Steroidogenic and morphological characteristics of granulosa and thecal compartments of the differentiating rabbit corpus luteum in culture

On the day after ovulation, the thecal tissue and associated mural granulosa lutein cells of the rabbit corpus luteum were separated from the granulosa lutein 'core' by dissection and these tissues were cultured separately or together (whole corpus luteum) in defined medium for 10 days on stainless-steel grids. The medium was changed completely every 24 h. Replicate tissues were cultured with testosterone (10 ng/ml), but no other hormones were added to the medium. Progesterone production increased during the first 2 days of culture for whole corpus luteum, granulosa lutein cells and the thecal compartment which also included granulosa lutein cells. After 3 days, the production of progesterone declined gradually, but was still detectable on Day 10. The production of the metabolite, 20 alpha-dihydroprogesterone, by whole corpus luteum was equal to or greater than that of progesterone. Without the addition of testosterone, the granulosa lutein cells produced little (10 pg/culture) oestradiol during 1 day of culture, but the thecal compartment and whole corpus luteum each produced about 100 pg/culture on Day 1 and declining quantities over the next 2 days. In the presence of testosterone added to the medium, the formation of oestradiol was greatly increased for all tissues for 5-6 days of culture, after which time oestradiol was no longer detectable with or without testosterone in medium. Transmission electron microscopy of cells after 10-12 days of culture revealed fine structure that is characteristic of luteal cells, including abundant smooth endoplasmic reticulum, lipid droplets, and junctions between the luteal cells. The corpus luteum in culture resembles the corpus luteum in situ in that steroidogenesis and differentiation can proceed for a period after ovulation without extrinsic hormonal stimulation.     

In vitro differentiation of bovine theca and granulosa cells into small and large luteal-like cells: morphological and functional characteristics

This study was undertaken to investigate whether bovine granulosa and theca interna cells could be luteinized in vitro into luteal-like cells. Granulosa and theca cells were cultured for 9 days in the presence of forskolin (10 microM), insulin (2 micrograms/ml), insulin-like growth factor I (100 ng/ml), or a combination of these agents. During the first day of culture, granulosa and theca cells secreted estradiol and androstenedione, respectively; progesterone rose only after 3-5 days in culture and reached a maximum on the ninth day of culture. Cells incubated in the presence of forskolin plus insulin exhibited morphological and functional characteristics of luteal cells isolated from the corpus luteum. It was found that cell diameter, basal and stimulated progesterone secretion, and pattern of cell replication for both cell types were comparable to those of luteal cells. Numerous lipid droplets and intensified mitochondrial adrenodoxin staining also indicated active steroidogenesis in luteinized cells. After 9 days in culture, stimulants were withdrawn, and the culture proceeded in basal medium for an additional 5 days; elevated progesterone levels were maintained by luteinized granulosa cells (LGC), whereas in contrast a dramatic drop in progesterone production was observed in luteinized theca cells (LTC). On Day 9, cells were challenged for 3 h with LH (10 ng/ml), forskolin (10 microM), or cholera toxin (100 ng/ml), resulting in a 4-fold increase in progesterone secretion by LTC; the same treatments failed to stimulate progesterone in LGC.(ABSTRACT TRUNCATED AT 250 WORDS)     

Response of porcine theca and granulosa cells to GH during short-term in vitro culture

In Experiment 1, the influence of exogenous GH on steroid secretion by granulosa and theca interna cells recovered from small (1-3 mm), medium (4-6 mm) and large (8-12 mm) follicles was tested. In the second experiment, theca cells (Tc) and granulosa cells (Gc) obtained from large follicles were cultured separately or in two types, Tc/Gc co-culture, where both types of cells were mixed in one well or Gc and Tc were separated by cell culture membrane inserts. In the third experiment, the influence of GH on the morphology of Gc and Tc cells and activity of Delta(5),3beta-hydroxysteroid dehydrogenase (3beta-HSD) was studied. Cells were grown in the control medium (M199+5% of calf serum) or supplemented with 100 ng/ml GH. Testosterone (10(-7) M) was added as the aromatase substrate to granulosa cells cultures. The media were assayed after 48 h of culture for progesterone and oestradiol by RIA. GH added to the culture media had no effect on oestradiol and progesterone secretion by granulosa cells isolated from small and medium follicles while it stimulated both oestradiol and progesterone secretion by Gc isolated from large preovulatory follicles. A stimulatory effect on oestradiol secretion by Tc isolated from all size follicles was observed. GH did not stimulate progesterone secretion by Tc isolated from small follicles but stimulated progesterone secretion by Tc isolated from medium and large preovulatory follicles. Both co-culture systems exhibited synergistic effect on oestradiol secretion. The stimulatory effect on progesterone secretion under the influence of GH was observed in Gc cultured alone and Tc cultured alone. In contrast, the secretion of progesterone was attenuated in both co-culture systems and the addition of GH further augmented this attenuation. A statistically significant increase in oestradiol secretion was observed in all culture conditions. The addition of GH to the culture medium stimulated the activity of 3beta-HSD compared with the control culture from both types of cells. In conclusion, the present studies indicate that there are direct and follicular development stage dependent actions of GH on steroidogenesis of porcine follicular cells.     

Qualitative and quantitative morphological studies of the cells of the membrana granulosa,theca interna and corpus luteum of the bovine ovary

Summary Ovaries from normal adult dairy cows were obtained at all days of the estrous cycle. The largest Graafian follicle and corpus luteum were excised, prepared for light microscopy, examined morphologically, and quantitations of nuclear sizes were made using a planimetric technique.During the 3–4 days before ovulation, membrana granulosa cells ceased growing in size, and their nuclei decreased in size and frequently appeared pyknotic. Theca interna cells during this time formed two populations: large epithelioid cells with round nuclei, that enlarged significantly, and smaller fibroblast-type cells with spindle-shaped nuclei, that did not enlarge. During the 3–4 days after ovulation, the membrana granulosa cells of the ovulatory follicle and their nuclei enlarged significantly and contributed to the large luteal cell population of the corpus luteum. The spindle-shaped theca interna cells of the ovulatory follicle assumed rounded shapes and, together with some paraluteal and trabecular luteal cells (both, probably, of theca externa origin), contributed to the small luteal cell population of the corpus luteum. The epithelioid theca interna cells of the same follicle dispersed into the ovarian stroma. Eosinophils and mast cells were commonly observed among the theca cells during this time.The observations are interpreted in relation to periestrual ovarian hormone synthesis. It is suggested that the epithelioid theca interna cells during proestrus and estrus may secrete estrogens and that the large luteal cells during diestrus may secrete progesterone.This investigation was supported by a General Research Support Grant to the College of Veterinary Medicine, University of Minnesota, of the United States Public Health Service. Approved for publication as Scientific Journal Series Paper No. 6346, Minnesota Agricultural Experiment Station. The work reported is taken from the senior author's Ph. D. thesis.     

Effects of angiogenin on granulosa and theca cell function in cattle

Angiogenin is a member of the ribonuclease A superfamily of proteins that has been implicated in stimulating angiogenesis but whether angiogenin can directly affect ovarian granulosa or theca cell function is unknown. Therefore, the objective of these studies was to determine the effect of angiogenin on proliferation and steroidogenesis of bovine granulosa and theca cells. In experiments 1 and 2, granulosa cells from small (1 to 5 mm diameter) follicles and theca cells from large (8 to 22 mm diameter) follicles were cultured to evaluate the dose-response effect of recombinant human angiogenin on steroidogenesis. At 30 and 100 ng/ml, angiogenin inhibited (P<0.05) granulosa cell progesterone production and theca cell androstenedione production but did not affect (P>0.10) granulosa cell estradiol production or theca cell progesterone production, and did not affect numbers of granulosa or theca cells. In experiments 3 and 4, granulosa and theca cells from both small and large follicles were cultured with 300 ng/ml of angiogenin to determine if size of follicle influenced responses to angiogenin. At 300 ng/ml, angiogenin increased large follicle granulosa cell proliferation but decreased small follicle granulosa cell progesterone and estradiol production and large follicle theca cell progesterone production. In experiments 5 and 6, angiogenin stimulated (P<0.05) proliferation and DNA synthesis in large follicle granulosa cells. In experiment 7, 300 ng/ml of angiogenin increased (P<0.05) CYP19A1 messenger RNA (mRNA) abundance in granulosa cells but did not affect CYP11A1 mRNA abundance in granulosa or theca cells and did not affect CYP17A1 mRNA abundance in theca cells. We conclude that angiogenin appears to target both granulosa and theca cells in cattle, but additional research is needed to further understand the mechanism of action of angiogenin in granulosa and theca cells, as well as its precise role in folliculogenesis.     

Hormonal requirements for the growth and differentiation of hamster preantral follicles in long-term culture

Preantral follicles from pro-oestrous and oestrous hamsters were isolated enzymically (Stages 1-5) and by microdissection (Stage 6) and cultured for up to 168 h in the absence or presence of 100 ng ovine FSH or LH separately or combined or 1 or 10 micrograms progesterone or estradiol-17 beta in serum-free defined medium and exposed to 1 muCi [3H]thymidine for 24 h before termination. In the presence of insulin and hydrocortisone but not gonadotrophins, the morphology of follicles from pro-oestrous animals at Stages 1-4 (1-4 layers granulosa cells; no theca) were unaffected for up to 48 h whereas for Stages 5 (5-6 layers granulosa cells and developing theca) and 6 (7-8 layers granulosa cells and theca), atresia was prominent by 24 h. FSH significantly reduced the percentage of atretic follicles in Stages 1-5 throughout the culture period; but was effective only up to 96 h for Stage-6 follicles. LH was also effective, albeit to a lesser extent. FSH increased follicular labelling indexes during every 24-h labelling period and, during a pulse-chase period, follicular DNA content and granulosa cell numbers. FSH, but not LH, induced differentiation by 96 h of preantral follicles at Stage 6 into small antral stages (Stages 7-8). FSH and LH together induced almost the same effect as FSH alone. However, neither progesterone nor oestradiol had any significant long-term effects on DNA synthesis and oestradiol induced atresia beyond 24 h. Both FSH and LH induced follicular maturation in vitro as evident from increases in progesterone, androstenedione and oestradiol production. Follicles (Stages 1-4) collected from oestrous hamsters responded to FSH to a lesser extent than did those from pro-oestrous animals, possibly because of in-vivo exposure to periovulatory changes in gonadotrophins; however, an antrum formed in Stage-6 follicles by 72 h.     

Enzyme histochemistry of cultured ovarian cells. III. Histochemical characteristics of bovine granulosa and theca interna cells grown separately in cell culture.

Granulosa and theca interna cells were isolated from bovine preovulatory ovarian follicles. They were cultured separately but in the same conditions of cell culture. Both cell types, grown as monolayers, were investigated histochemically with special regard to the activity of several hydroxysteroid dehydrogenases: delta53betaOH-SDH, 17betaOH-SDH, 20alphaOH-SDH and G6P-DH. Bovine granulosa and theca interna cells during in vitro culture showed high activity of delta53betaOH-SDH and G6P-DH, the enzymes essential to progesterone biosynthesis. Enzyme pattern of cultured cells indicated continuation in vitro of luteinization, which in the normal preovulatory follicle of the bovine ovary begins prior to ovulation. There was investigated as well the influence of single doses of gonadotrophic hormones and estradiol on growth, lipid contents and enzymic activity of cultured in vitro bovine granulosa and theca interna cells.     

Hammond memorial lecture. New concepts of the control of corpus luteum function

Five new concepts concerning the control of corpus luteum function in the cow have been developed in recent years. Prostacyclin (PGI-2) plays a luteotrophic role. Conversely, products of the lipoxygenase pathway of arachidonic acid metabolism, particularly 5 hydroxyeicosatetraenoic acid (5-HETE), play luteolytic roles. Luteal cells arise from two sources. The small luteal cells are all of theca cell origin; the large cells found early in the cycle (Days 2-6) are mainly of granulosa cell origin. However, a population of large cells found after Day 10 of the cycle are of theca cell origin. Oxytocin of luteal cell origin plays a role in development of the corpus luteum and possibly in its regression. The recently described Ca2+-polyphosphoinositol-protein kinase C second messenger system, as well as the LH-cAMP system, is involved in control of progesterone synthesis in the bovine corpus luteum. Progesterone synthesis in the small theca-derived luteal cells is primarily controlled by the cAMP system. However, elevated intracellular calcium diminishes cAMP-mediated progesterone synthesis in these cells. These findings modify our current concepts of the mechanisms of control of progesterone secretion by the corpus luteum and suggest several new lines of research.     

Theca cells and theca-cell conditioned medium inhibit the progression of FSH-induced meiosis of bovine oocytes surrounded by cumulus cells connected to membrana granulosa

The effect of follicular cells and their conditioned media on the FSH-induced oocyte maturation of oocytes surrounded by cumulus cells connected to the membrana granulosa (COCGs) was investigated. COCGs and cumulus oocyte complexes (COCs) were cultured for 22 hr in M199 supplemented with 0.05 IU FSH/ml in either the presence of pieces of theca cell layer or in the presence of pieces of membrana granulosa. COCGs and COCs were also cultured for 22 hr in either theca-cell conditioned medium (CMt) or in granulosa cell conditioned medium (CMg), both supplemented with 0.05 IU FSH/ml. To investigate the importance of cell–cell contacts between granulosa cells and cumulus cells, oocytes were cultured as COCs in CMt, as COCs in CMt supplemented with pieces of membrana granulosa, or as COCGs in CMt. In all groups the medium was supplemented with 0.05 IU FSH/ml. After culture the nuclear status of the oocytes was assessed using orcein staining. Culture of COCGs in the presence of theca cells as well as in CMt resulted in a significantly decreased proportion of oocytes that had undergone germinal vesicle breakdown (GVBD) at the end of the culture period as compared to the control. Of the oocytes that resumed meiosis in the presence of theca cells or in CMt, the proportion of oocytes that progressed up to the MII stage was significantly reduced. This indicates the production of a meiosis-inhibiting factor by theca cells. Culture with COCs instead of COCGs resulted in comparable results although the effect was less pronounced. The significant effect on the progression of meiosis of oocytes cultured as COCGs or as COCs, obtained in the presence of granulosa cells or in CMg, was much weaker than the effect of theca cells or culture in CMt. Culture of COCs in CMt supplemented with layers of membrana granulosa and 0.05 IU FSH/ml, resulted in significantly less oocytes that resumed meiosis as compared to culture of COCs in CMt. Of the oocytes that showed GVBD, the proportion that progressed up to the MII stage was significantly reduced. Attachment of the COCs to the membrana granulosa enhanced this inhibiting action of CMt on the progression of meiosis. It is concluded that theca cells secrete a stable factor that inhibits the progression of FSH-mediated meiosis in oocytes of COCGs. Mol. Reprod. Dev. 51:315–321, 1998. © 1998 Wiley-Liss, Inc.     

Paracrine effects of oocyte secreted factors and stem cell factor on porcine granulosa and theca cells <Emphasis Type="Italic">in vitro</Emphasis>

Oocyte control of granulosa and theca cell function may be mediated by several growth factors via a local feedback loop(s) between these cell types. This study examined both the role of oocyte-secreted factors on granulosa and thecal cells, cultured independently and in co-culture, and the effect of stem cell factor (SCF); a granulosa cell derived peptide that appears to have multiple roles in follicle development. Granulosa and theca cells were isolated from 2–6 mm healthy follicles of mature porcine ovaries and cultured under serum-free conditions, supplemented with: 100 ng/ml LR3 IGF-1, 10 ng/ml insulin, 100 ng/ml testosterone, 0–10 ng/ml SCF, 1 ng/ml FSH (granulosa), 0.01 ng/ml LH (theca) or 1 ng/ml FSH and 0.01 ng/ml LH (co-culture) and with/without oocyte conditioned medium (OCM) or 5 oocytes. Cells were cultured in 96 well plates for 144 h, after which viable cell numbers were determined. Medium was replaced every 48 h and spent medium analysed for steroids.     

Greatly elevated and sustained secretion of oxytocin by bovine granulosa cells in serum-free culture

Bovine granulosa cells were cultured in collagen (Vitrogen 100)-pretreated wells using defined medium to study the secretion of oxytocin and progesterone under serum-free conditions. Secretion of oxytocin began spontaneously after the first day and was maintained at a high level during a 1 week culture period. Addition of serum to the medium reduced oxytocin concentrations by up to 90%. There were positive exponential relationships between oxytocin and progesterone concentrations and the inoculated cell density (range, 1.67 to 23.4 X 10(5) cells/ml/well). The results indicate that neither serum nor gonadotrophins are required for in vitro differentiation of bovine granulosa cells and that addition of serum may attenuate subsequent hormone secretion. This culture system should provide a better in vitro model for the study of ovarian oxytocin secretion than those previously described.     

Changes in the gene expression of adiponectin and adiponectin receptors (AdipoR1 and AdipoR2) in ovarian follicular cells of dairy cow at different stages of development

Adiponectin is one of the most important, recently discovered adipocytokines that acts at various levels to control male and female fertility through central effects on the hypothalamus-pituitary axis or through peripheral effects on the ovary, uterus, and embryo. We studied simultaneous changes in the gene expression pattern of adiponectin and adiponectin receptors 1 and 2 (AdipoR1 and AdipoR2) in granulosa and theca cells, cumulus-oocyte complex, and in corpus luteum in healthy bovine (Bos tarus) follicles at different stages of development. The expression levels of adiponectin, AdipoR1, and AdipoR2 mRNA were lower (P < 0.05) in granulosa and cumulus cells in comparison with that in theca cells and oocyte. In contrast with the oocyte, AdipoR1 in granulosa, theca, and luteal cells was expressed (P < 0.05) more than AdipoR2. Adiponectin expression increased (P < 0.05) in granulosa cells and in cumulus-oocyte complex during follicular development from small to large follicles. Opposite results were observed in theca cells. Expression of adiponectin was highest in the late stages of corpus luteum (CL) regression, whereas lower expression was recorded in active CL (P < 0.05). AdipoR1 and AdipoR2 expression increased during the terminal follicular growth in granulosa and theca cells (P < 0.05) and during the luteal phase progress in CL. There was positive correlation between adiponectin mRNA level in granulosa cells from large follicles and follicular fluid estradiol concentration (r = 0.48, P < 0.05) and negative correlation between adiponectin mRNA abundance in theca cells and follicular fluid progesterone concentration (r = -0.44, P < 0.05). In conclusion, we found that the physiologic status of the ovary has significant effects on the natural expression patterns of adiponectin and its receptors in follicular and luteal cells of bovine ovary.     

Differential regulation of pig theca cell steroidogenesis by LH, insulin-like growth factor I and granulosa cells in serum-free culture

The regulation of pig theca cell steroidogenesis was studied by the development of a physiological serum-free culture system, which was subsequently extended to investigate potential theca-granulosa cell interactions. Theca cells were isolated from antral follicles 6-9 mm in diameter and the effects of plating density (50-150x10(3) viable cells per well), LH (0.01-1.0 ng ml(-1)), Long R3 insulin-like growth factor I (IGF-I) (10, 100 ng ml(-1)) and insulin (1, 10 ng ml(-1)) on the number of cells and steroidogenesis were examined. The purity of the theca cell preparation was verified biochemically and histologically. Co-cultures contained 50x10(3) viable cells per well in granulosa to theca cell ratio of 4:1. Wells containing granulosa cells only were supplemented with 'physiological' doses of androstenedione or 100 ng ml(-1). Oestradiol production by co-cultures was compared with the sum of the oestradiol synthesized by granulosa and theca cells cultured separately. Oestradiol and androstenedione production continued throughout culture. High plating density decreased steroid production (P < 0.01). LH increased androstenedione (P < 0.001) and oestradiol (P < 0.05) synthesis and the sensitivity of the cells increased with time in culture. Oestradiol production was increased by 10 ng IGF-I ml(-1) (P < 0.001) but androstenedione required 100 ng ml(-1) (P < 0.001). Co-cultures produced more oestradiol than the sum of oestradiol synthesized by theca and granulosa cells cultured separately (P < 0. 001), irrespective of the androstenedione dose. This serum-free culture system for pig theca cells maintained in vivo steroidogenesis and gonadotrophin responsiveness. Thecal androstenedione and oestradiol production were differentially regulated and were primarily stimulated by LH and IGF-I, respectively. Theca-granulosa cell interactions stimulated oestradiol synthesis and this interaction was mediated by factors additional to the provision of thecal androgen substrate to granulosa cells.     

Morphological assessment of the effect of growth hormone on preantral follicles from 11-day-old mice in an in vitro culture system

The present study was carried out to verify that the cells attached to the outside of the basement membrane of mechanically isolated follicles are theca cells and to evaluate the effect of growth hormone (GH) on these cells. Preantral follicles, 100-140 micrometer in diameter, were mechanically isolated from 11-day-old BDF1 hybrid immature mice, divided randomly into two groups, and cultured in vitro. One group was treated with 0.1% collagenase immediately after mechanical isolation in an attempt to remove theca cells attached to the outside of the basement membrane. The other group was untreated. Morphological examination revealed that 86.1% of mechanically isolated follicles before collagenase treatment had at least one theca cell around the basement membrane on the single section. However, after collagenase treatment no theca cells remained on the basement membrane of the follicles. Androstenedione secretion as a result of stimulation by 100 ng/ml hCG was significantly higher in the culture medium of the follicles with theca cells than in those of collagenase-pretreated follicles (p < 0.0001), indicating that the cells attached to the outside of the basement membrane were actually functional theca cells, not interstitial cells. To elucidate the effect of GH on theca cells, preantral follicles cultured in the presence of 1.0 mIU/ml GH were morphologically examined. Preantral follicles mechanically isolated from immature mice showed significant proliferation of not only granulosa cells but also theca cells in the presence of GH. In particular, theca cells, which remained dotted on the basement membrane in a small number just after isolation, proliferated and finally formed complete layers after the culture with GH. This is the first report that GH induced the proliferation of theca cells to form morphologically complete layers around the preantral follicle from 11-day-old mice.     

Follicle-stimulating hormone stimulated differentiation and progesterone production of bovine granulosa cells in culture

Progesterone production of granulosa cells cultured in vitro is stimulated and cell differentiation increased, by follicle-stimulating hormone (FSH). This study examined whether the increased progesterone production observed when bovine granulosa cells are cultured occurs because (1) progesterone production by undifferentiated and/or differentiated cells is increased or (2) the differentiation of granulosa cells is stimulated. Viable bovine granulosa cells (2−3×10⁵) from follicles 5–8 mm in diameter were cultured in the presence of 0, 1, 10 and 100 μu FSH (1 μu ≡ 1 μg NIH-FSH-S1) for 6 days at 37°C in a humidified atmosphere of 5% CO₂ in air in 1 ml of a 1:1 mixture of Dulbecco's modified Eagle medium: Ham's F10 medium supplemented with 365 μg ml⁻¹ l-glutamine, 100 U ml⁻¹ penicillin and 100 μg ml⁻¹ streptomycin. Progesterone production, total DNA and protein, and cell diameter were determined sequentially over the culture period. The increases in progesterone production (ng μg⁻¹ DNA per 24 h), cytoplasmic:nuclear ratio (μg protein μg⁻¹ DNA) and cell diameter (μm) over 6 days culture indicated that granulosa cells underwent differentiation in the presence of FSH. Progesterone production of undifferentiated granulosa cells (diameter 14 μm or less) was stimulated by FSH (P < 0.01) in a dose dependent manner (1.0±0.2, 2.9±0.3, 3.7±0.3 and 4.9±0.4 ng μg⁻¹ DNA per 24 h for 0, 1, 10 and 100 μu ml⁻¹ FSH respectively) but remained constant within dose (P > 0.05) during a 6 day culture period. FSH stimulated (P < 0.05) the rate of granulosa cell differentiation (10±3%, 53±13%, 74±21% and 82±10% differentiating cells per well for 0 μu, 1 μu, 10 μu and 100 μu ml⁻¹ FSH respectively) but did not stimulate (P > 0.05) progesterone production by differentiating granulosa cells (8.7±0.5 ng μg⁻¹ DNA per 24 h). In conclusion, the increase in progesterone production of FSH-stimulated granulosa cells cultured in vitro appears to be mainly due to an increase in the number of differentiating cells with a constant rather than an increasing progesterone production per cell.     

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.     

Changes in the distribution of tenascin and fibronectin in the mouse ovary during folliculogenesis, atresia, corpus luteum formation and luteolysis

Tenascin and fibronectin are components of the extracellular matrices that oppose and promote adhesion, respectively. Using immunohistochemical techniques, we studied the distribution of tenascin and fibronectin in the mouse ovary, in which dynamic reconstruction and degeneration occur during folliculogenesis, atresia, ovulation, corpus luteum formation and luteolysis. In growing follicles, tenascin was only detected in the theca externa layer, while fibronectin was detected in the theca externa layer, theca interna layer and basement membrane. During follicular atresia, granulosa cells, which are surrounded by the basement membrane, began to die through apoptosis. In atretic follicles, tenascin was detected in the basement membrane and theca externa layer. Distribution of fibronectin in atretic follicles was similar to that in healthy growing follicles, except that granulosa cells were slightly immunopositive for fibronectin. In young corpus luteum, luteal cells exhibit high 3 beta -hydroxysteroid dehydrogenase (3 beta -HSD) activity, an enzyme indispensable for progesterone production. Tenascin was barely detected in young luteal cells. 3 beta -HSD activity in luteal cells declines with corpus luteum age, and in older corpus luteum there is an increase in apoptotic death of luteal cells. Tenascin was intensely immunopositive in old luteal cells.In contrast, fibronectin immunostaining in luteal cells was relatively constant during corpus luteum formation and luteolysis. Our observations suggest that tenascin is critical in controlling the degenerative changes of tissues in mouse ovaries. Moreover, in all circumstances observed in this study, tenascin always co-localized with fibronectin, suggesting fibronectin is indispensable for the function of tenascin.     

PGE2 and dibutyryl-cAMP enhance the response of rat granulosa cells to FSH

Granulosa cells isolated from immature Sprague-Dawley rat ovaries produce progesterone (31.7 pg/μg cell protein) in response to an acute FSH stimulus (5 μg/ml NIH-FSH-S11, 2 h). After culture for 48 h in the absence of hormones (control culture), progesterone production by the granulosa cells in response to FSH is significantly reduced (2.9 pg/μg cell protein). Cells cultured with prostaglandin E₂ (PGE₂, 1 μg/ml) or dibutyryl-cAMP (dbcAMP, 1 mM) exhibited a discernibly greater steroidogenic response to FSH (12.5 and 53.4 pg/μg cell protein, respectively) than that of control cultures. Therefore the presence of PGE₂ or dbcAMP in the culture medium helps to maintain the steroidogenic capacity of granulosa cells in culture. It is probable that this capacity is maintained at a locus distal to the production of cAMP by FSH.Paradoxically, granulosa cells cultured with PGE₂ produce less cAMP in response to FSH stimulation than cells in control cultures (15.9 250.3 fm/μg cell protein). This may be due to a suppressive effect of prior exposure to PGE₂ on the subsequent activity of adenylate cyclase when the FSH is introduced and a concomitant elevation of phosphodiesterase activity.     

Production of prostacyclin by different cell types of the goat ovary

A sensitive platelet aggregation-inhibition assay was used to quantitate the production of prostacyclin by different cell types of the goat ovary. The assay could detect as low as 0.16 ng in the test sample. Different cell types i.e. granulosa, theca and corpus luteum or the total ovarian homogenate were incubated at 37° C for 10 minutes with or without 0.2mM arachidonic acid. Rat aortic strips were incubated under similar conditions as a positive control. Under basal conditions the amount of prostacyclin produced by corpus luteum cells was higher compared to that by granulosa cells. When the precursor of prostaglandins (arachidonic acid) was provided the production markedly increased in corpus luteum, granulosa, and ovarian homogenate as well as in aortic strips. Theca cells did not produce detectable levels of prostacyclin even when the precursor was provided. Trapidil did not alter the basal but enhanced the archidonic acid-stimulated prostacyclin production in homogenate and granulosa cells with no further increase in corpus luteum cells. U-51605 decreased basal as well as arachidonic acid-stimulated prostacyclin production in all the cell types. The prostacyclin production in ovaries is compartmentalized suggesting a possible role in ovarian physiology.     

Response to gonadotropic stimulation of cultured rat luteal cells isolated from corpora lutea of early pregnancy. Cytochemical and biochemical studies

The hormonal activity of corpora lutea isolated from pregnant rat was examined on 1, 2, 3, 4, 5, 6, 15, and 20th day of pregnancy. The cells were grown as a monolayers up to 6 days at 37 degrees C in Medium 199 supplemented with 10% calf serum. The concentrations of progesterone and estrogens were measured using appropriate radioimmunoassays [1, 7] respectively. Luteal cells were cultured with the addition of the following amounts of hormones: 100 ng LH, 10 i.u. HCG, 100 ng PRL and 150 ng estradiol 17 beta. Cytochemical and histochemical observation of the activity of delta 5, 3 beta-hydroxysteroid dehydrogenase (delta 5, 3 beta-HSD) were also carried out. The addition of LH and HCG to culture medium of cells collected on day 1 and 2 of pregnancy caused increased histochemical reaction for delta 5, 3 beta-HSD and progesterone secretion. It was only on day 3 of pregnancy that the influence of PRL was observed. On day 4 corpus luteum cells began to respond to exogenous estradiol. On day 5 the sensitivity of corpus luteum to exogenous hormones disappeared but the intensive hormonal activity of the corpus luteum marked by the high level of progesterone, was maintained.