Sequential changes associated with the degeneration of preovulatory rat follicles.

In 26-day-old rats, follicles capable of ovulation were present 48 h after PMSG injection and they degenerated if not exposed to an ovulating dose of HCG. In such follicles 125I-labelled LH bound to the thecal and granulosa cells. By 60 h after PMSG, LH binding to the granulosa cells was reduced by 46% although these follicles retained their ability to ovulate. LH binding to the granulosa cells was lost in most follicles by 72 h and ovulation could not be induced. The thecal cells still possessed LH binding sites at 72 h after PMSG. HCG stimulation of these follicles resulted in disruption of the granulosa and the invasion of blood cells into the antrum.     

Effect of gonadotrophins and testosterone on the seminiferous tubules of the immature rat.

The actions of HCG and PMSG for different periods and of testosterone of the immature rat testis were studied. Short-term administration of HCG (1-3 days) induced an early meiotic and postmeiotic stimulatory effect but a decrease in spermatogonial numbers. Administration of HCG for longer periods (10 days) caused a reduction in numbers of all cell types. Treatment with HCG + PMSG reduced the amount of inhibition, while PMSG alone resulted in histological and humoral signs of stimulation of the interstitial tissue and the meiotic and postmeiotic stages; the numbers of spermatogonia were not affected. Testosterone caused stimulation of the meiotic and postmeiotic stages and a reduced number of spermatogonia. It is concluded that while PMSG directly stimulates spermatogonia, HCG acts through testosterone secretion at the meiotic and postmeiotic stages. The early inhibitory effects of HCG and testosterone on spermatogonial numbers could be ascribed to the inhibition of endogenous FSH by androgens.     

Apolipoprotein-E messenger RNA in rat ovary is expressed in theca and interstitial cells and presumptive macrophage, but not in granulosa cells.

Apolipoprotein-E (apoE) is a constituent of various lipoproteins and is a ligand for cellular lipoprotein receptors. Unlike most apolipoproteins, apoE is synthesized in peripheral tissues, including those engaged in steroidogenesis. ApoE expression in adrenal cells inhibits cholesterol utilization for steroid synthesis and blocks signal transduction via the protein kinase-A pathway. In cultured ovarian thecal/interstitial cells, exogenous apoE has been shown to inhibit LH-induced androgen synthesis. These findings support a role for apoE as an autocrine or paracrine factor involved in regulating steroidogenesis. In the present study in situ hybridization was used to identify cell types that express apoE mRNA in ovaries from rats with a 4-day estrous cycle, from pregnant rats, from immature rats treated with PMSG to stimulate follicular development, and from PMSG-treated rats that were subsequently administered hCG to stimulate ovulation and luteinization. ApoE mRNA was localized to theca and interstitial cells of follicles in animals at all stages of the estrous cycle as well as in immature rats treated with PMSG. ApoE mRNA was not detected in oocytes, cumulus cells, or granulosa cells. High levels of apoE mRNA also were expressed by localized clusters of presumptive macrophages in atretic follicles and degenerating corpora lutea. This complex pattern of expression may indicate that apoE has multiple functions in the rat ovary. ApoE made by theca and interstitial cells may act locally as an autocrine factor to regulate androgen production. ApoE made in atretic follicles and regressing corpora lutea may serve to facilitate local transport and reutilization of lipid released as these structures degenerate.     

In vitro binding of 125I-HCG to the rat ovary from birth to puberty

Summary Neither homogenates nor frozen ovarian sections of rats aged 1, 5 and 7 days demonstrated specific binding of ¹²⁵I-HCG. However, from day 10 to day 35, the homogenates could bind specifically, with an equilibrium association constant in the range of 0.9–2.7 × 10¹⁰ M^–1. The binding capacity increased from 5.8 fmol/mg tissue at day 10 to 15.7 fmol/mg tissue at day 35.As revealed by autoradiography, the frozen ovarian sections from 10-day-old rats showed ¹²⁵I-HCG binding localized over the interstitial and thecal tissues and, in the older age groups, also in the granulosa cells of follicles larger than 500 m in diameter.These results indicate that LH/HCG receptors appear in the rat ovary at the beginning of the second postnatal week, and that the interstitial cells are the main site of action of LH before puberty.     

Gonadotropin regulation of rat ovarian lysosomes: Existence of a hormone specific dual control mechanism

Gonadotropic hormones PMSG (15 IU/rat), FSH (3 g/rat), LH (9 g/rat) and hCG (3 g/rat) were shown to decrease the free cytosolic lysosomal enzymes during the acute phase of hormone action in rat ovaries. When isolated cells from such rats were analyzed for the cathepsin-D activity, the granulosa cells of the ovary showed a reduction in the free as well as in the total lysosomal enzyme activities in response to FSH/PMSG; the stromal and thecal compartment of the ovary showed a reduction only in the free activity in response to hCG/PMSG. The results suggest the presence of two distinct, target cell specific, mechanisms by which the lysosmal activity of the ovary is regulated by gonadotropins.Abbreviations PMSG pregnant mare serum gonadotropin - FSH follicle stimulating hormone - LH luteinizing hormone - hCG human chorionic gonadotropin - GC granulosa cells - S/T stromal and thecal cells     

Direct ovarian effects of a GnRH agonist in hypophysectomized immature rats: inhibition of theca-interstitial luteinizing hormone receptor mRNA expression and induction of interstitial cell differentiation

The effect of a gonadotropin-releasing hormone (GnRH) agonist on luteinizing hormone (LH) receptor mRNA expression was examined histologically in the ovaries of immature hypophysectomized (HPX) rats by in situ hybridization. In the ovaries of HPX rats treated with diethylstilbestrol (DES) and pregnant mare serum gonadotropin (PMSG), LH receptor mRNA was expressed in the granulosa cells of mature follicles as well as the theca-interstitial cells. In DES-primed ovaries of rats treated with both GnRH agonist plus PMSG, many follicles were luteinized without ovulation, and the signal of LH receptor mRNA disappeared completely in the theca-interstitial cells as well as the luteinized cells, but remained in the granulosa cells of unaffected mature follicles. The complete suppression of the theca-interstitial LH receptor expression by GnRH agonist was also observed in HPX rats that received no other treatment. On the other hand, the coadministration of a GnRH antagonist with PMSG resulted in the hyperstimulation of follicular growth, accompanied by very strong expression of LH receptor mRNA in the granulosa cells as well as the thecainterstitial cells. In addition, morphological changes in the ovarian interstitial cells were also induced by the administration of GnRH agonist in HPX rats: loose connective tissue decreased and the interstitial cell mass markedly increased. The increase of the interstitial cells became more prominent when rats were treated with GnRH agonist and testosterone simultaneously. These results suggest that GnRH may be an important factor for modulating the interstitial cell function and differentiation in the rat ovary.     

Effect of luteinizing hormone on RNA synthesis in Leydig cells of immature rats

Luteotrophic hormone acts on testicular interstitial cells, promoting the activation of several cellular events that culminate in steroids synthesis. Since the interstitial tissue include several cell types, purified Leydig cells were used in this work. Isolated interstitial cells from immature rats were purified through a 0-40% metrizamide gradient. Either LH, HCG or Bt2-cAMP significantly stimulated the incorporation of [3H]uridine into RNA, when compared to control. The effect of HCG on RNA synthesis was developed within 30 min after the addition of the hormone and was dose-dependent. The maximum effect was attained with 10 mIU/ml of HCG. These results indicate that HCG/LH or Bt2-cAMP but not FSH, promote an acute stimulation of RNA synthesis by Leydig cells from immature rats.     

The binding of FSH, LH and PMSG to equine gonadal tissues.

Gonadotrophin-receptor binding studies involving the use of 125I-labelled highly purified FSH and LH have shown that equine gonadal tissues possess similar numbers of specific FSH and LH receptors per cell as the gonadal tissues of other mammals. However, while rat, cow and pig gonadal tissues were shown to bind as much 125I-labelled PMSG as 125I-labelled LH on a molar basis, the equivalent equine tissues bound only less than or equal to 4% as much of the labelled PMSG as LH. Competitive binding studies involving the use of radioreceptor assay techniques have further demonstrated that the small but significant degree of PMSG binding which does take place to equine tissues occurs at LH receptors and not at receptors specific for PMSG. The binding of PMSG to equine FSH receptors was negligible. These results suggest that PMSG (1) binds to equine LH receptors with about one-tenth the affinity of that observed with LH receptors of other species and (2) does not appear to bind specifically to equine FSH receptors. This would possibly explain the apparent refractoriness of mares' ovaries to exogenous and endogenous OMSG.     

Selective release of follicle-stimulating hormone and luteinizing hormone by 5 alpha-dihydroprogesterone and 3 alpha, 5 alpha-tetrahydroprogesterone in pregnant mare's serum gonadotropin-primed immature rats exposed to constant light

The effects of 5 alpha-dihydroprogesterone (5 alpha-DHP) and 3 alpha, 5 alpha-tetrahydroprogesterone (3 alpha, 5 alpha-THP) on follicle-stimulating hormone (FSH) and luteinizing hormone (LH) release were examined in the pregnant mare's serum gonadotropin (PMSG)-primed immature female rat (8 IU PMSG at 28 days of age) maintained in constant light. Control rats kept in 14L:10D conditions exhibited proestrous-like surges of LH and FSH release with peak levels attained at 1800 h on the second day after PMSG treatment. In rats exposed to constant light, the PMSG-induced surges of LH and FSH were not only delayed until 1000 h on the third day after PMSG, resulting in a delay in ovulation, but were also significantly attenuated when compared to the gonadotropin surges that occurred on Day 2 in rats kept under normal light-dark conditions. The administration of 5 alpha-DHP significantly enhanced the release of FSH at 1000 h on Day 3 when compared to constant light-exposed controls, but had no effect on LH. Treatment with 3 alpha, 5 alpha-THP selectively potentiated the release of LH at 1000 h on Day 3 and had an attenuating effect on FSH release on Days 2 and 3. These observations confirm earlier findings in the immature ovariectomized estrogen-primed rat and suggest that 5 alpha-DHP and 3 alpha, 5 alpha-THP may have significant roles in the regulation of FSH and LH secretion.     

Luteinizing hormone,progesterone and the morphological development of normal and superovulated corpora lutea in sheep

The development of granulosa-lutein cells was studied in 27 normal and 32 superovulated ewes between days 0-4(day 0 began with the preovulatory LH peak in normal animals and the HCG injection in superovulated ewes). The pattern of differentiation was similar in both groups. Following initial hormonal stimulation (0-12 hours after LH or HCG), granulosa cells were approximately 100 mu2 and contained small, pleomorphic nuclei with large amounts of clumped chromatin. Elongate cells lining the basement membrane possessed large, heterogeneous dense bodies, and a well-developed Golgi apparatus. Mitotic figures were observed up to 6 hours prior to ovulation. Sixteen to 20 hours following the LH surge or HCG injection, hypertrophy of granulosa cells was evident. Nuclei contained definitive nucleoli. Blood vessels in the theca interna were abundant and highly dilated. Ovulation occurred approximately 24 hours after the LH peak or HCG injection. Visible signs of luteinization were evident 6-12 hours after ovulation. A slight increase in serum progesterone levels was detected. The second post-ovulatory day was characterized by continuing hypertrophy of granulosa cells and extensive proliferation of smooth endoplasmic reticulum and mitochondria. Nuclei of granulosa cells were larger and possessed extremely large nucleoli. Numerous mitotic figures were apparent within the corpus luteum. Serum progesterone concentrations began increasing at 60-72 hours after hormone stimulation. By the end of the third post-ovulatory day, the corpus luteum consisted of large, pleomorphic, parenchymal cells, interspersed between capillaries and connective tissue elements. Only an occasional mitotic figure was apparent within the corpus luteum at 100 hours. Light microscopic autoradiography of 5, 10, and 15 day corpora lutea taken from ewes pulsed with 3H thymidine at specific times before and after ovulation revealed that granulosa cells did not undergo secondary mitoses following ovulation. In contrast, thecal, mesenchymal and endothelial cells did mitose on day 3.     

Effects of gonadotrophin on the ovary of Apodemus flavicollis in winter anoestrus

Wild-caught female Apodemus flavicollis were given daily subcutaneous injections of PMSG + HCG on two consecutive days (2xPMSG + HCG), HCG on two days (2 X HCG), PMSG + HCG until their vagina became perforate (Perforate), and PMSG + HCG until they became perforate and were left undisturbed for another five days (Perforate + 5). Untreated females served as controls. The ovaries and uteri increased in weight as a result of the treatment. The number of healthy follicles increased in "perforate" females and decreased in "2 X HCG". Luteinization of the follicles and possibly of the interstitial tissue was seen in "2 X HCG". In this group, the mean diameter of the corpora lutea increased, and it decreased in "perforate" and "perforate + 5". The mean number of corpora lutea was unaffected by the treatment. The activity of 3 beta hydroxysteroid dehydrogenase (3 beta HSD) was strong in the corpora lutea of the untreated females and remained so throughout treatment. The interstitial tissue of the untreated females showed only weak 3 beta HSD activity, but the activity was strong in all the experimental groups. One female ovulated, but it is not clear if it was in response to treatment.     

Fibrinolytic activity in ovaries of rats and golden hamsters after gonadotrophic stimulation and hypophysectomy

The fibrinolytic activity (FA) in immature ovaries of rats was compared with that of golden hamsters on days 3 and 4 after stimulation with pregnant mares' serum gonadotrophin (PMSG). In addition, FA of immature PMSG-stimulated rats was compared with that of adult rats 18 days after hypophysectomy. By means of the fibrin slide method, FA was localized in serial sections and evaluated semiquantitatively. On PMSG day 3, FA occurred in preovulatory follicles and developing corpora lutea. On PMSG day 4, FA was mostly localized in medullary vessels. This was also the case for hypophysectomized rats. While both species showed a comparably high FA on PMSG day 3, hamsters had a lower FA than rats on PMSG day 4. Similar low FA values were obtained in hypophysectomized rats. Non-vascular FA localization may be attributed to granulosa and thecal cells of preovulatory follicles and to luteinizing cells of developing corpora lutea. Vascular FA localization is ascribed to capillary sprouting in these two structures and to medullary vessels.     

Inability of exogenous luteinizing hormone to accelerate maturation of oocytes from gonadotrophin-treated immature rats

Immature rats, aged 27 days, were stimulated to develop preovulatory follicles by subcutaneous injection of 15 IU of pregnant mare serum gonadotrophin (PMSG). Two days later their oocytes were collected. They were cultured under conditions that permitted continuous observation. Times of the initial stages of maturation were carefully noted, in the absence and the presence of 10 μg/ml of bovine luteinizing hormone (LH). LH did not accelerate germinal vesicle disappearance. It was concluded that the immature PMSG-treated rat was not an appropriate model for the study of LH action; it was speculated that persistence of PMSG mimicked LH in all the oocytes from such donors.     

Immunohistochemical localization of ornithine decarboxylase in the rat ovary

Summary The present report describes the immunocytochemical localization of ornithine decarboxylase in the prepubertal rat ovary after administration of human chorionic gonadotropin (HCG). Numerous ornithine decarboxylase immunoreactive cells appeared in the thecal layer as well as in the interstitial gland tissue after treatment with HCG. The granulosa cells, the ovum and the ovarian stroma were devoid of immunoreactive ornithine decarboxylase. In contrast to the ovary of HCG-treated rats, the ovary of prepubertal rats given the vehicle alone contained only a few weakly immunoreactive cells.     

Immunocytochemical and biochemical studies on the localization and changes of 17 alpha-hydroxylase/C17-C20 lyase activity in immature rat ovary treated with PMSG and hCG

The localization of cytochrome P-450 of 17 alpha-hydroxylase/C17-C20 lyase (P-450(17 alpha, lyase] and the changes of the enzyme activity were studied immunocytochemically and biochemically in the ovaries of immature rats treated with PMSG (pregnant mare serum gonadotropin) and hCG (human chorionic gonadotropin). Immunocytochemically, P-450(17 alpha, lyase) was localized in both the theca interna cells and interstitial gland cells of the ovaries of immature rats treated with PMSG for 48 h. After hCG administration, the immunoreactive cells rapidly decreased in number in the PMSG-pretreated rat ovary. Namely, 6 h after the hCG injection, positive staining for P-450(17 alpha, lyase) was recognized only in a few theca interna cells, while 12 h after the injection to immunostained cells were detected in the ovary. Forty-eight hours after the hGC treatment (96 h after the PMSG injection), most of the theca interna cells and the interstitial gland cells became immunopositive for P-450(17 alpha, lyase) again. The 17 alpha-hydroxylating activity of P-450(17 alpha, lyase) was 0.5, 0.22 and 0.03 nmol/min/mg protein in the ovarian microsomes of PMSG-treated, PMSG + hCG(3 h)-treated and PMSG + hCG(6 h)-treated rats, respectively. Changes of the hydroxylase activities in all the experimental groups are almost parallel to those of P-450 contents in the microsomes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ultrastructural changes of pituitary gonadotropic cells in estrogen-treated pregnant rats

Summary An ultrastructural study of gonadotropic pituitary cells was performed in estrogen-treated pregnant rats. Estradiol-treatment on Day 10 of pregnancy led to signs of ovulation or luteinization on Day 12 in 50% of the animals.Degranulation was observed in the FSH and LH cells of estrogen-responsive rats, whereas in the unresponsive group, the same cells were intensely granulated. The FSH cells of the control group showed signs of degranulation which could be correlated with follicular development. LH cells were sometimes degranulated.The role played by FSH and LH cells in the triggering of ovulation and luteinization by estrogen in the pregnant rat is discussed in the light of the ultrastructural observations.This work was financed by the DGRST, contract n^o 74.7.0030The authors wish to acknowledge the technical assistance of Mr. R. Dujol and Mr. F. Wolff     

Immunoreactive cytochrome P-450(17 alpha) in rat and guinea-pig gonads, adrenal glands and brain.

The cytochrome P-450(17 alpha)-hydroxylase, 17----20 lyase (P-450(17 alpha)) is the key enzyme responsible for the biosynthesis of androgens in steroidogenic organs. Its cellular localization has been examined with an immunohistochemical technique. In immature rat ovary, P-450(17 alpha) was first detected in sparse interstitial cells on postnatal Day 8. The number of immunoreactive interstitial cells increased thereafter and the intensity of P-450(17 alpha) staining in these cells was highest at 3 weeks of age. The intensity of staining then started to decline and was very faint at Day 35. From 6 weeks on, the distribution of immunoreactive P-450(17 alpha) was of the adult type: it was detected exclusively in the thecal cells of the large antral, preovulatory, follicles. P-450(17 alpha) was not detectable during pregnancy except on the day of parturition, when thecal cells were transiently immunoreactive. The staining had vanished 24 h after delivery. Human chorionic gonadotrophin (hCG), injected into immature females on Days 24 to 26, induced P-450(17 alpha) prematurely in thecal cells. When injected on Days 12 to 14 of pregnancy, hCG also induced P-450(17 alpha) in the thecal cells surrounding the largest follicles, whereas the interstitial and luteal cells were not immunostained. The antiprogestin RU486, injected on Day 16 of pregnancy, reinstated P-450(17 alpha) (and P-450scc) immunoreactivity in the thecal cells. Oestradiol selectively suppressed P-450(17 alpha) expression in the thecal cells of RU486-treated females. In immature guinea-pig ovary, P-450(17 alpha) was immunostained in thecal cells, not in interstitial cells, although the interstitial cells expressed the delta 5-3 beta-hydroxysteroid dehydrogenase. P-450(17 alpha) was also immunolocalized in the Leydig cells of rat and guinea-pig testes, and in the guinea-pig adrenal cortex (zonae fasciculata and reticularis), but not in the rat adrenal cortex. P-450(17 alpha) was not detectable in the brain of either rat or guinea-pig.