix, and the presence of numerous free ribosomes and intermediate filaments of varying quantity. Atypical granulosa cells were micromorphologically similar to fibroblast-like cells in the theca. Their presence coincided with the occurrence of degenerative changes in the cytoplasm of nearby granulosa cells and they were more frequent in atretic follicles. The presence of atypical granulosa cells in follicles hitherto called nonatretic is therefore probably associated with the onset of follicular atresia. In the PMSG-treated heifers, the mean number of large (> or = 6.0 mm in diameter) antral follicles was greater than in the control group (18.4 +/- 4.0 versus 3.0 +/- 1.0), because of an increase in the number of large nonatretic follicles (11.8 +/- 4.4 versus 0.4 +/- 0.2). After hormone treatment, the mean number of medium-sized (3.0-5.9 mm) nonatretic follicles also increased (6.4 +/- 1.3 versus 1.8 +/- 1.0). PMSG did not change the mean number of nonatretic follicles < 3.0 mm or that of atretic follicles in the different size categories. However, when follicles hitherto called nonatretic, with atypical granulosa cells, were taken together with the group of atretic follicles, PMSG appeared to increase the mean number of large atretic follicles (13.6 +/- 2.4 versus 3.0 +/- 1.0). The mean number of medium-sized and large nonatretic follicles without atypical granulosa cells was markedly increased (3.8 +/- 1.0 versus 0.2 +/- 0.2 and 4.6 +/- 1.9 versus 0.0, respectively). The data demonstrate that PMSG stimulates the formation not only of nonatretic follicles > or = 3.0 mm, but also of atretic follicles > or = 6.0 mm.