Ovarian volume and antral follicle counts as indicators of menopausal status

OBJECTIVE

Recent studies suggest that ovarian volume and antral follicle numbers may be sensitive, specific, and early indicators of menopausal status. The accuracy of these markers, however, has not been compared directly to more traditional markers [age and follicle-stimulating hormone (FSH) levels]. Thus, the purpose of this study was to test whether ovarian volume and antral follicle counts are more sensitive and specific markers of menopausal status than age or FSH levels.

DESIGN

Premenopausal (n = 34) and postmenopausal (n = 25) women between 40 and 54 years old received a transvaginal ultrasound for determination of ovarian volume and antral follicle numbers, provided blood for measurement of FSH levels, and completed a questionnaire. FSH levels, age, ovarian volume, and antral follicle numbers were compared using t tests. Receiver operating characteristic curves were generated to evaluate the sensitivity and specificity of each marker.

RESULTS

Postmenopausal women had significantly higher FSH levels (p < or = 0.0001), smaller ovarian volumes (p < or = 0.002), and fewer antral follicles (p < or = 0.002) than premenopausal women. Ovarian volume and antral follicle numbers had similar sensitivity (27.3-100%) and specificity (3.4-92.9%) in indicating postmenopausal status as FSH levels and age.

CONCLUSION

These data suggest that ovarian volume and antral follicle numbers may be useful indicators of menopausal status.

Nerve growth factor is required for early follicular development in the mammalian ovary

Nerve growth factor (NGF) epitomizes a family of proteins known as the neurotrophins (NTs), which are required for the survival and differentiation of neurons within both the central and peripheral nervous system. Synthesis of NGF in tissues innervated by the peripheral nervous system is consistent with its function as a target-derived trophic factor. However, the presence of low- and high-affinity NGF receptors in the gonads suggests another function for the NTs within the reproductive endocrine system. We now report that NGF is required for the growth of primordial ovarian follicles, a process known to occur independently of pituitary gonadotropins. Both the NT receptor p75(NTR) and the NGF tyrosine kinase receptor trkA were found to be expressed in the ovaries of infantile normal mice and mice carrying a null mutation of the NGF gene. The ovaries from homozygote NGF-null (-/-) mutant animals, analyzed after completion of ovarian histogenesis, exhibited a markedly reduced population of primary and secondary follicles in the presence of normal serum gonadotropin levels, and an increased number of oocytes that failed to be incorporated into a follicular structure. Assessment of mitogenic activity using two complementary proliferation markers revealed a conspicuous reduction in somatic cell proliferation in the ovaries of NGF-deficient mice. These results suggest that the delay in follicular growth observed in NGF(-/-) mice may be related to the loss of a proliferative signal provided by NGF to the nonneural endocrine component of the ovary.

Effect of bcl-2 on the primordial follicle endowment in the mouse ovary

Little is known about the embryonic factors that regulate the size of the primordial follicle endowment at birth. A few studies suggest that members of the B-cell lymphoma/leukemia-2 (bcl-2) family of protooncogenes may be important determinants. Thus, the purpose of this study was to test whether bcl-2 regulates the size of the primordial follicle pool at birth. To test this hypothesis, three lines of transgenic mice (c-kit/bcl-2 mice) were generated that overexpress human bcl-2 in an effort to reduce prenatal oocyte loss. The overexpression was targeted to the ovary and appropriate embryonic time period with the use of a 4.8-kilobase c-kit promoter. This promoter provided two to three times more expression of bcl-2 in the ovaries with minimal or no overexpression in most nongonadal tissues. On Postnatal Days 8-60, ovaries were collected from homozygous c-kit/bcl-2 and nontransgenic littermates (controls) and processed for histological evaluation of follicle numbers. All lines of c-kit/bcl-2 mice were born with significantly more primordial follicles than control mice (P < or = 0.05). By Postnatal Days 30-60, however, there were no significant differences in follicle numbers between c-kit/bcl-2 and control mice. These results indicate that bcl-2 overexpression increases the number of primordial follicles at birth, but that the surfeit of primordial follicles is not maintained in postnatal life. These data suggest that it is possible that the ovary may contain a census mechanism by which excess numbers of primordial follicles at birth are detected and removed from the ovary by adulthood.

Gestational exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin induces developmental defects in the rat vagina

At puberty, female rats exposed in utero to 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD) exhibit a persistent thread of mesenchymal tissue surrounded by keratinized epithelium that partially occludes the vaginal opening. Our objective was to determine the earliest time during fetal development that morphological signs of this vaginal canal malformation could be detected and to obtain greater insight into mechanisms involved in this effect. Pregnant rats were administered a single dose of vehicle (control) or TCDD (1.0 microg/kg, po) on gestation day (GD) 15 and were sacrificed on GD 18, 19, 20, and 21 for histological evaluation of female. Gestational exposure to TCDD affected vaginal morphogenesis as early as GD 19, 4 days after exposure of pregnant dams. In exposed fetuses, the thickness of mesenchymal tissue between the caudal Mullerian ducts was increased, which resulted in a failure of the Mullerian ducts to fuse, a process normally completed prior to parturition. In addition, TCDD exposure appeared to inhibit the regression of Wolffian ducts. Thus, TCDD interferes with vaginal development by impairing regression of the Wolffian ducts, by increasing the size of interductal mesenchyme, and by preventing fusion of the Mullerian ducts. Taken together, these effects appear to cause the persistent vaginal thread defect observed in rats following in utero and lactational TCDD exposure.

Workshop to identify critical windows of exposure for children's health: reproductive health in children and adolescents work group summary

This work group report addresses the central question: What are the critical windows during development (preconception through puberty) when exposure to xenobiotics may have the greatest adverse impact on subsequent reproductive health? The reproductive system develops in stages, with sex-specific organogenesis occurring prenatally and further maturational events occurring in the perinatal period and at puberty. Complex endocrine signals as well as other regulatory factors (genetics, growth factors) are involved at all stages. Evidence from animal models and human studies indicates that many specific events can be perturbed by a variety of toxicants, with endocrine-mediated mechanisms being the more widely studied. Prioritized research needs include basic studies on the cellular-molecular and endocrine regulation of sexual differentiation and development; increased efforts regarding potential adverse effects on development in females, including breast development; expanded animal studies on different classes of chemicals, comparing responses during development (prenatal and postnatal) with responses in adults; and, more extensive explorations regarding the reproductive biology and toxicology of puberty in humans.

Ovarian volume and menopausal status

OBJECTIVE

The purposes of this study were to (1) examine whether ovarian volume differs by age and menopausal status in healthy women; (2) evaluate whether ovarian volume could be a sensitive and specific predictor of menopausal status; and (3) assess whether ovarian volume is affected by cigarette smoke, oral contraceptives (OCs), and hormone replacement therapy (HRT).

DESIGN

Each participant (527 women) completed an extensive in-home interview that assessed age, menopausal status, smoking history, OC use, and HRT use. Each participant also received a transvaginal ultrasound that measured ovarian volume. Geometric means for ovarian volume were compared between premenopausal and postmenopausal women using t tests. Tests for trends were conducted using linear regression analyses.

RESULTS

Ovarian volume declined with age (p < or = 0.0001) and also differed by menopausal status; postmenopausal women had smaller ovarian volumes than premenopausal women of the same age (p < or = 0.0001). Ovarian volume was not associated with smoking history or HRT use. However, it was significantly smaller in current users of OCs compared with past users of or those who never used OCs (p < or = 0.0001). Ovarian volume was a sensitive and specific predictor of postmenopausal status.

CONCLUSIONS

The data suggest that age, menopausal status, and OC use may be determinants of ovarian volume. They also suggest that ovarian volume may be useful for predicting menopausal status in women.

90-day feeding and one-generation reproduction study in Crl:CD BR rats with 17 beta-estradiol

Over the past several years, there has been increasing concern that chemicals and pesticides found in the environment may mimic endogenous estrogens, potentially producing adverse effects in wildlife and human populations. Because estrogenicity is one of the primary concerns, a 90-day/one-generation reproduction study with 17 beta-estradiol was designed to set dose levels for future multigenerational reproduction and combined chronic toxicity/oncogenicity studies. The purpose of these studies is to evaluate the significance of a range of responses as well as to provide benchmark data for a risk assessment for chemicals with estrogen-like activities. This 90-day/one-generation reproduction study was conducted in male and female Crl:CD BR rats using dietary concentrations of 0, 0.05, 2.5, 10, and 50 ppm 17 beta-estradiol. Endpoints were chosen in order to evaluate both subchronic and reproductive toxicity. In addition, several mechanistic/biochemical endpoints were evaluated for their usefulness in follow-up studies. In the P1 generation, dietary administration of 2.5, 10, and 50 ppm 17 beta-estradiol produced dose-dependent decreases in body weight, body weight gain, food consumption, and food efficiency. At 10 and 50 ppm 17 beta-estradiol, minimal to mild nonregenerative anemia, lymphopenia, decreased serum cholesterol (50 ppm only), and altered splenic lymphocyte subtypes were also observed in the P1 generation. Additionally, at these concentrations, there were changes in the weights of several organs. Evidence of ovarian malfunction, characterized by reduced numbers of corpora lutea and large antral follicles, was observed at 2.5 ppm 17 beta-estradiol and above. Other pathologic changes in males and females fed 10 and 50 ppm 17 beta-estradiol included centrilobular hepatocellular hypertrophy; diffuse hyperplasia of the pituitary gland; feminization of the male mammary glands; mammary gland hyperplasia in females; increased number of cystic follicles in the ovary; hypertrophy of the endometrium and endometrial glands in the uterus; degeneration of seminiferous epithelium; and atrophy of the testes and the accessory sex glands. In the reproduction portion of this study, rats fed 10 or 50 ppm 17 beta-estradiol did not produce litters. While there was no evidence that the 50 ppm treated rats mated, 33.3% of the rats fed 10 ppm mated but did not produce litters. No effects on mating and fertility indices were observed in rats fed 0.05 and 2.5 ppm 17 beta-estradiol. Pup weights at birth were statistically decreased relative to control in the groups fed 0.05 and 2.5 ppm 17 beta-estradiol. Weights of the rats in the 0.05 ppm group recovered by postnatal day 4 and remained similar to control throughout the remainder of the study. The mean gestation length of the 0.05 ppm group was slightly, albeit not statistically significantly, shorter (0.5 days) than that of the control group, which may have contributed to the decrease in birth weight of the 0.05 ppm group. In contrast, the weights of the F1 generation rats fed 2.5 ppm 17 beta-estradiol remained decreased relative to the control group throughout the study. Parental administration of 17 beta-estradiol did not alter anogenital distance in male or female pups. The onset of sexual maturation, as measured by day of preputial separation in males and day of vaginal opening in females, was delayed in male rats fed 2.5 ppm (by 8.2 days) and was hastened in female rats fed 0.05 and 2.5 ppm (by 1.6 and 8.8 days, respectively). The age at vaginal opening ranged from 26 to 37, 26 to 35, and 21 to 25 days for rats fed 0, 0.05, and 2.5 ppm 17 beta-estradiol, respectively. Hence, the range of age at vaginal opening was similar between the control and 0.05 ppm group. The organ weight and pathologic alterations observed in the adult F1 generation rats were similar to those observed in the P1 generation rats. (ABSTRACT TRUNCATED)

In utero and lactational exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) induces genital dysmorphogenesis in the female rat

Recently, Gray and Ostby (Toxicol. Appl. Pharmacol. 133, 285-294, 1995) reported that in utero and lactational TCDD exposure causes striking abnormalities in the rat female reproductive system, including reduced fecundity and vaginal threads. The mechanism by which TCDD induces such abnormalities is unknown. Thus, we sought to determine: (1) whether TCDD reduced fecundity by destroying ovarian follicles and (2) whether the vaginal threads resulted from a TCDD-induced developmental defect during embryogenesis or abnormal vaginal opening at puberty. Pregnant Holtzman rats were treated with 1.0 microgram TCDD/kg or vehicle by a single oral dose on gestation day (GD) 11, 15, or 18. Female offspring were monitored for vaginal opening and terminated on postnatal days 2, 21, and 42. The reproductive tract was removed and evaluated for structural abnormalities. The number of primordial follicles also was determined for each ovary. TCDD exposure on GD 11, 15, or 18 did not change the day of vaginal opening, affect ovarian morphology, or reduce the number of primordial follicles. However, this exposure induced the cleft clitoris and vaginal thread originally described by Gray and Ostby (1995) in approximately 55-96% and 36-44% of the litters in our study, respectively. Histologically the thread presented as a thick cord of mesenchyme surrounded by epithelial cells. This defect was clearly visible in histological sections at birth and was noted in the closed vaginas of prepubertal animals. These data suggest that in utero and lactational exposure to TCDD does not reduce the size of the primordial follicle pool; however, it induces developmental abnormalities in the vaginal canal.

Chronically elevated luteinizing hormone depletes primordial follicles in the mouse ovary

A few years before reproductive senescence, primordial follicles are depleted from the ovary at a dramatically accelerated rate. It has been proposed that this depletion is due to transient increases in gonadotropin levels. To test this hypothesis, we used mice that produce chronically elevated levels of serum LH via expression of an LHbeta subunit transgene. Ovaries were collected from transgenic and control mice, and complete serial sections were prepared for histological examination. Each section was scanned for morphological abnormalities, and every fifth section was sampled to estimate the total number of primordial, primary, and large preantral follicles per ovary. Until 3 wk postpartum, ovaries from transgenic and control mice were morphologically similar. By 5 wk, control ovaries contained many healthy primordial, primary, and large preantral follicles as well as atretic follicles. Transgenic ovaries contained blood-filled cysts, misshapen granulosa cells, luteinized cells, and approximately 45% fewer primordial follicles than controls. By 3 mo, transgenic ovaries had about 68% fewer primordial follicles and 53% fewer primary follicles than controls. These results suggest that, in addition to having profound effects on growing follicles, chronically elevated LH levels deplete the primordial follicle pool and thus may hasten the onset of reproductive senescence.

Elevated luteinizing hormone in prepubertal transgenic mice causes hyperandrogenemia, precocious puberty, and substantial ovarian pathology

In women, chronically elevated androgens have been associated with polycystic ovarian syndrome and infertility. Recently, we described transgenic mice with elevated serum LH secondary to targeted expression of a transgene encoding a chimeric LH beta-subunit. Mature transgenic females exhibit elevated androgens, anovulation, and a range of ovarian phenotypes including cysts, widespread luteinization, and tumors. In the present study we have examined serum levels of LH and testosterone and the concurrent development of the reproductive system in prepubertal mice. Serum LH in prepubertal females was elevated despite increased serum testosterone and estradiol, indicating a relative insensitivity to steroid negative feedback. Elevated serum LH and hyperandrogenemia resulted in accelerated vaginal opening and ovarian follicular development in transgenic females. Precocious antral follicle formation and conspicuous hypertrophy of the theca-interstitium preceded the development of large cysts with marked hemorrhage. Based on these studies we conclude that chronic prepubertal elevation of serum LH results in gonadotropin-dependent hyperandrogenemia, leading to abnormal sexual development and significant ovarian pathology.

Overview of ovarian follicular development: considerations for the toxicologist

Folliculogenesis is the lengthy process that results in the production of a species-specific, highly consistent number of follicles, which ripen during each reproductive cycle at precisely the appropriate time for ovulation. Certain features of folliculogenesis may have special implications for toxicologists studying effects of environmental mutagens on oocytes. Such features include the constantly changing geometry of the ovarian follicle, the great excess of developing follicles (most of which will degenerate rather than ovulate), the exponential nature of follicular growth, the acceleration of cell proliferation as follicular size increases, and the location of the principal feedback regulatory step at the penultimate stage of the developmental process. Because the ovary can respond quickly and completely to loss of homeostasis over the short term, damage from toxic insult may not be readily apparent. However, long-range fertility may nevertheless be impaired. The finite size of the follicular pool and the absence of feedback regulatory steps during the early stages of follicular growth render the ovary incapable of restoring the status quo among small and medium-sized follicles. This will eventually result in loss of fine control over the number of follicles that ripen and the regularity of the reproductive cycles and could reduce the overall duration of the fertile life span.

Patterns of ovarian cell proliferation in rats during the embryonic period and the first three weeks postpartum

The purpose of this study was to characterize the patterns of ovarian cell proliferation during the earliest stages of folliculogenesis, which occur in the embryonic period and the first weeks postpartum in rats. Rats were given continuous infusions of [3H]thymidine (3H-TdR) or bromodeoxyuridine (BrdU), and cells that were synthesizing DNA were visualized by autoradiography or immunohistochemistry. There were dramatic changes in the patterns of cell proliferation during the period studied. Mesenchymal cells proliferated extensively in the embryonic and neonatal ovary, but their growth fraction declined precipitously as follicles formed. Epithelial cells in the medulla of the ovary left the cell cycle at about embryonic Day 12, then resumed proliferation as soon as they were incorporated into follicles just after birth. Epithelial cells towards the cortex of the organ continued to proliferate until late in the embryonic period; they apparently became quiescent around the time of birth, and incorporation into follicles did not release them from their quiescent state. After the follicles had formed, patterns of cell proliferation continued to change. At 5 days postpartum, approximately 36% of the smallest follicles (1-8 granulosa cells in cross section) had at least 1 granulosa cell that was labeled following a 24-h infusion of 3H-TdR; by Day 20 only 14% of these follicles were labeled, and by Day 30 only 4.4% were labeled.

Interleukin-1 beta-converting enzyme-related proteases (IRPs) and mammalian cell death: dissociation of IRP-induced oligonucleosomal endonuclease activity from morphological apoptosis in granulosa cells of the ovarian follicle

The Caenorhabditis elegans death susceptibility gene, ced-3, has a number of homologs in vertebrate species, including interleukin-1 beta (IL-1 beta)-converting enzyme (ICE), Ich-1long, and CPP32. These genes, which encode a family of related proteases, have been shown to induce apoptosis when transfected into eukaryotic cells. However, it remains to be determined whether these proteases are involved in apoptotic cell death under physiological conditions. The purpose of these studies was to examine the role of ICE-related proteases (IRPs) in apoptosis using a physiologically relevant model system, the ovarian follicle. Somatic granulosa cells within ovarian follicles undergo apoptosis during follicular atresia, a process responsible for the depletion of greater than 95% of the follicles established in the postnatal ovary. To accomplish these studies, we cloned partial rat complementary DNAs encoding ICE, Ich-1, and CPP32 and used these complementary DNAs to examine the gonadotropin regulation of ICE, Ich-1, and CPP32 gene expression in the immature rat ovary. We also examined levels of ICE activity in healthy and atretic rat follicles by monitoring the conversion of exogenous pro-IL-1 beta to the active cytokine, and then evaluated the actions of recombinant IL-1 beta on apoptosis in follicles incubated in vitro. Finally, we tested the requirement for IRP activity in granulosa cell apoptosis and follicular atresia by incubating follicles without and with IRP inhibitors. Northern blot analysis of total RNA samples indicated that gonadotropin-promoted follicular survival was associated with reduced ovarian expression of messenger RNAs encoding Ich-1 and CPP32. In contrast, ICE messenger RNA levels were extremely low and were not affected by gonadotropin treatment. We were also unable to detect ICE activity in proteins extracted from either healthy or atretic rat follicles, collectively suggesting that ICE per se may not function in granulosa cell death. As another approach to determine whether ICE is involved in atresia, healthy antral follicles were isolated from ovaries of gonadotropin-primed immature rats and incubated for 24 h in the absence or presence of 100 ng/ml transforming growth factor-alpha (TGF alpha) without and with 100 ng/ml IL-1 beta. Granulosa cells within follicles incubated in medium alone exhibited extensive levels of apoptosis, and this onset of apoptosis was prevented by the inclusion of TGF alpha. Addition of IL-1 beta did not alter basal levels of apoptosis nor did the cytokine antagonize TGF-alpha-promoted follicle survival, providing additional evidence that ICE activity is not required for atresia to occur.(ABSTRACT TRUNCATED AT 400 WORDS)

Expression of neurotrophins and their receptors in the mammalian ovary is developmentally regulated: changes at the time of folliculogenesis

An emerging body of evidence suggests that neurotrophins not only promote neuronal survival and differentiation, but can also target nonneuronal cells for their actions. Neurotrophins initiate their biological effects by binding to cell membrane tyrosine kinase receptors of the trk protooncogene family. In addition, all neurotrophins recognize with similar affinity a different receptor molecule known as p75 nerve growth factor receptor (p75 NGFR) or low affinity NGFR, which appears to interact with the trk receptors to potentiate their response to neurotrophins. The mature mammalian ovary has been shown to synthesize several neurotrophins, including nerve growth factor (NGF), neurotrophin 3 (NT-3), and neurotrophin 4/5 (NT-4/5). The ovary also expresses some of the neurotrophin receptors, including p75 NGFR, trkB [the receptor for NT-4/5 and brain-derived neurotropic factor (BDNF)], and trkA (the NGF receptor). The present experiments were undertaken to determine whether neurotrophins and their receptors are expressed at the time of definitive ovarian histogenesis, and whether any of them exhibit a developmental pattern of expression related to the completion of folliculogenesis. Immunohistochemical identification of p75 NGFR in rat embryonic ovaries revealed that the receptor is predominantly expressed in mesenchymal cells. By gestational day 18, these cells have formed pockets that enclose presumptive pregranulosa cells and groups of oocytes into ovigerous cords. Immediately after birth, the ovigerous cords are subdivided, resulting in the abrupt formation of primordial follicles between 24-48 h after birth. Consistent with these observations, the p75 NGFR messenger RNA (mRNA) content increased after birth and remained elevated at the time of follicular assembly. The NGF and trkA genes showed a different pattern of expression, as the ovarian content of both NGF and trkA mRNA decreased at the time of folliculogenesis. In contrast to the drop in NGF and trkA mRNA expression, NT-4 mRNA levels increased at the time of follicular assembly, coinciding with the abrupt appearance of trkB mRNA. In situ hybridization showed that the increase in NT-4 mRNA expression occurred in a subpopulation of oocytes between 24-48 h after birth, and that the trkB gene became predominantly expressed at this time in epithelial pregranulosa cells. Substantial, but unchanging, levels of NT-3 mRNA and the mRNA encoding trkC, the preferred NT-3 receptor, were detected throughout the perinatal period examined. Very low and invariable levels of BDNF were also detected.(ABSTRACT TRUNCATED AT 400 WORDS)

Vasoactive intestinal peptide-mediated suppression of apoptosis in the ovary: potential mechanisms of action and evidence of a conserved antiatretogenic role through evolution

Vasoactive intestinal peptide (VIP)-containing nerve fibers are present in ovarian follicles at all stages of development, and VIP, acting primarily via the cAMP pathway, has been reported to modulate many aspects of granulosa cell function. Herein we examined the effects of VIP and its potential mechanisms of action on apoptosis in antral follicles isolated from ovaries of gonadotropin-primed immature rats and incubated in vitro under serum-free conditions. Additionally, the effects of VIP on apoptosis in isolated avian granulosa cells incubated in vitro were used as a comparative model system to determine whether the ability of VIP to modulate apoptosis in the ovary has been conserved through evolution. Genomic DNA extracted from incubated rat antral follicles exhibited extensive levels of internucleosomal DNA cleavage characteristic of cell death via apoptosis. Treatment of follicles with VIP (1-1000 nM) caused a dose-dependent reduction in the extent of apoptotic DNA breakdown, with a maximal effect achieved with 100 nM VIP. Provision of the adenylyl cyclase activator, forskolin (10 microM), mimicked the inhibitory effect of VIP on apoptosis and concomitantly increased intrafollicular cAMP accumulation, suggesting a role for the cAMP pathway in mediating the immediate actions of VIP on follicular cell survival. Moreover, treatment of rat antral follicles with insulin-like growth factor-binding protein 3 (3 micrograms/ml) partially antagonized the ability of VIP (100 nM) to suppress apoptosis, suggesting involvement of endogenous insulin-like growth factor I in mediating the downstream actions of VIP in incubated rat antral follicles. To further confirm that VIP and activation of the cAMP pathway prevented atresia, individual rat antral follicles incubated for 24 h in the absence or presence of VIP (100 nM) or forskolin (10 microM) were fixed, embedded, and sectioned for morphological analysis. Follicles fixed immediately after isolation from equine CG-primed rat ovaries were classified as morphologically healthy, consistent with the absence of biochemical evidence for apoptosis (e.g. oligonucleosomes) in this pool of follicles. Follicles incubated for 24 h in the absence of tropic support displayed extensive granulosa cell pyknosis and disorganization characteristic of follicles at a moderate stage of atresia. Inclusion of VIP or forskolin maintained the morphological health status of incubated follicles at that resembling healthy follicles fixed immediately after isolation from ovaries of equine CG-primed rats. Lastly, extensive levels of internucleosomal DNA cleavage were also detected in avian granulosa cells incubated for 6 h under serum-free conditions.(ABSTRACT TRUNCATED AT 400 WORDS)

Relationship between the supply of primordial follicles and the onset of follicular growth in rats

Primordial follicles enter a state of suspended animation when they are formed and constitute a "stockpile" from which all growing follicles are derived. The factors that release individual follicles from their quiescent state are unknown. Many investigators believe that the number of follicles in the primordial stockpile is a major factor in determining the rate at which follicles begin to grow. However, the relationship between the size of the stockpile of primordial follicles and the rate at which follicles move into the growing pool is unclear. The purpose of the present study was to attempt to clarify this relationship. The initial size of the stockpile of primordial follicles was experimentally reduced by exposing rats to various doses of busulphan (BUS) in utero. Ovaries were collected at various ages postpartum and prepared for histological analysis. A computer-controlled image analyzer was used to perform size/frequency analysis of oocytes in control and treated ovaries; onset of follicular growth was recognized by enlargement of the oocyte. There was an inverse correlation between the number of primordial follicles in the ovary at birth and the rate at which they moved into the growing pool. In rats most severely affected by the BUS, all of the remaining follicles began to grow very early in life. By the time these severely affected rats reached adulthood, the stockpile of primordial follicles had been nearly exhausted. Nevertheless, the number of large antral follicles remained at normal levels until the follicular reserve was completely depleted.(ABSTRACT TRUNCATED AT 250 WORDS)

Heterogeneity of cell populations that contribute to the formation of primordial follicles in rats

To study the events that lead to the formation of primordial follicles, pregnant rats were given continuous infusions of [3H]thymidine (3H-TdR) beginning on Days 14-19 of pregnancy (e14-e19) and continuing for 48-120 h. Ovaries from the pups were collected and plastic-embedded histological sections were prepared for autoradiography. The autoradiographs revealed that within the core of the developing ovary were a large number of cells that remained mitotically inactive (failed to incorporate label) from e14 through the day of birth. These unlabeled cells gave rise to the granulosa cells of the first follicles that formed, were located in the medulla of the ovary, and were the first to begin growth. The unlabeled cells did not appear to contribute to the formation of the follicles that formed later in the cortical region of the ovary. When 3H-TdR infusion was begun during late pregnancy, a small subset of the germ cells incorporated label, although the vast majority did not. The labeled germ cells are presumed to represent those that were lagging in their development (had not yet entered meiosis). After ovarian histogenesis was completed during the first week postpartum, the unlabeled ocytes were found concentrated in the core of the ovary, enclosed in the earliest growing follicles; labeled oocytes were found exclusively in the cortex of the ovary, within tiny, quiescent primordial follicles. These observations provide some empirical support for long-held, but heretofore untested, hypotheses concerning early folliculogenesis: that the first follicles that begin to grow are qualitatively different from the remaining follicles in the ovary and that primordial follicles begin to grow in the order in which they were first formed.

The changing architecture of the neonatal rat ovary during histogenesis

The purpose of this study was to describe the changing histological organization of the rat ovary during postpartum days one through three (p1-p3). A PC-based image-combining microscope system was used to reconstruct the ovary in three dimensions. On p1, cyclindrical pocket-like structures radiated from the core of the ovary that were open toward the surface epithelium. The walls of the pockets contained connective tissue cells and capillaries (stroma). By p2, these pockets had completely closed; each pocket enclosed a small nest of oocytes and a few presumptive granulosa cells. By p3, the pocket-like organization had disappeared. On p1, only one or two primordial follicle-like structures were observed in the core and toward the periphery of the ovary; most oocytes were not enclosed in follicles. By p3, very few naked oocytes remained; primordial follicles predominated in all the regions of the ovary and some of the follicles had multiple layers of granulosa cells. There were changes in location, area, and volume of the rete tubules during these postnatal days. The extraovarian rete was visible on all 3 days but changed its orientation relative to the ovary. The connecting rete was found beneath the epithelial layer of the ovary on all 3 days and showed dramatic increase in area on p2. The wide lumen of the intraovarian rete was in direct contact with some of the oocytes near by on all 3 days, but these "communication points" were most abundant on p2. Based on our observations of different cell-cell associations during this time period, we hypothesize (1) that the mesenchymal-presumptive granulosa cell association is essential for the completion of folliculogenesis, and (2) the rete ovarii may have an inductive role in follicle assembly. These observations suggest that the first 3 days postpartum are critically important for studying the heterogeneous cell interactions that lead to the assembly of primordial follicles. The regional differences in tissue organization during this formative period may have significant implications on later aspects of follicular development.

Correlation of age-associated increases in follicle stimulating hormone secretion with decreases in antral follicles: failure of progesterone-induced acyclicity to prevent these changes

It is well known that the number of follicles in the mammalian ovary decreases with age. In light of previous data from this laboratory showing age-related alterations in the secretion and production of follicle-stimulating hormone (FSH) in rats by 5-6 months of age, one objective of the present study was to determine if alterations in FSH secretion were accompanied by changes in the number of antral follicles. A second objective of this study was to determine whether or not interruption of cyclic activity by continuous progesterone (P) treatment could decelerate age-associated changes in FSH secretion possibly by retarding the depletion of follicles through ovulation. For this study, one group of 4-day cycling, 7-week-old rats received one empty Silastic implant while another group received 3-40 mm implants containing 30 mm crystalline P. Implants were replaced every 2 weeks until the animals were 5 months old. Progesterone-implanted rats were acyclic during treatment exhibiting predominantly leukocytic vaginal smears. Regular 4-day cycles resumed when P implants were withdrawn (rats approximately 5-6-months-old). A group of 2-3-month-old untreated rats were used for comparison. As expected from our previous results, serum FSH levels at 1600 h on estrus were significantly higher in 5-6-month-old rats receiving empty capsules than in younger rats. Serum FSH concentrations measured in P-treated rats at this time also were significantly higher than levels of this gonadotropin measured in younger rats. Ovaries of older control and P-treated rats contained significantly fewer medium and large antral follicles (greater than 250 microns) than the ovaries of younger rats despite the curtailment of estrous cyclicity and ovulation by continuous P treatment. Interestingly, P treatment prevented the age-associated decrease in thymus weight. Taken together, the present observations suggest that a decrease in the number of growing follicles may be a factor contributing to early age-related alterations in FSH secretion. Furthermore, the prevention (at least temporarily) of age-related thymic involution by P treatment may be indicative of an interrelationship between thymic and reproductive aging.

Theca cells may be present at the outset of follicular growth

Opinions differ concerning when theca cells arise during follicular growth. Theca cells cannot be distinguished from ovarian stroma cells on the basis of morphology alone. However, long-term continuous infusion of [3]thymidine (3H-TdR) thoroughly labels theca cells of large and medium-sized follicles whereas most stromal cells remain unlabeled. The objective of this study was to determine when, during the course of follicular development, labeled, squamous cells located just outside the follicular basement membrane (putative theca cells) first become apparent. Rats were given infusions of 3H-TdR for various periods of time. Autoradiographs were prepared from 2-microns-thick plastic sections of ovaries. Morphologically recognizable theca cells of large and medium-sized follicles were sharply delineated from surrounding stroma cells by their labeling pattern. Although unilaminar follicles lacked morphologically distinct theca layers, they all were closely enveloped by labeled cells just outside the basement membrane. Follicles with a few as 4-5 granulosa cells in cross section often had labeled cells on the convex surface of their basement membranes. These observations suggest the possibility that theca cells may already be present at the very outset of follicular growth.

Evidence for luteal cell hyperplasia during pregnancy

The pronounced increase in luteal size and weight that occurs during rat pregnancy has been largely attributed to luteal cell hypertrophy. It is generally believed that hyperplasia does not play a role in luteal growth, since it is thought that luteal cell division in vivo does not occur. Recent data suggest that this may not be the case. Thus, to determine whether luteal cell hyperplasia occurs during rat pregnancy, osmotic minipumps filled with 3H-thymidine were implanted in timed-pregnant rats on Day 6 or Day 11 of pregnancy. These pumps provided a continuous infusion of 10 microCi 3H-thymidine per hour for up to 7 days. Seven days later (Day 13 and Day 18 respectively), rats were killed, and the ovaries were removed and prepared for autoradiography. Labeled cells, which have the morphological characteristics of luteal cells, were clearly observed in autoradiographs of ovaries exposed to 3H-thymidine. The labeling index of these cells from ovaries exposed to 3H-thymidine on Days 6-13 of pregnancy was 6.0% and from ovaries exposed to 3H-thymidine on Days 11-18 of pregnancy was 1.2%. Whether the presence of labeled cells signifies proliferation of luteal cells or whether these cells are derived from another cell type that develops into cells morphologically similar to luteal cells is not known at present. However, regardless of origin, these data clearly demonstrate that the number of parenchymal cells in the corpus luteum does increase during pregnancy.

Measurement of peptide secretion and gene expression in the same cell

A combined reverse hemolytic plaque-in situ hybridization assay was developed to allow analysis of the relationship between peptide secretion and gene expression within individual cells. We used the pituitary lactotroph as a model system, but this strategy should be widely applicable. It can be used to test hypotheses regarding if and when peptide secretion and gene expression are coupled in any system in which antibodies to the secreted peptide and probes complementary to the mRNA are available. Using the mRNA hybridization signal to identify certain cell types, this method may also be useful in further studies on the biochemical mechanism of peptide secretion. In addition, questions regarding whether a cell known to secrete a given peptide contains other specific mRNAs and the relationship between these mRNAs and the secretion of the peptide can be studied using this strategy. We found striking heterogeneity among lactotrophs in both gene expression and PRL secretion and a lack of correlation of these parameters within individual lactotrophs under every treatment examined. We also present the first direct visualization and quantitation of the percentage of nonsecreting PRL mRNA-containing cells after estradiol treatment and in the presence or absence of the PRL secretagogue, TRH. Finally, we found that in ovariectomized rats, nonsecreting lactotrophs exhibited significantly higher levels of PRL mRNA than lactotrophs that were actively secreting PRL during the assay.

Granulosa cell proliferation in very small follicles of cycling rats studied by long-term continuous tritiated-thymidine infusion

It is generally believed that in adult rodents the vast majority of very small follicles (less than 20 granulosa cells in cross section) are not growing. However, the only data to support this assumption were collected with methods that may not be sufficiently sensitive to distinguish between nongrowing follicles and slowly growing follicles. In this study, the method of long-term continuous [3H]thymidine (3H-TdR) infusion was used to examine growth of very small follicles. Young adult rats were given continuous infusions of 3H-TdR for up to 7 days. Autoradiographs were prepared from 2-microns-thick sections of the ovaries. The proportion of labeled very small follicles increased as the duration of the infusion increased. After 7 days of continuous 3H-TdR infusion, 37% of follicles with 4 or fewer granulosa cells had at least one labeled granulosa cell, as did 68% of follicles with 5 8 granulosa cells, 86% of follicles with 9 12 granulosa cells, and 100% of follicles with 13 or more granulosa cells. The number of labeled cells per labeled follicle (the labeling index) also increased with increasing infusion time. However, few follicles had labeling indices of 100%, even after 7 days of continuous 3H-TdR infusion. These results suggest that a substantial fraction of very small follicles is growing in adult cycling rats; however, the rate of growth appears to be quite slow.

Rescue of atretic follicles in vitro and in vivo

The purpose of this work was to determine if atretic follicles could be rescued and could return to the ovulatory pathway of development. Rats were given continuous infusions of 3H-thymidine (3H-thymidine (3H-TdR) resulting in uniform labeling of healthy antral follicles versus patchy labeling of atretic antral follicles. The infusion was then stopped and rats were subjected to experimental treatments known to stimulate follicular recruitment. Immature rats were given injections of pregnant mare's serum gonadotropin (PMSG) to provoke super-ovulation. Adult rats were hemicastrated to provoke compensatory follicular development in the remaining ovary. In addition, granulosa cells from individual follicles of adult rats were cultured in vitro. The differential labeling patterns, observed at the end of the treatment period, were used to determine, a posteriori, the condition of follicles as they had been at the start of the treatment period. Sparsely labeled cell cultures were found, indicating that some cells from atretic follicles were able to become established in tissue culture. However, there was no evidence that atretic follicles had revived in vivo. All follicles recruited for ovulation by PMSG or hemicastration were heavily and uniformly labeled. All poorly labeled follicles were clearly continuing their process of degeneration. These observations suggest that, despite continued viability of some granulosa cells in atretic follicles, once a follicle begins to degenerate in vivo, it will probably not return to the ovulatory pathway.

[Kinetic aspects of follicle development in the rat]

The eighth and ninth generations of follicle growth in rats represent a turning point in development. This stage is characterized by establishing a complete regulatory control based on feedback in follicle development. The feedback between follicles and gonadotropin secretion regulates a number of follicles maturing for ovulation. Gonadotropins seem to play a permissive, and not a directive part in regulation of follicle development in the eighth and ninth generations. By this stage of development, possibilities for theca and granule cells become sharply limited. Whereas expression of many maturation features may be hastened or hindered by changes in hormonal status, the result of development cannot be changed. Although only last generations of theca and granule cells exhibit mature functional features, their precursors seem to become committed to a single direction of development at early stages of follicle development. Neither the stage when precursor cells become irreversibly committed to differentiation into granule or theca cells, neither regulatory factors which determine this process have been identified yet. We suppose that precursor cells become committed to thecal tissue compartment when the follicle is at a primordial stage of development. Precursors of all the follicle components may already be assembled into one unit by the beginning of follicle growth. Accumulation of sufficient number of precursor cells around the primordial follicle may serve as a signal for follicle growth initiation. We think that the understanding of follicle postnatal growth and development should be based on understanding of origins, destiny, and possibilities of cells which form ovary and its compartments. First generations of follicle growth seem to be most promising for future research.

Flow cytofluorometric analysis of granulosa cell proliferation in rats

Immature rats were given PMSG followed by an ovulatory dose of hCG. Mature cyclic rats were given an ovulatory dose of hCG on the day of dioestrus, 24 h before the endogenous LH surge was expected to occur. Granulosa cells from individual follicles were subjected to flow cytometry at various times after hormone administration. Administration of PMSG to immature rats caused a marked, transient increase in 'cycling' granulosa cells (cells in S, G2, or M phases of the cell cycle). Administration of hCG to adult cyclic rats caused a slight, but significant, increase in 'cycling' granulosa cells. The results could be taken to indicate that hCG-induced luteinization is not, in fact, accompanied by cessation of cellular proliferation. However, the data lend themselves to alternative explanations. The observed phase shifts may be due to the lengthening of the duration of S and G2 phases, indicating an actual decrease in the rate of cell proliferation. Flow cytometry was found to be a rapid, inexpensive tool for the study of follicular growth in the rat, but, due to variation between follicles and the need for a minimal sample size of 2000 cells, its application is limited to large follicles.

Size-frequency analysis of atresia in cycling rats

The purpose of this study was to delineate when, during follicular growth, the alternative developmental pathways leading to ovulation or atresia diverge. By using computerized image analysis techniques, random samples of healthy and atretic follicles in ovaries of cycling rats were subjected to size-frequency analysis. The vast preponderance of atretic follicles were of the early antral size class (approximately 300-350 micron diameter, 800-1000 granulosa cells in the largest cross-section); atretic small follicles (less than 250 granulosa cells in the largest cross-section) were rare. Follicles in early stages of atresia were uncommon in ovaries of animals killed at estrus, but were found with great frequency in ovaries of animals killed the following day (metestrus). These results suggest that, under normal cyclic conditions, there may be only one major branching point during follicular development when growing follicles become susceptible to atresia. The alternative developmental pathways leading to ovulation and atresia may not diverge until the penultimate stage of growth, immediately preceding the final transformation into a preovulatory follicle.

Histological assessment of follicular development and its applicability to risk assessment

The objective of this article is to describe histological methods currently used to study ovarian physiology that may have applicability to reproductive toxicology. Histologic techniques are, for the most part, inexpensive and easy to perform. Many of these techniques require little equipment and can be readily implemented in small laboratories. The resulting histological preparations are permanent, can be used over again for several different types of analyses, and provide objective, quantifiable endpoints. These techniques have been extremely useful for studying the ovary.

Effect of a low dose of pregnant mare's serum gonadotropin on follicular recruitment and atresia in cycling rats

Atresia appears to play a central role in selecting the correct number of follicles for ovulation in the rat. A wave of atresia, apparent by noon on metestrus, reduces the number of large healthy follicles to the appropriate quota for ovulation. The purpose of this study was to test the hypothesis that falling levels of gonadotropin on the morning of estrus precipitate the wave of atresia of large follicles seen on metestrus. Endogenous concentrations of follicle-stimulating hormone (FSH) were augmented by a single injection of pregnant mare's serum gonadotropin (PMSG; 0.025 IU/gram body weight) administered at different times during the periovulatory period. Animals given PMSG at 0800 h on estrus (when the endogenous FSH surge was waning) had a supernormal number of large healthy follicles in their ovaries at 1200 h on metestrus. This increase in large healthy follicles was accompanied by a decrease in large atretic follicles in the ovaries. The same dose of PMSG, when administered at other times during the periovulatory period, did not affect any of the parameters measured. These observations suggest that the wave of atresia normally seen in large follicles on metestrus is triggered by the decline in the concentration of FSH during the morning of estrus and can be prevented by prolonging the surge of FSH with administration of PMSG.

Patterns of [3H] thymidine incorporation differ in immature rats and mature, cycling rats

By the time follicular development has progressed to the preovulatory stage, granulosa cells abutting the basement membrane no longer incorporate [3H] thymidine (3H-TdR). The purpose of this experiment was to determine when, during the course of follicular growth, cell proliferation in these mural granulosa cells ceases. Autoradiographs were prepared following continuous 3H-TdR infusion in vivo, or incubation with 3H-TdR in vitro. In cycling rats, the concentration of silver grains over mural regions of the granulosa layer was lower than over antral regions of most follicles with greater than 1000 cells in the largest cross section (LCS). This centripetal labeling pattern became more striking as follicular size increased. By proestrus, only the cells of the discus proligerus (cumulus and the portion of the follicular wall supporting the cumulus oocyte complex) continued to incorporate 3H-TdR. In contrast to cycling rats, centripetal labeling patterns were not seen in ovaries of prepubertal rats, even in follicles of the same size. The difference in follicular growth patterns between these two types of animals suggests an influence of cyclic gonadotropin surges on the control of granulosa cell proliferation.

Comparison of granulosa cell proliferation in small follicles of hypophysectomized, prepubertal, and mature rats

The factors that control the rate of granulosa cell proliferation during follicular development are unknown. The object of this study was to test the hypothesis that growth rates of small and medium follicles may be modulated by cyclic alterations in endogenous hormone concentrations. Follicular growth in adult cycling rats was compared with hypophysectomized rats, untreated prepubertal rats, and prepubertal rats treated with exogenous gonadotropins. Cell kinetics was studied using a metaphase arrest technique and by long-term infusion of [3H]thymidine. Many follicles of hypophysectomized rats showed evidence of continued cell proliferation despite the absence of gonadotropins. In hypophysectomized rats, follicular growth was able to proceed to the size of the largest healthy non-preovulatory follicles in the proestrous rat ovary. Follicular growth in prepubertal rats progressed little beyond this same size range. Granulosa cell proliferation rates differed in immature rats and cycling rats. Granulosa cells in small follicles (80-180 cells in the largest cross-section) of cycling rats grew slowly. However, granulosa cells in small follicles of immature rats were among the fastest growing in the ovary. These results suggest that, although gonadotropins are not absolutely required to maintain granulosa cell proliferation in small follicles, the rate at which these follicles grow varies under different hormonal conditions.

Stathmokinetic analysis of granulosa cell proliferation in antral follicles of cyclic rats

On Day 1 of the estrous cycle (estrus), most of the largest follicles in the ovaries of rats appear to be healthy. By the following day, however, nearly one-third of all antral follicles show clear signs of atresia. The remaining healthy follicles are presumably those which will go on to ovulate. The object of this study was to distinguish between two possibilities: 1) that all of the largest follicles in the ovary on Day 1 subsequently undergo atresia on Day 2, and a new cohort of healthy follicles arises to replace them, or 2) that one single cohort of follicles on Day 1 is the source of both the healthy and atretic follicles seen on Day 2. For this purpose, the rate of granulosa cell proliferation was determined on each day of the 4-day estrous cycle using a metaphase arrest technique. Follicles grew most slowly on Day 4; small follicles (181-646 cells in the largest cross section) had a mitotic index (MI) of 8.1% after a 4-h block. In contrast, on Day 1 granulosa cells were proliferating rapidly; small follicles had an MI of 15.9%. This high rate of cell proliferation was also characteristic of large follicles. Estimated growth rates predict that, in healthy follicles, the number of granulosa cells should have almost doubled in the 24 h between Days 1 and 2. However, while the largest antral follicles in the ovaries on Day 1 had an average of 1064 cells in the largest cross section, the largest healthy follicles on Day 2 had only 1252 cells, rather than the expected 1763 cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Continuous [3H] thymidine infusion: a method for the study of follicular dynamics

Cycling rats were given continuous infusions of [3H] thymidine [( 3H] TdR) by means of osmotic minipumps, and autoradiographs of ovaries were prepared. Silver grains were distributed in a diffuse and uniform fashion over the granulosa layer of growing follicles. Nearly 100% of granulosa cells in large healthy follicles were labeled within 24 h. This uniform labeling makes possible detailed cell cycle analysis, as well as other kinetic studies. Follicles which were already atretic before the minipumps were inserted remained unlabeled. Follicles which became atretic after the minipumps were inserted were heavily labeled. Thus, with continuous labeling, it is possible to deduce retrospectively the viability of a particular follicle as it had been at the time the minipumps were inserted. Short-term continuous infusion of [3H] TdR, therefore, provides a valuable temporal component to morphometric studies of the ovary and should be useful for the study of other rapidly growing tissues as well.

Inhibition of ovarian aromatase by prolactin in vivo

Ovarian aromatase activity was inhibited by prolactin treatment in both cycling rats and immature gonadotropin-primed animals. Cycling rats were injected s.c. with prolactin (4 mg/kg BW) beginning on diestrus 1. Aromatase activity in the largest follicles on diestrus 2 and on proestrus was reduced relative to controls. None of the prolactin-treated animals had ovulated when examined on the expected estrus morning. In other experiments, the immature pregnant mare's serum gonadotropin (PMSG)-primed rat was used as a model for the cycling rat. Microsomal aromatase activity but not the activity of the C17-21 lyase was reduced in ovaries of animals injected with prolactin [6 IU (200 micrograms)/rat] 48 h after PMSG administration and sacrificed 4 h later. Furthermore, aromatase activity was significantly increased when endogenous prolactin was inhibited by bromocryptine (CB-154). The effect of LH treatment, on the other hand, was to increase both aromatase and lyase activities. However, prolactin pretreatment did not consistently prevent the LH-induced increase in aromatase activity. The results suggest that inhibition of ovulation by prolactin is mediated, at least in part, by direct inhibition of aromatase activity.

Compensatory ovarian hypertrophy in the long-term hemicastrate rat: size distribution of growing and atretic follicles

In the intact rat, on estrus, the follicle-stimulating hormone (FSH) surge recruits nearly twice the correct number of follicles for ovulation, then, on metestrus, the excess follicles undergo atresia. In contrast, in the long-term hemicastrate rat, the FSH surge recruits fewer antral follicles on estrus, but there is little atresia on metestrus. To determine if fewer follicles are recruited by the FSH surge of long-term hemicastrates because the pool of follicles capable of responding to the FSH is smaller than in intact rats, preantral, antral, atretic, and healthy follicles were counted in ovaries of rats killed on each day of the estrous cycle. In general, there were only half as many healthy preantral follicles per rat in hemicastrates compared with intacts. There were an equal number of large antral follicles per rat in hemicastrates compared with intacts. Thus, compensatory hypertrophy did not extend to preantral follicles but was evident in large preovulatory follicles. These results suggest that fewer follicles are recruited on estrus in hemicastrate rats because fewer follicles are at the appropriate stage of development to respond to the FSH surge.

Follicular recruitment in long-term hemicastrate rats

In the long-term hemicastrate rat, the total number of ova shed during estrus is the same as in the intact rat. To determine if the dynamics of follicular development are the same in the hemicastrate rat as in the intact control rat, the remaining ovary was removed from rats 20 to 30 days after hemiovariectomy. Complete serial sections of each ovary were prepared for histological examination. All follicles greater than or equal to 300 micrometers were counted, measured, and examined for signs of atresia. Long-term hemicastrate rats had a total complement of half as many healthy antral follicles compared to intact rats at estrus. At metestrus, there were half as many small and medium antral follicles in long-term hemicastrates as in controls. However, the total number of large antral follicles was the same in hemicastrate and intact rats. Thus, by metestrus, the appropriate number of follicles for ovulation appears to have been achieved in both animals, with all these large antral follicles located in the one remaining ovary of the hemicastrate rat, while they are distributed between both ovaries of the intact rat. Ovaries of the long-term hemicastrate rats contained far fewer attretic follicles than ovaries of intact rats. These findings suggest that the process of follicular recruitment differs greatly between intact and long-term hemicastrate rats. Atresia of small and medium antral follicles (300-400 micrometers in diameter) is apparently a necessary step in achieving the correct number of ovulatory follicles in the intact rat, yet the hemicastrate rat arrives at the correct number of ovulatory follicles without atresia.

Possible existence of a long-loop feedback system between FSH and inhibin in female rats

Experiments were designed in which peripheral plasma inhibin levels were presumably altered in an attempt to investigate an interdependency between pituitary follicle-stimulating hormone (FSH) and ovarian inhibin secretion. In the first study, unilateral ovariectomy (ULO) was performed on 4-day cycling female rats under ether anesthesia at 0800 h on diestrous day 1 (D1). Inhibin-like activity [FSH-inhibiting activity(FSH-IA)] in untreated ovarian venous plasma (OVP) collected from the remaining ovary was assessed by an in vitro pituitary bioassay system. Both plasma FSH levels and FSH-IA significantly increased between 4 and 12 h after ULO. Thereafter, plasma FSH declined between 12 and 32 h after ULO, whereas FSH-IA remained elevated during this same time interval. Compared to sham-operated rats, plasma FSH was significantly elevated 4, 12, and 24 h after ULO, whereas FSH-IA was statistically higher only at 32 h after ULO. In a second experiment, rats were injected with charcoal-treated porcine follicular fluid (PFF) on proestrus and estrus. Control rats received saline. The data indicate that increased plasma FSH levels on D1 in PFF-treated rats (FSH rebound) may be a consequence of reduced endogenous inhibin secretion on estrus. As well, return of FSH to control levels on D2 in PFF-treated rats may have resulted from an FSH-associated increase in FSH-IA on D1 and D2.

Effect of suppression of the surge of follicle-stimulating hormone with porcine follicular fluid on follicular development in the rat

To examine the manner in which the FSH surge of one oestrous cycle recruits follicles for ovulation in the subsequent cycle, porcine follicular fluid (PFF) was used to alter the pattern of endogenous FSH secretion during the periovulatory period. OVaries of animals killed at oestrus or metoestrus were examined histologically for the presence of large follicles (greater than 400 micrometers in diameter) after treatment. Large follicles were absent in ovaries of PFF-treated animals at oestrus, while control rats had an average of 2.7 large follicles per ovary. By metoestrus, however, ovaries of rats treated with PFF contained several large, healthy follicles. Only when PFF treatment was continued throughout the evening of oestrus was the appearance of large follicles prevented at metoestrus. Our results suggest that the prolonged oestrus portion of the FSH surge, rather than the pro-oestrous portion, is responsible for follicular recruitment during the normal oestrous cycle in the rat. They also indicate that compensatory follicular development occurs in response to the FSH rebound which has been shown to follow FSH suppression.

Suppression of pituitary secretion of follicle-stimulating hormone by porcine follicular fluid during pro-oestrus and oestrus in the rat: effects on gonadotrophin and steroid secretion, follicular development and ovulation during the following cycle

In this study, we have examined whether the suppression of raised plasma FSH concentrations at pro-oestrus and/or oestrus by porcine follicular fluid (PFF) affected the development of follicles for ovulation in the next cycle. Adult, 4-day-cyclic rats were injected with PFF or pig serum at various hours of pro-oestrus and oestrus. Plasma FSH levels were suppressed following PFF treatment at any time of pro-oestrus and oestrus. Furthermore, this suppression was always followed by a 'rebound' increase in plasma FSH. In contrast, plasma LH concentrations were unaffected by PFF treatment and neither gonadotrophin was altered by treatment with pig serum. When rats treated with PFF or pig serum were allowed to complete one additional cycle, plasma LH and FSH concentrations at the pro-oestrus and oestrus after treatment were not significantly different among groups regardless of treatment or time of treatment. All ovaries of rats treated with PFF or pig serum on the next pro-oestrus morning before ovulation were histologically similar. Furthermore, all animals ovulated a normal complement of ova at the next oestrus regardless of whether preovulatory, secondary or both increases of plasma FSH had been blocked by PFF treatment during the previous cycle. However, animals given PFF during the preceding cycle, plasma oestradiol and progesterone concentrations were significantly altered on the morning and afternoon of pro-oestrus respectively. These results suggest that increased plasma FSH concentrations at pro-oestrus and oestrus may not be essential for folliculogenesis and ovulation in the subsequent cycle. Alternatively, the 'rebound' of FSH on day 1 of dioestrus after the suppression of both phases of FSH secretion at pro-oestrus and oestrus may be sufficient to provide ovulatory follicles for the next pro-oestrous day.