Stimulation of folliculogenesis in domestic cats with human FSH and LH

Folliculogenesis in response to exogenous stimulation by human urinary follicle stimulating hormone (huFSH) and human menopausal gonadotropin (hMG) was evaluated in the domestic queen (Felis catus). The role of LH and/or FSH in folliculogenesis was examined by measuring concentrations of estradiol 17beta (E(2)) and progesterone (P) in the serum. Additionally, changes in the number and size of follicles from before the administration of exogenous hormones to surgical oocyte collection were monitored. Findings indicated that in queens receiving huFSH or hMG followed by human chorionic gonadotropin (hCG) to induce ovulation, the numbers of follicles from 1 to 3 mm increase with statistical significance (P<0.005) from before the initiation of treatment to surgical collection of oocytes. Although E(2) concentrations in cats receiving hMG increased above baseline by the third exogenous hormone injection, mean E(2) concentrations did not increase in the groups that received both huFSH and hCG, or hCG only, until after the administration of hCG. This suggests that the exogenous administration of LH contained in both hMG and hCG was necessary for E(2) to rise to levels associated with estrus.     

Inhibition of 125I-human follicle-stimulating hormone binding to receptor by a low molecular weight fraction of bovine follicular fluid: inhibitor concentration is related to biochemical parameters of follicular development

Pools of follicular fluid (FF) were obtained from large or small follicles of cows which were pregnant or in the luteal phase of the estrous cycle. Cells present in each FF pool were collected by centrifugation and measured for content of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) receptors. Steroid levels in FF were quantitated by radioimmunoassay (RIA). Since the quantity of bovine follicular cells (mostly granulosa cells) was limited, FSH binding inhibition was studied utilizing a calf testis receptor system. Low (less than 6000) molecular weight (Mr) fractions prepared by dialysis were shown to account for most (76 to 94%) of the FSH binding inhibition (FSH-BI) present in unfractionated FF. The concentration of low Mr FSH-BI was higher in pools of FF from cows in the luteal phase of the estrous cycle than in pools of FF from pregnant cows. The concentration of low Mr FSH-BI was also higher in FF pooled from small follicles than in FF pooled from large follicles of either pregnant or luteal phase cows. Relative concentrations of receptors for gonadotropins (FSH, LH) on granulosa cells were used to rank the pools according to relative degree of follicular maturation. Other parameters of follicular maturation were concentration of estrogens and the ratio of estrogens to androgens in FF. Biochemical parameters for follicular atresia were the concentration of androgens and the ratio of estrogens to androgens in FF.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ovarian follicular differentiation with prepubertal gonadotropin surges and gonadotropin priming in mice

Preantral follicles were mechanically isolated from the ovaries of 1.5 to 8 week old mice and cultured in vitro for 4 days in the presence or absence of either activin A or FSH. Plasma gonadotropin, estradiol and immunoreactive (IR) inhibin levels were measured. Cultured follicles showed stepwise changes in response to recombinant human (rh) FSH, with no response until 11 days, a gradual increase from 2 weeks, culminating in a strong response to rhFSH at 8 weeks. The response to activin A was vice versa. It enhanced the effect of rhFSH on preantral follicular growth of up to 4-week-old mice, but inhibited the effect of rhFSH in 8-week-old mice. The peak of the prepubertal gonadotropin surge was observed on day 11. Seven-day-old mice were treated with either luteinizing hormone releasing hormone (LHRH) or rhFSH or human chorionic gonadotropin (hCG) for 3 consecutive days from day 7, and follicles were collected on day 11. Those follicles showed enhanced response to rhFSH, no response to activin A, and an enhanced response to the combination of rhFSH and activin A, suggesting that the chronological changes in follicular response are a result of the prepubertal gonadotropin surge.     

Comparative expression of luteinizing hormone and follicle-stimulating hormone receptors in ovarian follicles from high and low prolific sheep breeds

Expression of gonadotropin receptors and granulosa cell sensitivity to gonadotropin hormones by small (1-3 mm) and large (3.5-7 mm) follicles were compared in Romanov (ROM, ovulation rate = 3) and Ile-de-France (IF, ovulation rate = 1) ewes in the early and late follicular phase. In healthy follicles, LH receptor levels in granulosa cells increased with increasing follicular size (p < 0. 001) while FSH receptor levels decreased (p < 0.05). In granulosa cells of large follicles, LH receptor (LHR) mRNA levels were greater in the late than in the early follicular phase (p < 0.001, p < 0.05, for ROM and IF, respectively). In the early follicular phase, LHR levels in granulosa (p < 0.001) and theca cells (p < 0.05) of small follicles were greater in ROM than in IF ewes. FSH receptor mRNA levels in granulosa cells of small and large ROM follicles were greater than in the corresponding IF follicles (p < 0.05). Finally, a greater responsiveness (increase in cAMP secretion) to both FSH and hCG was observed by granulosa cells collected during the early follicular phase from ROM vs. IF ewes. Data provide evidence that the greater ovulation rate in the ROM as compared to the IF breed is associated with a greater gonadotropin responsiveness during the early follicular phase.     

Absence of specific follicle stimulating hormone receptors in porcine corpora lutea

Crude cell membrane preparations of corpora lutea from 13 pigs in different phases of the estrous cycle or pregnancy were assayed for the presence of specific follicle stimulating hormone (FSH) receptors using highly purified ovine FSH. Testicular tissue from boars and granulosa cells from porcine follicles served as positive controls. Scatchard analysis was used to determine binding affinity of FSH to target tissues as well to study human chorionic gonadotropin (hCG) bindability to corpora lutea membranes. In contrast to testicular tissue and granulosa cells, no specific FSH binding was detected in luteal tissue during the estrous cycle or pregnancy in pigs.     

Effects of ovarian hyperstimulation and isolated preovulatory follicles on LH responses to GnRH in rats

Adult rats were pretreated with a 3-day regimen of human menopausal gonadotrophin (hMG), PMSG, human FSH or hCG and experiments were carried out on the day of pro-oestrus. Treatment with hMG and hFSH induced a significant increase in the number of preovulatory follicles on the day of pro-oestrus and this was correlated with increased circulating concentrations of oestradiol. There was a parallel increase in the self-priming effect of GnRH, as observed from the biphasic LH response to a continuous GnRH challenge. PMSG treatment did not stimulate increased numbers of maturing follicles and was less effective in raising circulating oestrogen concentrations compared with hMG and hFSH. However, pituitary responsiveness was much higher after PMSG treatment and the biphasic response to continuous perfusion with GnRH was absent; LH release was high from the initiation of the stimulus. hCG alone failed to stimulate follicular maturation but enhanced pituitary LH responses. Hemi-pituitary glands perfused in the presence of isolated preovulatory follicles also showed augmented biphasic LH responses to GnRH compared with control hemi-pituitary glands. The apparent dissociation which can occur between follicular maturation, circulating oestrogen concentrations and pituitary responsiveness to GnRH supports the idea of non-steroidal ovarian factors modulating LH release.     

Induction of ovarian follicular cysts in the pregnant rat by human chorionic gonadotropin.

Prolonged stimulation by human chorionic gonadotropin (hCG) induces ovarian follicular cysts in progesterone-synchronized immature rats [Bogovich, Endocrinology 1989; 124:1646-1653]. To determine if unabated stimulation by hCG has a similar effect on follicular development in adult ovaries, pregnant rats were given either 0 (control), 1, or 3 IU hCG twice daily for 9 days beginning on Day 13 of pregnancy. By Day 22 of pregnancy, rats treated with 1 IU hCG possessed large antral follicles at least 1 mm in diameter: approximately 33% larger than the diameters of preovulatory follicles observed in control rats (0 IU hCG). In contrast, rats treated with 3 IU hCG displayed ovarian follicular cysts up to 5 mm in diameter, with well-developed thecae and just a remnant of granulosa cells. Progesterone, androstenedione, and estradiol accumulation was greater in follicular incubates from hCG-treated rats than in incubates from control rats. Progesterone increased in response to cAMP in incubates from all treatment groups on all days tested. Androstenedione increased in response to cAMP on Day 22 of pregnancy for follicles from control animals, on all days tested for follicles from rats treated with 1 IU hCG, and on Days 15-19 for follicles from rats treated with 3 IU hCG. Androstenedione production in the presence of 300 ng of exogenous testosterone was significantly greater in follicular incubates from animals treated with 1 and 3 IU hCG than incubates from control animals on Days 19-22 of pregnancy.(ABSTRACT TRUNCATED AT 250 WORDS)     

Follicle-stimulating hormone plays a role in the induction of ovarian follicular cysts in hypophysectomized rats.

Unabated stimulation by low doses of LH-like activity produces ovarian follicular cysts in both progesterone-synchronized immature rats and pregnant rats. Serum FSH is maintained in both of these models at values similar to those observed on diestrus. To determine whether unabated stimulation by basal serum FSH affects the ability of LH-like activity to induce cystic ovaries, immature hypophysectomized (HYPOXD) rats were given either no hormone (control); 2 micrograms ovine FSH (oFSH) once daily for 14 days beginning on Day 27; 0.5 IU hCG twice daily for 13 days beginning on Day 28 of age; or both oFSH and hCG (FSH + hCG) beginning on Day 27 and Day 28, respectively. By the end of the in vivo treatments (Day 40 of age), the largest follicles in the ovaries of control and hCG-treated HYPOXD rats were at the preantral stage of development, whereas the largest follicles present in ovaries from FSH-treated animals were atretic and at the small antral stage of development. In contrast, ovaries from rats treated with FSH + hCG displayed large follicular cysts by Day 37 of age. Of the serum steroids analyzed, only estradiol and androstenedione concentrations for animals treated with FSH + hCG were consistently elevated above values observed for control HYPOXD rats. Serum testosterone and dihydrotestosterone values were similar for hCG-treated and control HYPOXD rats throughout the in vivo treatments. In contrast, these steroids were elevated between Days 3 and 5 of FSH treatment (+/- hCG treatment). Serum progesterone and estrone values for all in vivo gonadotropin treatment groups were similar to those of controls. Serum insulin concentrations were not affected by any in vivo treatment. Incubates of follicles/cysts from FSH + hCG-treated HYPOXD rats contained more progesterone, androstenedione, and estradiol than incubates of follicles from any other in vivo treatment group. Follicles from all in vivo treatment groups responded to 8-bromo cAMP (cAMP) with increased in vitro progesterone accumulation. However, only follicles from FSH-treated and FSH + hCG-treated rats responded to cAMP with increased androstenedione and estradiol accumulation in vitro. Inclusion of 400 ng of either androstenedione or testosterone in the incubation medium enhanced progesterone accumulation in follicular incubates from control, hCG-treated, and FSH-treated HYPOXD rats, but did not enhance progesterone accumulation in follicular incubates from FSH + hCG-treated animals. Both androstenedione and estradiol production increased markedly under these conditions for follicles from all in vivo treatment groups.(ABSTRACT TRUNCATED AT 400 WORDS)     

Androgen synthesis during follicular development: evidence that rat granulosa cell 17-ketosteroid reductase is independent of hormonal regulation

Although androgens have been implicated in follicular atresia, ovarian follicular androgen synthesis is required for preovulatory follicular growth. To localize the site(s) of androgen biosynthesis and to obtain a better understanding of the regulation of the androgenic pathway(s) in rat ovarian follicles we examined the relative abilities of developing follicles to accumulate specific androgens [testosterone (T) and dihydrotestosterone (DHT)] using both radioimmunoassay (RIA) and 3H-substrate metabolism techniques. Small antral and preovulatory follicles were obtained from control or human chorionic gonadotropin (hCG)-primed immature rats, respectively (Richards and Bogovich, 1982). Small antral follicles, theca and granulosa cells produced little immunoassayable androgen (T + DHT) when incubated with or without 8-bromo-cAMP. In contrast, preovulatory follicles and theca produced more androgen than small antral tissues and in a manner acutely stimulable by cAMP. Granulosa cells produced little androgen under these conditions. Inclusion of [3H] androstenedione in the incubates yielded increased accumulation of [3H] T and [3H] DHT for all small antral and preovulatory tissues. Indeed, granulosa cells from both small antral and preovulatory follicles possessed a remarkable ability to accumulate [3H] T. This ability was not altered by hypophysectomy or subsequent treatment with estradiol and/or follicle-stimulating hormone (FSH). These results suggest that 17-ketosteroid reductase may be a constitutive enzyme in granulosa cells.     

Hormonal induction of ovulation stimulates atresia of antral follicles in a vespertilionid bat, Scotophilus heathi

Scotophilus heathi is a seasonally monoestrous subtropical vespertilionid bat found at Varanasi, India. Although the antral follicles remain present in the ovaries of S. heathi from November till March, ovulation is delayed in this species until early March. In order to understand the mechanism of ovulation suppression during this period of delayed ovulation, the effects of human chorionic gonadotropin (hCG), pregnant mare's serum gonadotropin (PMSG), follicle stimulating hormone (FSH) and gonadotropin releasing hormone agonist (GnRH agonist) on ovarian morphology and steroid concentration were investigated. Hormonal treatments were given as a single i.p. dose 24 h after capture. The bats were sacrificed 48 h after the injection. Treatment with hCG, PMSG, FSH and GnRH agonist failed to induce ovulation in S. heathi, although these hormones produced a high degree of ovarian stimulation. The administration of hCG and PMSG induced ovarian enlargement, intense hyperemia, marked changes in the interstitial cells (ICs), development of several antral follicles and a varying degree of abnormalities in the oocytes of most of the antral follicles. In the bats treated with hCG, PMSG and GnRH agonist, androstenedione concentration increased significantly to extraordinarily high levels, whereas estradiol concentration decreased. Administration of FSH caused regression of ICs and pyknosis of granulosa cells in the majority of antral follicles. FSH did not enhance androstenedione concentration. The results of the present study suggest that the failure of hormonal treatments to induce ovulation during the period of delayed ovulation might be due to a seasonal desensitization of ovarian follicles in S. heathi. The hormonal treatment instead stimulated the ICs to produce a high level of androstenedione resulting in atretic changes of the antral follicles.     

Prostaglandin production by dispersed granulosa and theca interna cells from porcine preovulatory follicles

Prepubertal gilts were treated with 750 IU pregnant mares' serum gonadotropin (PMSG) and 72 h later with 500 IU human chorionic gonadotropin (hCG) to induce follicular growth and ovulation. Dispersed granulosa (GC) and theca interna (TIC) cells were prepared by microdissection and enzymatic digestion from follicles obtained 36, 72 and 108 h after PMSG treatment and incubated for up to 6 h in a chemically defined medium in the presence or absence of arachidonic acid, follicle-stimulating hormone (FSH), luteinizing hormone (LH) and indomethacin. Production of prostaglandin E2 (PGE) and prostaglandin F2 alpha (PGF) was measured by radioimmunoassay. Both GC and TIC had the capacity to produce prostaglandins, with production by each cell type increasing markedly with follicular maturation. PGE was the major prostaglandin produced by both cellular compartments. Only PGE production by GC was consistently enhanced by addition of arachidonic acid to the incubation medium. Neither cell type was responsive to FSH and LH in vitro. Indomethacin inhibited the production of PGE and PGF by both cell types. These results provide convincing evidence for an intrafollicular source of prostaglandins and indicate that both cellular compartments contribute significantly to the increased production of prostaglandins associated with follicular rupture.     

Use of purified porcine follicle-stimulating hormone for ovarian stimulation of macaque monkeys

At present, in nonhuman primates, ovarian stimulation with heterologous gonadotropin preparations is the only reliable way to produce substantial numbers of competent ova for in vitro fertilization and embryo development studies. Preparations such as equine chorionic gonadotropin (eCG) and human menopausal gonadotropins (hMG or hFSH) have been used successfully, but eCG is crude and contains variable amounts of LH activity, while hMG/hFSH is very expensive and the supply is not stable. This study examined the use of a purified porcine FSH preparation (Folltropin V) for ovarian stimulation in rhesus monkeys. Twice-daily intramuscular injections of this preparation resulted in good follicular development, and was followed by a single intramuscular injection of hCG. Ova were collected laparoscopically 30 h post hCG, fertilized in vitro and then cultured until development ceased. Stimulation of 9 monkeys with Folltropin V yielded a mean of 20 ova per animal, of which 71% reached metaphase II and were inseminated; of these, 92% were fertilized in vitro and 48% developed into blastocysts in vitro. These results are similar to those reported by us and by others using eCG, hMG or an hFSH/hMG combination for ovarian stimulation of macaque monkeys. We conclude that Folltropin V is a suitable alternative preparation for ovarian stimulation in nonhuman primates and one that also has the advantages of being readily available and much less expensive than human gonadotropin preparations.     

Dissociation of copulation from ovulation in pregnant rabbits

Experiments were designed to determine why copulation in the pregnant rabbit does not terminate pregnancy while treatment with ovulatory doses of luteinizing hormone (LH) human chorionic gonadotropin (hCG) or luteinizing hormone-releasing hormone (LHRH) is known to do so. Pregnant rabbits (Day 8) were mated or were injected with hCG (25 IU/doe) or LHRH (1, 10 micrograms/kg). Serial blood samples were collected over the next 72 h and analyzed for content of LH, follicle-stimulating hormone (FSH) and progesterone. At sacrifice, uteri and ovaries from these animals were examined for viability of the embryos and for signs of recent ovulation. Injection of hCG or LHRH into pregnant animals led to ovulation and to patterns of LH, FSH and progesterone secretion like those which precede ovulation in estrous rabbits. However, mating the pregnant does did not lead to ovulation or to any changes in the circulating hormones. To investigate whether the elevated levels of progesterone during pregnancy were responsible for the dissociation of coitus from ovulation, nonpregnant rabbits were injected with progesterone (2 mg/kg) and then mated or injected with hCG or LHRH. In virtually every respect, the numbers of ovulations and the patterns of hormone secretion in the progesterone-treated, nonpregnant rabbits mimicked those observed in the 8-day pregnant animals; injection of hCG or LHRH caused ovulation and hormonal surges while hCG caused ovulation only. Mating did not lead to ovulation or any change in blood levels of LH, FSH or progesterone. Taken together, the results show that the elevated circulating levels of progesterone, characteristic of pregnancy, are probably responsible for the dissociation of copulation from gonadotropin release in pregnant rabbits.     

Concentrations of inhibins and steroids in follicular fluid during development of dominant follicules in heifers

The objective of this study was to examine changes in intrafollicular concentrations of inhibins and steroids in heifers during growth of dominant follicles. To obtain dominant ovulatory follicles, heifers received injections of prostaglandin (PG) on Day 9 of an estrous cycle and were ovariectomized (OVX) 0, 24, 48, 60, or 72 h after injection. To obtain dominant nonovulatory follicles, heifers were OVX on Day 3, 6, or 9 of a cycle. Follicular size was determined, follicular fluid (FF) was collected from follicles 6 mm or greater in diameter, and RIA was used to quantify concentrations of inhibins, estradiol, and progesterone in FF. During growth of dominant ovulatory follicles, concentrations of estradiol and progesterone increased, whereas inhibins decreased when compared with dominant follicles on Day 9 before PG treatment. Concentrations of inhibins were inversely correlated with size and concentrations of estradiol in dominant ovulatory follicles. As dominant nonovulatory follicles increased in size, concentrations of inhibins, estradiol, and progesterone increased. Concentrations of inhibins were positively correlated with size and with progesterone concentrations in dominant nonovulatory follicles. Concentrations of inhibins were greater in dominant nonovulatory follicles than in atretic follicles. In summary, intrafollicular concentrations of inhibins decreased during growth of dominant ovulatory follicles, but increased during growth of dominant nonovulatory follicles. Because of the well-known suppressive action of inhibins on FSH secretion, we hypothesize that inhibins are involved in growth and atresia of dominant follicles during the bovine estrous cycle.     

The effects of progesterone on follicular growth in the rabbit ovary

Studies were undertaken to measure the growth of follicles in the rabbit ovary during periods of elevated blood levels of progesterone. The progestin was increased in the blood by pregnancy or by implantation of progesterone pellets, which raised blood progesterone to near the levels measured during pregnancy. After 1, 2, 3, or 4 weeks of pregnancy or progesterone-pellet treatment, follicles of 1.0 mm external diameter or greater were dissected out of the ovaries and their external diameters were measured; then, each follicle was extracted for measurement of estradiol content. Blood levels of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) were measured in these animals as well. Follicles up to 2.5 mm in diameter were found in the ovaries of nonpregnant and untreated animals while 1.8 mm was the maximal size found during pregnancy or progesterone-pellet treatment. Furthermore, both in pregnant and in progesterone-treated rabbits, the follicular estradiol content and concentration were significantly suppressed compared to follicles from untreated rabbits. The progesterone pellets had no major effect on the levels of LH and FSH in the blood; the concentration of these gonadotropins in the progesterone-treated rabbits was virtually identical to levels previously measured in the blood of pregnant animals. The results of these studies indicate that progesterone exerts an inhibitory action on follicular development and steroidogenic function in the rabbit ovary. The progesterone action appears to be exerted directly on the ovary and is not indirect, by way of an inhibition of gonadotropin secretion.     

Pre-ovulatory changes in cyclic AMP and prostaglandin concentrations in follicular fluid of gilts.

The concentrations of cyclic adenosine 3', 5'-monophosphate (cyclic AMP) and prostaglandins E and F (PGE and PGF) were determined in follicular fluid collected from follicles of prepubertal gilts at various times after treatment with pregnant mare serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG) to induced ovulation. The concentrations of cyclic AMP, PGE and PGF in the follicular fluid after PMSG treatment but prior to hCG injection were about 1 pmol/ml, 1 ng/ml and 0.2 ng/ml, respectively. After hCG administration, the follicular fluid levels of cyclic AMP increased markedly, reaching a peak (400-fold increase) about 4 h after injection and then declined gradually to pre-hCG levels. A second rise (2.5- to 5-fold increase) occurred about 30 h after hCG with the levels being sustained up to the expected time of ovulation. In contrast, the levels of PGE and PGF remained relatively constant until 28-30 h after hCG treatment. Thereafter, the concentrations of both prostaglandins began to rise with the increases becoming more pronounced and reaching maximal values as the expected time of ovulation approached. These data provide further evidence for a physiological role of follicular prostaglandins in the process of ovulation but do not support an obligatory role for prostaglandins in the acute gonadotropin stimulation of cyclic AMP formation.     

Reduced intrafollicular androstenedione and estradiol levels in early-treated prenatally androgenized female rhesus monkeys receiving follicle-stimulating hormone therapy for in vitro fertilization

Five early-treated and four late-treated prenatally androgenized and five normal female rhesus monkeys were studied to determine whether prenatal testosterone propionate exposure beginning Gestational Days 40-44 (early-treated) or 100-115 (late-treated) affects follicular steroidogenesis during recombinant human FSH (rhFSH) treatment. All monkeys underwent rhFSH injections, without human chorionic gonadotropin administration, followed by oocyte retrieval. Serum FSH, LH, estradiol (E2), progesterone (P), 17alpha-hydroxyprogesterone (17 OHP), androstenedione (A4), testosterone, and dihydrotestosterone were measured basally during rhFSH therapy and at oocyte retrieval. Follicle fluid (FF) sex steroids, oocyte fertilization, and embryo development were analyzed. Circulating FSH, E2, 17 OHP, A4, and dihydrotestosterone levels increased similarly in all females. Serum LH levels decreased from basal levels in normal and late-treated prenatally androgenized females but were unchanged in early-treated prenatally androgenized females. Serum P levels at oocyte retrieval were comparable with those before FSH treatment in all females. All prenatally androgenized females showed reduced FF levels of A4 and E2 but not P or dihydrotestosterone. Intrafollicular T concentrations also were significantly lower in late-treated compared with early-treated prenatally androgenized females or normal females. In early-treated prenatally androgenized females, but not the other female groups, intrafollicular A4 and E2 levels were reduced in follicles containing oocytes that failed fertilization or produced zygotes with cleavage arrest before or at the five- to eight-cell embryo stage. Therefore, in monkeys receiving rhFSH therapy alone without human chorionic gonadotropin administration, early prenatal androgenization reduced FF concentrations of E2 and A4 in association with abnormal oocyte development, without having an effect on P, testosterone, or dihydrotestosterone concentrations.     

Incorporation of a GnRH agonist,leuprolide acetate,into regimens with exogenous gonadotropins to produce ovarian stimulation and ovulation in the nonpregnant squirrel monkey

This study was designed to measure the effects of variations in the length of pretreatment with a GnRH agonist, leuprolide acetate (LA), on subsequent follicular development and ovulation. The hypothesis was that the duration of LA suppression of pituitary function does not adversely affect ovarian response to standardized ovulation induction protocols in squirrel monkeys. The first phase determined the dose and duration of LA needed to achieve a hypogonadal state. One of two groups received daily subcutaneous injections of 50 μg of LA. The other received a single injection of 175 μg of a depot suspension of LA. Sera were assayed for estradiol (E2) and progesterone (P). E2 and P levels increased 2‐ to 5‐fold with peak levels on days 4 and 7, respectively. Suppression of steroid levels took 10 to 15 days in the LA‐treated group. Depot‐LA did not effectively suppress steroid production. After suppression, females receiving daily LA received five daily injections of hMG to stimulate follicular development. E2 and P increased in these animals. These results suggest that cycling squirrel monkeys have P‐secreting capacity throughout the cycle. This may explain how the squirrel monkey is able to accommodate both a short (4–5 day) luteal phase of their 9 day cycle and implantation from 5 to 7 days after ovulation. A second study compared exogenous follicle stimulating hormone (FSH) to endogenous gonadotropins released as a response to LA in ovulation induction. Steroid production and hCG‐induced ovulation were assessed. LA treatment was compared to a standard ovulation induction protocol by using a randomized cross‐over measures design. There were no differences in E2 and P levels in response to dosages of either LA or hMG. The ovulatory response following LA treatment was not significantly greater than that using FSH. The number of animals with unovulated, large follicles was greater on the FSH protocol (12/18) compared to the LA protocol (3/18). Thus, a single injection of a depot preparation of LA is sufficient to stimulate follicular development and ovulation when followed by an hCG injection. Based on this observation and the data on unovulated large follicles, it is suggested that the ovary responds more readily to endogenous gonadotropins released by LA than to exogenous FSH. Am. J. Primatol. 49:153–164, 1999. © 1999 Wiley‐Liss, Inc.     

Effect of FSH and HCG on progesterone secretion by cultured oocyte-cumulus complexes and granulosa cells from porcine antral follicles: Influence of follicular development

Oocyte-cumulus complexes and granulosa cells were harvested from small (1–2 mm), medium (3–5 mm), and large (6–12 mm) porcine antral follicles and cultured for 2 and 3 days. The effects of various doses of purified hCG and human FSH on progesterone secretion and monolayer formation were examined. After a 2-day culture period it was found that FSH was more effective in stimulation of progesterone secretion by cultured oocyte-cumulus complexes than in granulosa cells harvested from small follicles (P < 0.01), whereas hCG was more effective in stimulating progesterone secretion in granulosa cells than in oocytecumulus complexes harvested from large follicles. In contrast, after a 3-day culture period, granulosa cells secreted more progesterone compared to oocytecumulus complexes under control conditions or in the presence of hCG or FSH. After 3 days both FSH and hCG stimulated progesterone secretion by oocytecumulus complexes and granulosa cells; however, the hormone effect was greater upon granulosa cells than oocyte-cumulus complexes. After 3 days of culture in the case of both follicular cell types, there was a greater response to FSH in the case of cells harvested from small compared to large follicles. The reverse was true in the case of hCG responsiveness. Monolayer formation ability of oocyte-cumulus complexes was greater in the case of complexes harvested from small and medium than complexes harvested from large follicles. Addition of hCG to the cultures led to a dose-dependent decrease in monolayer formation by oocyte-cumulus complexes harvested from all sizes of follicles.     

Developmental changes in the ovarian follicular basal lamina detected by immunofluorescence and electron microscopy

Alterations in the basal lamina (BL) of developing follicles were studied by immunofluorescent microscopy using antibodies against type IV collagen, laminin, and fibronectin, and by electron microscopy. Ovarian development was induced in immature rats by sequential administration of estradiol, follicle-stimulating hormone (FSH) and human chorionic gonadotropin (hCG). A continuous BL was observed in healthy follicles treated with estradiol and FSH. As determined by immunofluorescence, laminin, type IV collagen, and fibronectin were restricted to the BL and the theca but not to the granulosa. When follicles were allowed to undergo atresia or induced to ovulate with hCG, the BL became fragmented. This was confirmed by electron microscopy of healthy, atretic, and luteinizing follicles which showed that in healthy follicles the BL was continuous, whereas in both atretic and luteinizing follicles, it was fragmented. Atresia was also associated with the penetration of thecal cells into the follicles. These observations indicate that the intact BL present in healthy follicles undergo extensive changes during atresia and ovulation.