The influence of blood cells and PDGF on porcine theca cell function in vitro

The role of red and white blood cells in the regulation of porcine theca cell function is poorly understood. Interactions between these cell types and a potential mediator of any interaction, PDGF, were investigated using a serum-free culture system. Theca cells were collected from 6-9mm antral follicles and plated at 50x10(3) viable cells/well. In the first experiment, macrophages were removed and theca cells+/-macrophages were cultured with a range of PDGF doses (0.1, 1, and 10ng/ml)+/-IGF-1. In the second experiment, red blood cells were removed with lysing buffer. In both experiments the effect of treatment on steroidogenesis and viable cell number was examined. Macrophage removal decreased oestradiol production but increased androstenedione output irrespective of the presence of IGF-1 (oestradiol+/-IGF-1, P<0.001; androstenedione P=0.02 without IGF-1, P<0.001 with IGF-1). PDGF increased oestradiol synthesis by whole and macrophage-free theca cell preparations but only in the presence of IGF-1 (P<0.001). In contrast, androstenedione production was unaffected by PDGF dose in the presence of IGF-1 (P=0.67). Without IGF-1, 10ng/ml PDGF tended to decrease androstenedione levels (P=0.06). Macrophage removal increased viable cell number at 144h (P<0.001+/-IGF-1) as did PDGF (P<0.001+/-IGF-1). In the absence of IGF-1, there was a PDGF x cell type interaction (P=0.02). Macrophage-free cultures with 10ng/ml PDGF had twice as many viable cells as whole preparations with no PDGF. In the second experiment, red blood cell removal did not affect steroidogenesis or the number of viable cells present at 144h when cells were cultured with IGF-1. The data show that theca cell/macrophages interactions do occur, and influence both steroidogenesis and viable cell number during culture. The macrophage product(s) enhanced oestradiol synthesis but reduced androstenedione production and the number of viable cells. As all these interactions were not mimicked by PDGF, PDGF cannot be the only factor mediating the theca/macrophage interaction. When cultured under optimised conditions the presence of red blood cells was not detrimental to theca cell steroidogenesis or the number of viable cells.     

Steroid production by isolated theca and granulosa cells after initiation of atresia in the hamster

Hypophysectomized PMSG-primed hamsters were injected with PMSG antiserum and the theca and granulosa cells of the resulting atretic follicles were incubated in vitro. In the absence of added hormone, 17 alpha-hydroxyprogesterone and oestradiol production was not detectable in granulosa cells collected and incubated at 0, 12 and 24 h after antiserum. Progesterone production was not detected in control incubations at 0 h but was measurable with cells collected at 12 h after PMSG antiserum. When incubated with androstenedione or pregnenolone (10 ng/ml for each) 17 alpha-hydroxyprogesterone and progesterone production by granulosa cells were significantly increased at 0, 12 and 24 h after antiserum. Granulosa cells were capable of aromatizing androstenedione to oestradiol at all times examined. At 0 and 12 h after antiserum to PMSG, isolated thecal shells produced androstenedione. LH stimulation caused increased androstenedione production in all thecae at 0 h, in 50% of the thecae at 12 h and in none at 24 h after antiserum. Thecal shells produced 17 alpha-hydroxyprogesterone in response to LH at 0, 12 and 24 h after antiserum, and produced progesterone at all times examined. Thecae also responded to LH with increased progesterone production up to 72 h after antiserum. These experiments demonstrate that one important steroidogenic event in atresia may be the loss of activity of C 17,20 lyase in the theca leading to loss of substrate (androstenedione) for granulosa cell aromatization, although aromatase activity is present until at least 24 h after the induction of atresia.     

Comparison of cyclic AMP production in response to LH by granulosa and theca cells from Meishan and Large-White hybrid gilts.

Previous experiments have demonstrated differences in various follicular characteristics between the prolific Chinese Meishan (MS) pig and European Large-White (LW) hybrids and the present experiment was designed to compare the cAMP response to LH by granulosa and theca cells in vitro between the two breeds. Ovaries were recovered from MS (n = 7) and LW hybrid (n = 8) gilts on the day before predicted oestrus and the 12 largest follicles dissected. Quadruplicate aliquots of granulosa cells or minced theca tissue were incubated for 1 h in the presence of 0, 0.1, 1.0, 10, 100 or 1000 ng/ml LH and cAMP production measured. Follicles from MS gilts were smaller (5.9 vs. 7.7 mm; P < 0.001), contained less fluid (81.5 vs. 177.4 microl; P < 0.001), had fewer granulosa cells (3.8 vs. 5.3 x 10(6); P < 0.01) and less theca tissue (30.3 vs. 50.5 mg; P < 0.05) than those from LW hybrid animals. Mean follicular fluid oestradiol concentration was > or = 149 ng/ml in all animals and tended to be higher in the MS follicles (P = 0.07). LH stimulated cAMP production by granulosa and theca cells from both breeds (P < 0.001). Although there was no overall breed effect for the granulosa cells, there was a significant (P < 0.001) interaction between LH dose and breed in the granulosa cells, whether cAMP production was expressed per 10(6) cells or per follicle. In the theca incubations, cAMP production by MS tissue was higher (P < 0.01) when results were expressed per mg tissue and again there was an interaction (P < 0.001) between LH dose and breed whether cAMP production was expressed per mg tissue or per follicle. For both tissue types, MS follicles produced more cAMP at the higher LH doses. In conclusion, this study has shown that MS granulosa and theca tissue respond differently to increasing doses of LH in terms of cAMP production in vitro compared to LW hybrid tissue and this supports previous suggestions of enhanced maturity of MS follicles in the late follicular phase.     

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.     

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)     

Inhibition of thecal androstenedione production by exogenous progesterone in the cyclic hamster

Implants of progesterone on the day of dioestrus II in the hamster induced on the following day an increase in circulating levels of progesterone (6.0 +/- 0.7 ng/ml, N = 8; sesame oil controls, less than 0.5 ng/ml, N = 6) and a decline in serum levels of LH (5.3 +/- 0.4 ng/ml; controls 12 +/- 2 ng/ml) and oestradiol (10 +/- 2 pg/ml; controls 69 +/- 5 pg/ml). The production of androstenedione and oestradiol by antral follicles in vitro was reduced in progesterone-treated hamsters when compared with controls, but progesterone production was not affected. Aromatizing activities of antral follicles were the same in progesterone-treated and sesame oil-treated hamsters. Androstenedione production by theca was significantly less in progesterone-treated hamsters than in controls. On dioestrus II, LH replacement therapy (200 micrograms ovine LH by osmotic minipump inserted s.c.) prevented the decline in follicular androstenedione and oestradiol production induced by progesterone alone, and also prevented the decline in thecal androstenedione production in vitro. The results indicate that exogenous progesterone on dioestrus II lowers circulating levels of LH by the following day, inhibits thecal androstenedione production and thus reduces follicular oestradiol production without alteration in aromatizing ability.     

Development of a long-term serum-free culture system for immature granulosa cells from diethylstilboestrol-treated prepubertal rabbits: influence of androstenedione and fibronectin on FSH-induced cytodifferentiation

Granulosa cells from diethylstilboestrol-treated prepubertal rabbits were cultured for 6 days in M199 with FSH (1-100 ng ml(-1)) in uncoated or fibronectin-coated plates with or without androstenedione to define the time course profile of oestradiol and progesterone secretion, and the possible modulator role of androstenedione and fibronectin during FSH-induced rabbit granulosa cell differentiation. Every 48 h, cultures were photographed and samples of medium were collected and assayed by ELISA for oestradiol and progesterone. FSH increased oestradiol secretion in a dose-dependent manner. Androstenedione augmented FSH-stimulated oestradiol secretion, and led to a decrease in secretion of oestradiol with time in culture. FSH stimulated progesterone secretion in a dose-dependent manner. This was increased by androstenedione with 10 ng FSH ml(-1) (0-96 h) and 1 ng FSH ml(-1) (96-144 h). FSH-stimulated (100 ng ml(-1)) progesterone secretion decreased at 48-96 h. Fibronectin prevented this decrease, without affecting oestradiol or progesterone secretion at other time points. FSH caused cell reaggregation at 48 h. In conclusion, this serum-free culture system is appropriate for the study of mechanisms of rabbit granulosa cell differentiation. FSH induced cytodifferentiation and reaggregation of granulosa cells. Androstenedione appeared to act synergistically with FSH to promote steroidogenesis. Fibronectin sustained progesterone secretion during differentiation.     

Alteration of follicular steroid secretion and thecal morphology after in-vitro exposure of individual pig follicles to follicle regulatory protein

Medium-sized (4-6 mm) pig follicles were incubated for 10 h and then examined via light microscopy. Treatment with pig FSH resulted in significantly increased concentrations of oestradiol, testosterone, androstenedione and progesterone in the medium. Follicle regulatory protein (FRP) alone (1 micrograms/ml) decreased follicular secretion of oestradiol (56%) and progesterone (53%) but stimulated the secretion of testosterone (226%) and androstenedione (139%). In the presence of 1 ng FSH/ml, the inhibitory effect of FRP on oestradiol secretion was enhanced (74%), progesterone values were unaffected and secretion of testosterone and androstenedione were reduced by 66% and 53%, respectively. All effects of FRP were fully overcome by 1 micrograms FSH/ml. The incidence of atresia, as defined by granulosa cell pycnosis, was similar in all treatment groups (1-3 of 10 follicles per group). The remaining follicles had intact granulosa cells. However, follicles treated with FRP (1 micrograms/ml) + FSH (1 ng/ml) had pycnotic nuclei in the theca interna cells, in the presence of an intact stratum granulosum. External exposure of follicles to FRP may not reflect physiological conditions since, in vivo, thecal pycnosis is never observed before granulosa cell pycnosis. However, the present results indicate that FRP is potentially capable of altering both follicular morphology and steroidogenesis. We suggest that FSH and FRP interact to affect follicular development.     

Isolation of thecal cells: an assessment of purity and steroidogenic potential

In the present investigation, the responsiveness of rat thecal cells, prepared by means of an optimised discontinuous Percoll density gradient centrifugation procedure and cultured under serum-free cell culture conditions, to different concentrations of follitropin (FSH), basic fibroblast growth factor (FGF-2 or bFGF), and lutropin (LH) has been examined. The estradiol (E(2)) and progesterone (P(4)) contents of the cell culture medium were simultaneously determined with aliquots collected after different times of exposure to these regulatory proteins, either individually or in combination. The results confirm that no E(2) could be detected in the cell culture medium of the rat thecal cells prepared and cultured in this manner following all of these different treatments, and hence no contamination of the thecal cell preparations by granulosa cells was evident. The effects of FGF-2 and LH on the steroidogenic and cytodifferentiational properties of these rat thecal cells under serum-free cell culture procedures were also examined. The production of P(4) in the Percoll-purified rat thecal cell cultures receiving different treatments of FSH, and/or FGF-2 did not differ from the basal cell cultures, and no E(2) was detected from the same culture media. In contrast, LH (20 or 50 ng/ml) was found to enhance the production of P(4) (P<0.05) in the serum-free cell culture media. The stimulation of P(4) production was greater at higher LH concentration (50 ng/ml) (P<0.05). Concurrent treatment of LH (20 or 50 ng/ml) and FGF-2 (1-100 ng/ml) showed that FGF-2 inhibited the production of P(4) by LH-stimulated thecal cell cultures (P<0.05). The inhibition by FGF-2 was greater when LH was at a lower concentration (EC(50)<1 ng/ml at LH-20 ng/ml vs. EC(50)>1 ng/ml at LH-50 ng/ml). The results of the present study thus indicate that rat thecal cells isolated by this optimised Percoll density centrifugation procedure maintain a very high steroidogenic potential and specificity. Consistent with the absence of contaminating granulosa cells, these rat theca cell preparations do not respond to FSH treatment in terms of E(2) production. However, these rat theca cell preparations can be stimulated by LH to express their differentiated status in serum-free medium and respond to growth factors such as FGF-2.     

Secretion of 17 alpha-hydroxyprogesterone, androstenedione, and estrogens by porcine granulosa and theca interna cells in culture

The steroid secreting activities of dispersed granulosa and theca interna cells from preovulatory follicles of prepubertal gilts 72 h after pregnant mare's serum gonadotropin treatment (750 IU) were compared. The cells were cultured for 24 h with or without steroid substrate (10(-8) to 10(-5) M progesterone, 17 alpha-hydroxyprogesterone, or androstenedione), FSH (100 ng/mL), LH (100 ng/mL), and cyanoketone (0.25 microM, an inhibitor of 3 beta-hydroxysteroid dehydrogenase). Granulosa cells cultured alone secreted mainly progesterone. Theca interna cells secreted mainly 17 alpha-hydroxyprogesterone and androstenedione, with secretion being markedly enhanced by LH. In the presence of cyanoketone, which inhibited endogenous progesterone production, theca interna but not granulosa cells were able to convert exogenous progesterone to 17 alpha-hydroxyprogesterone and androstenedione, and exogenous 17 alpha-hydroxyprogesterone to androstenedione and estradiol-17 beta in high yield. The secretion of the latter steroids from exogenous substrates was unaffected by LH. Theca interna cells secreted more estradiol-17 beta than did granulosa cells in the absence of aromatizable substrate, but estradiol-17 beta secretion by the latter was markedly increased after the addition of androstenedione. These apparent differences in steroid secreting activity between the cell types suggest that the enzymes responsible for conversion of C21 to C19 steroids, i.e., 17 alpha-hydroxylase and C17,20-lyase, reside principally in the theca interna cells. However, aromatase activity appears to be much higher in granulosa cells.     

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.     

Ovarian follicular activity in Booroola lambs with and without a fecundity gene

The ovaries of 3-month-old Booroola lambs which were heterozygous carriers of a major gene (F) influencing the ovulation rate in mature ewes (i.e. F + lambs) were compared to those ofsimilarly-aged Booroola lambs which were non-carriers of the F-gene (i.e. ++ lambs). The ovaries of the F + Booroola lambs were significantly lighter (P less than 0.01) than those of ++ lambs even though the mean +/- s.e.m. number of follicles (greater than or equal to 1 mm diam.) in the F + lambs was greater than that in the ++ lambs (i.e. F + lambs, 30.2 +/- 2.5 follicles; ++ lambs, 18.4 +/- 1.2 follicles; P less than 0.01). In granulosa cells from non-atretic follicles (greater than or equal to 1 mm diam.) from F + and ++ Booroola lambs, FSH (NIAMDD-FSH-S16) doses of 100 and 1000 ng/ml caused significant stepwise increases (P less than 0.05) in cyclic adenosine 3',5'-monophosphate (cAMP) production compared to that achieved at FSH doses of 0 and 1 ng/ml or at any FSH dose in cells from atretic follicles. However, no significant differences in FSH-induced cAMP production were noted with regard to Booroola genotype or follicular diameter. None of the granulosa cell preparations from non-atretic follicles of 1-2.5 mm diameter from F + lambs (N = 13) or from non-atretic follicles of 1-4.5 mm diameter from ++ lambs (N = 16) responded to LH (NIAMDD-LH-S24; 10 or 1000 ng/ml) to produce significantly more cAMP than did the controls. In contrast, the granulosa cell preparations from non-atretic follicles of 3-4.5 mm diameter from F + lambs (N = 4) and from non-atretic follicles of greater than or equal to 5 mm diameter of ++ lambs (N = 4) produced significantly more cAMP (P less than 0.05) in response to LH (1000 and/or 10 ng/ml) relative to that in the controls. The theca interna from follicles of lambs of both genotypes had functional LH receptors as judged by the androstenedione responses to exogenous LH although no genotypic differences were noted. In F + lambs, the follicular fluid concentrations of testosterone but not oestradiol (i.e. in 1-4.5 mm diam. follicles) and granulosa cell aromatase activity (i.e. in 3-3.5 mm diam. follicles) were significantly higher (both P less than 0.05) than in corresponding follicles or cells from ++ lambs. Collectively the results suggest that the Booroola F-gene influences the composition and function of sheep ovaries before puberty.     

Bovine theca and granulosa cells interact to promote androgen production

Pieces of theca interna or follicle wall (theca interna + attached granulosa cells), obtained from bovine preovulatory follicles prior to the surge of luteinizing hormone (LH) and cultured for 3 days, secreted androstenedione. Luteinizing hormone, but not follicle-stimulating hormone (FSH), increased production of androstenedione 3 to 4-fold. In both the presence and absence of LH, follicle wall preparations secreted about 4-fold more androstenedione than did equivalent amounts of theca interna tissue. Isolated granulosa cells produced only negligible quantities of androstenedione, which suggests that they may contribute to the greater production of androstenedione by follicle wall by supplying progestin precursor to the theca cells. The addition of pregnenolone or progesterone to isolated theca interna increased the secretion of androstenedione, but pregnenolone was by far the more effective precursor. This suggested that the delta 5 (delta 5) pathway is the preferred pathway for androstenedione synthesis by bovine theca cells and that granulosa cells might supply progestin precursor in the form of pregnenolone. Follicle wall and granulosa cell cultures secreted 2 and 7 times more pregnenolone, respectively, than did theca cultures. Luteinizing hormone, but not FSH, increased production of pregnenolone by the follicle wall, whereas the gonadotropins had no effect on secretion by either granulosa or theca cells. Since exogenous testosterone enhanced the production of pregnenolone by granulosa cells, thecal androgen (which is stimulated by LH) may increase the ability of granulosa cells to make pregnenolone and explain the stimulatory effect of LH on pregnenolone secretion by follicle wall.(ABSTRACT TRUNCATED AT 250 WORDS)     

Production of tissue inhibitors of metalloproteinases (TIMPs) by pig ovarian cells in vivo and the effect of TIMP-1 on steroidogenesis in vitro

Precisely which ovarian cells produce tissue inhibitors of metalloproteinases (TIMPs) is unclear. Although granulosa cells are reported to produce TIMPs, thecal TIMP production has not been investigated nor has the influence of TIMPs on theca cells. Furthermore, although periovulatory follicles have been examined, little is known about smaller ovarian follicles. Follicles >/= 2 mm in diameter were collected from Large White hybrid gilts on the day before predicted oestrus (n = 3) or after hCG treatment (n = 3) and divided into 1 mm size classes. Small (2 to < 5 mm) follicles were kept intact, whereas follicles >/= 5 mm were separated into follicular fluid, granulosa and theca cell compartments. After homogenization, TIMP-1, -2 and -3 were detected by reverse zymography. Theca cells (50 x 10(3) per well) were cultured with TIMP-1 (10, 100 or 200 ng ml(-1) with or without long-R3 insulin-like growth factor I (IGF-I)) in a serum-free system to investigate the effect on steroidogenesis and the number of cells. Both large and small pig follicles produced TIMPs and TIMP-1, -2 and -3 were detected in follicular fluid, granulosa and theca cell samples. There was a phase x tissue type interaction for the presence of both TIMP-1 and -2 (P < 0.03, P < 0.05, respectively), and TIMPs were detected in more granulosa and theca cell samples after hCG than during the follicular phase. The concentrations were influenced by the type of tissue (TIMP-1, P < 0.005; TIMP-2, P < 0.005, TIMP-3, P > 0.05), and the highest concentrations occurred in the theca tissue. There were tissue type x follicle size interactions for the presence of both TIMP-1 and -2 (P < 0.001). In vitro, TIMP-1 increased thecal steroidogenesis after 144 h (oestradiol, P < 0.05, progesterone, P < 0.001) but reduced the number of viable cells (P < 0.001). In conclusion, TIMP-1, -2 and -3 were present in large and small pig follicles and were produced by both granulosa and theca cells, although concentrations differed with the type of tissue. Production was regulated by factors including follicle size and phase of the oestrous cycle. In addition to controlling tissue remodelling, TIMP-1 may also regulate steroidogenesis.     

Receptors for insulin-like growth factor-I and tumor necrosis factor-alpha are hormonally regulated in bovine granulosa and thecal cells.

Mastitis induces release of tumor necrosis factor-alpha (TNFalpha) and has been linked with reduced reproductive performance. To further elucidate the role and mechanism of action of TNFalpha on ovarian cells, the effect of TNFalpha on insulin-like growth factor-I (IGF-I)-induced steroidogenesis and IGF-I binding sites in granulosa and thecal cells as well as the hormonal regulation of TNFalpha receptors were evaluated. Granulosa and thecal cells were obtained from small (1-5mm) and large (> or =8mm) bovine ovarian follicles, respectively, and cultured for 3-4 days. During the last 2 days of culture, cells were treated with various hormones and steroid production and specific binding of 125I-IGF-I and 125I-TNFalpha was determined. Two-day treatment with 30 ng/ml of TNFalpha decreased (P<0.05) IGF-I-induced estradiol production by granulosa cells and IGF-I-induced androstenedione production by thecal cells. Two-day treatment with 10 and 30ng/ml of TNFalpha decreased (P<0.05) specific binding of 125I-IGF-I to thecal cells, but had no effect on specific binding of 125I-IGF-I to granulosa cells, or on specific binding of 125I-IGF-II to thecal cells. TNFalpha did not compete for 125I-IGF-I binding to granulosa or thecal cells whereas unlabeled IGF-I suppressed 125I-IGF-I binding. Insulin inhibited (P<0.10) whereas FSH had no effect on the number of specific 125I-TNFalpha binding sites in granulosa cells. In contrast, LH increased (P<0.10) whereas insulin had no effect on specific 125I-TNFalpha binding sites in thecal cells. These results suggest that IGF-I and TNFalpha receptors in granulosa and thecal cells are regulated by hormones differentially.     

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.     

In vitro studies on steroidogenesis in the presence of pregnenolone as precursors by the follicular tissue of the domestic fowl (Gallus domesticus)

Chicken granulosa and theca cells were isolated from F1 and F4-6 follicles 2-4 h before ovulation, and the amounts of progesterone, testosterone and oestradiol released in the medium during incubation for 3 h, in the presence or absence of pregnenolone as a percursor and stimulatory drugs or inhibitory drugs, were measured. Progesterone synthesis by granulosa cells was stimulated with oLH or theophylline. Much more progesterone was synthesized when pregnenolone was added to the medium. The amount of testosterone produced by the granulosa cells was similar to that produced by the theca cells. The production of testosterone was increased by the addition of oLH or theophylline. Oestradiol synthesis by F4-6 follicles was higher than by F1 follicles, and it was higher in the theca cells than in the granulosa cells. The addition of oLH or theophylline increased oestradiol synthesis in the theca cells and the granulosa cells of F4-6 follicles. The results indicate that oestradiol can be produced from pregnenolone by the theca cells alone. It is possible, however, that the theca cells also take in the precursors for the production of oestradiol from the granulosa cells.     

Effect of resistin on granulosa and theca cell function in cattle

Resistin is an adipokine that has not been extensively studied in cattle but is produced by adipocytes in greater amounts in lactating versus non-lactating cattle. Seven experiments were conducted to determine the effect of resistin on proliferation, steroidogenesis, and gene expression of theca and granulosa cells from small (1-5mm) and/or large (8-22 mm) cattle follicles. Resistin had no effect on IGF-I-induced proliferation of large-follicle theca cells or small-follicle granulosa cells, but decreased IGF-I-induced proliferation of large-follicle granulosa cells. Resistin weakly stimulated FSH plus IGF-I-induced estradiol production by large-follicle granulosa cells, but had no effect on IGF-I- or insulin-induced progesterone and androstenedione production by theca cells or progesterone production by granulosa cells of large follicles. In small-follicle granulosa cells, resistin attenuated the stimulatory effect of IGF-I on progesterone and estradiol production of small-follicle granulosa cells. RT-PCR measuring abundance of side-chain cleavage enzyme (CYP11A1), aromatase (CYP19A1), FSH receptor (FSHR) and LH receptor (LHCGR) mRNA in large- and small-follicle granulosa cells indicated that resistin reduced the stimulatory effect of IGF-I on CPY11A1 mRNA abundance in large-follicle granulosa cells but had no effect on CYP19A1, FSHR or LHCGR mRNA abundance in large- or small-follicle granulosa cells. Resistin had no effect on CYP11A1, CYP17A1 or LHCGR mRNA abundance in theca cells. These results indicate that resistin preferentially inhibits steroidogenesis of undifferentiated (small follicle) granulosa cells and inhibits proliferation of differentiated (large follicle) granulosa cells, indicating that the ovarian response to resistin is altered during follicular development.     

Granulosa cells from pig follicles of different sizes demonstrate maturational differences in their steroidogenic responses to FSH, calcium ionophore A23187, and phorbol diester

Cultures of granulosa cells from small (less than 3 mm), medium (3-6 mm), or large (8-10 mm) pig follicles were treated as follows: (1) basal controls, (2) cyclic adenosine 3',5'-monophosphate (cAMP) pathway agonists (pig FSH: 100 ng/ml; forskolin: 10 microM; dibutyryl cAMP; 1 mM), (3) calcium ionophore A23187 (0.005-1 micrograms), or (4) phorbol 12-myristate 13-acetate (TPA; 0.05-4 ng/ml). The combination of A23187 or TPA together with cAMP agonists was also examined in cultures of granulosa cells from follicles of different sizes. All substances were added at the time of culture, and oestradiol and progesterone were measured in the culture media after 48 h. All cAMP agonists were most potent in their stimulation of steroidogenesis (as a % of control) in cells from small follicles (P less than 0.05) with the exception of forskolin, which increased oestradiol in cells from large follicles to a greater extent than in cells of small follicles (P less than 0.05) (cells from medium follicles demonstrated less stimulation than those from small follicles except in progesterone production, for which FSH was equipotent). With the exception of forskolin, however, granulosa from large follicles showed little (oestradiol) or no stimulation (progesterone) with cAMP agonists. Under basal conditions, A23187 inhibited progesterone in all groups (P less than 0.05), and oestradiol production was reduced in granulosa cells from small follicles (P less than 0.05), unchanged in cells from medium follicles, and significantly stimulated in cells from large follicles. A23187 inhibited the enhanced production of both hormones after administration of cAMP agonists from cells of small and medium follicles (P less than 0.05), with inhibition significantly greater in cells of small follicles compared with medium. In cells from large follicles challenged with cAMP agonists, A23187 inhibited progesterone but stimulated oestradiol production; substitution of TPA (a protein kinase C stimulator) for A23187 gave identical results under basal or FSH-treated cultures of granulosa cells from small-, medium- or large-sized follicles. Our results suggest that TPA, A23187 and cAMP agonists modulate steroidogenesis differently in pig granulosa cells, depending on the stage of maturation of the follicle. Oestradiol production in granulosa cells from large preovulatory follicles may come under the stimulatory control of regulators of protein kinase C as in follicles near ovulation.