Changes in content and cAMP-dependent phosphorylation of specific proteins in granulosa cells of preantral and preovulatory ovarian follicles and in corpora lutea

The responsiveness of granulosa cells to the gonadotropins and cAMP increases as ovarian follicles mature. To determine if this change in response might be related to either the content or cAMP-dependent phosphorylation of specific proteins, we labeled proteins in 30,000 X g supernatant fractions (cytosol) with [gamma-32P] ATP in the presence or absence of cAMP. Using two-dimensional gel electrophoresis, we observed that granulosa cells of preantral follicles exhibited low amounts of cAMP-dependent phosphorylation of two proteins with apparent molecular weights of 54,000-56,000 and 43,000. Using [32P]8-N3cAMP and photoaffinity labeling procedures, the Mr = 54,000-56,000 protein was identified as RII, the regulatory subunit of type II protein kinase. Polychromatic silver staining, as well as the photoaffinity labeling, revealed that RII exists in three forms, each of which was also labeled by [gamma-32P] ATP. Based on the relative isoelectric points and specific silver staining of highly purified actin and phosphorylated actin, the Mr = 43,000 protein has been provisionally identified as actin. Five proteins (Mr = 37,500, 27,500, 22,500, 19,000, and 15,000), in addition to RII and actin, were phosphorylated in cytosol of granulosa cells from preovulatory follicles. By adding increasing concentrations of exogenous catalytic subunit to the cytosols, we demonstrated that the content, as well as the phosphorylation of these proteins, was increased selectively in granulosa cells of antral follicles. By using hypophysectomized rats, we demonstrated that these five proteins are induced by follitropin (FSH). Because they were not present in cytosols of thecal cells or corpora lutea, they appear to be specific markers for granulosa cells. The content and phosphorylation of RII was also dramatically increased in cytosols of granulosa cells from antral follicles, whereas that of actin remained unchanged. These observations indicate that granulosa cell differentiation involves regulation by FSH of specific proteins which are substrates for cAMP-dependent protein kinase. Thus, FSH and cAMP appear to regulate the intracellular content and phosphorylation of a cAMP response system in granulosa cells. The extent to which RII and the five specific phosphoproteins themselves regulate granulosa cell responsiveness remains to be determined.     

Androgens and FSH affect androgen receptor and aromatase distribution in the porcine ovary

In the present study the authors investigated whether androgens could interact with FSH to induce aromatase and androgen receptor expression in porcine granulosa cells. Dissected whole porcine follicles (small, medium, and large) were incubated for 8 hours in M199 medium supplemented with testosterone (10(-7) M), FSH (100 ng/ml) or both those hormones. After incubation, the follicles were fixed and immunostained to visualise androgen receptor and aromatase. In cultures of granulosa cells isolated from small and large follicles, oestrogen secretion was measured by appropriate RIA. Incubation of follicles with testosterone and FSH increased aromatase immunoreactivity in preantral and early antral (i.e. small) follicles. The immunostaining for androgen receptor was slightly higher in medium follicles, while such hormonal stimulation had no effect on small and large follicles. Moreover, granulosa cells isolated from small follicles cultured with both testosterone and FSH produced more estradiol than control cultures (40 pg vs. 100 pg/10(5) cells). The level was relatively close to that obtained in the culture of control granulosa cells isolated from large preovulatory follicles (105 pg/10(5) cells). These results indicate that testosterone acts synergistically with FSH to increase aromatase expression in the small porcine follicles.     

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.     

Effect of genistein on steroidogenic response of granulosa cell populations from porcine preovulatory follicles

Genistein affects reproductive processes in animals. However, the mechanism of its action is not fully elucidated and differs among species. The objectives of the current study were: 1/ to establish an in vitro model of granulosa cell culture for studying the intracellular mechanism of phytoestrogen action in porcine ovary; 2/ to determine an in vitro effect of genistein on basal and FSH-stimulated P(4) and E(2) production by porcine granulosa cell populations (antral, mural, total) isolated from large, preovulatory follicles. Granulosa cells were isolated from large (> or =8 mm), preovulatory follicles and separated into antral and mural cell subpopulations. Cells were allowed to attach for 72 h (37 degrees Celsius, 10% serum, 95% air/5% CO2) and than cultured for next 48 hours with or without serum (0, 5 and 10%), FSH (0, 10 or 100 ng/ml) and genistein (0, 0.5, 5 or 50 microM). Basal P(4) and E(2) production did not differ among antral, mural and unseparated granulosa cells isolated form porcine preovulatory follicles. Only mural cells tended to secrete less P(4) and E(2) than other cell populations. FSH stimulated P(4) production in a dose dependent manner in all cell populations and culture systems. Genistein inhibited in a dose dependent manner basal and FSH-stimulated P(4) production by antral, mural and unseparated granulosa cells. However, genistein did not affect E(2) production by granulosa cells. In addition, viability of porcine granulosa cells was not affected by the pyhytoestrogen except the highest dose of genistein. It appears that genistein may be involved in the regulation of follicular function in pigs. Moreover, unseparated porcine granulosa cells may provide a suitable in vitro model for studying the intracellular mechanism of phytoestrogen action in porcine ovary.     

Secretion of cumulus expansion-enabling factor (CEEF) in porcine follicles

The objective of this study was to find out whether porcine cumulus and mural granulosa cells can secrete cumulus expansion-enabling factor (CEEF). Culture drops of M-199 medium were conditioned with denuded porcine oocytes (1 oocyte/μl), cumulus cells from oocytectomized complexes (1 OOX/μl), pieces of mural granulosa isolated from preantral to preovulatory follicles (1000 cells/μl), or oviductal cells (1000 cells/μl) for 24 hr. The production of CEEF was assessed by the addition of mouse OOX and follicle-stimulating hormone (FSH) (1 μg/ml) to microdrops of the conditioned medium. After 16–18 hr, expansion of the mouse OOX was scored on a scale of 0 to 4 by morphologic criteria. Mouse OOX did not expand in nonconditioned FSH-supplemented medium. Immature porcine oocytes produced +3 to +4 expansion of the mouse OOX. Granulosa cells isolated from preantral and early antral follicles and cumulus cells isolated from all stages of follicle development constitutively secreted CEEF under in vitro conditions. Mural granulosa cells of small, medium, and preovulatory (PMSG) follicles also secreted CEEF in vitro; however, FSH or leutenizing hormone (LH) stimulation was essential for this secretion. Hormonally induced secretion of CEEF was accompanied by expansion of the mural granulosa itself. Granulosa cells isolated from follicles of gilts 20 hr after PMSG and human chorionic gonadotropin (hCG) administration did not produce CEEF and did not expand in response to FSH and LH in vitro. CEEF activity also was found in the follicular fluid of small antral follicles, was reduced in medium follicles, and was not detectable in PMSG-stimulated follicles. However, CEEF activity was reestablished in the follicular fluid of preovulatory follicles by hCG injection, conceivably due to increased production of CEEF by cumulus cells. We conclude that (1) porcine cumulus and mural granulosa cells are capable of CEEF production in vitro and (2) autocrine secretion of CEEF by cumulus cells is involved in regulation of porcine cumulus expansion both in vitro and in vivo. Mol. Reprod. Dev. 49:141–149, 1998. © 1998 Wiley-Liss, Inc.     

Synaptosome-associated protein of 25 kilodaltons in oocytes and steroid-producing cells of rat and human ovary: molecular analysis and regulation by gonadotropins

The synaptosome-associated protein of 25 kDa (SNAP-25) is crucially involved in exocytosis in neurons. The aim of this study was to investigate whether it is present in the ovary. We found SNAP-25 to be expressed in nonneuronal cells of the rat and human ovary, namely in all oocytes and in steroidogenic cells, including granulosa cells (GC) of large antral follicles and luteal cells. Both isoforms, SNAP-25a and b, were found in the ovary. Oocytes obtained by laser capture microdissection were shown to express SNAP-25b, whereas SNAP-25a was found in rat GC and human luteinized GC. Immunohistochemical observations of strong SNAP-25 staining in GC of large growing antral follicles compared with absent or weak staining in small follicles suggested a role in folliculogenesis. To study a presumed regulation of SNAP-25, we used a rat GC line (GFSHR-17), which expresses FSH receptors, and luteinizing human GC, which express LH receptors. FSH elevated SNAP-25 mRNA and protein levels about fivefold within 24 h in GFSHR-17 cells. The cAMP analogue dibutyryl-cAMP (db-cAMP) mimicked this action of FSH. The effects of both db-cAMP and FSH were inhibited by the protein kinase A (PKA) inhibitor H89. In contrast, SNAP-25 protein and mRNA-levels were not altered by LH/hCG in luteinized human GC. Our results for the first time identify SNAP-25b in oocytes and SNAP-25a in steroidogenic cells of the mammalian ovary. SNAP-25a and b may be involved in different exocytotic processes in these cell types.     

Effect of aspiration of the preovulatory follicle on luteinization, corpus luteum function, and peripheral plasma gonadotropin concentrations in the mare

Follicular fluid from small- to medium-sized follicles has been shown to have an inhibiting effect on luteinization of granulosa cells in vitro. This study was conducted to investigate the effect of in vivo removal of follicular fluid on luteinization, peripheral gonadotropin concentrations, and ovulation of secondary follicles in the mare. Follicular fluid was aspirated from the preovulatory follicles of mares when the diameter of the follicle was 30-34 mm (Group A), 35-39 mm (Group B), or 40-44 mm (Group C). Mares in Group D served as controls and the preovulatory follicle was not aspirated. Mares in Group A had a significantly earlier rise in peripheral progesterone concentrations than did controls. There was no difference in duration of progesterone secretion or peak progesterone production between groups. LH and FSH values were significantly higher for mares in Groups A and B than for control mares. Mares in Group A tended to have a higher incidence of secondary ovulations than did mares in other groups. These data support the in vitro findings that follicular fluid from small- to medium-sized follicles may contain a luteinization inhibitor, and indicate that presence of follicular fluid during the final days of follicular maturation is not essential for development of a normal CL.     

Luteinization factor-stimulated steroidogenesis in porcine granulosa cells

Luteinization stimulator (LS), an intrafollicular compound of preovulatory (5-8 mm) follicles, increased both the basal and gonadotropins-stimulated production of progesterone by immature (1-3 mm) granulosa cells. The mechanism by which LS enhance steroidogenesis was investigated by studying the modulation of progesterone biosynthesis from exogenous cholesterol and pregnenolone in cultured porcine granulosa cells in serum-free medium. Progesterone production by cultured granulosa cells was stimulated by FSH, while treatment with 22-OH-cholesterol further enhanced the gonadotropin action. The activity of LS was found in cell conditioned media obtained after 3-day cultivation of preovulatory granulosa cells. Conversion of 22-OH-cholesterol into progesterone by granulosa cells isolated from small follicles was significantly stimulated in the presence LS in culture media. Also, progesterone production by granulosa cells in the presence of pregnenolone was increased considerably. Concomitant treatment with LS led to a further augmentation in progesterone synthesis. Endogenous formation of pregnenolone was inhibited by aminoglutethimide. Thus, LS enhancement of progesterone production in cultured porcine granulosa cells is associated with an increase in the activity of cytochrome P450 cholesterol side-chain cleavage and 3beta hydroxysteroid dehydrogenase enzymes.     

Growth differentiation factor-9 stimulates proliferation but suppresses the follicle-stimulating hormone-induced differentiation of cultured granulosa cells from small antral and preovulatory rat follicles

In addition to pituitary gonadotropins and paracrine factors, ovarian follicle development is also modulated by oocyte factors capable of stimulating granulosa cell proliferation but suppressing their differentiation. The nature of these oocyte factors is unclear. Because growth differentiation factor-9 (GDF-9) enhanced preantral follicle growth and was detected in the oocytes of early antral and preovulatory follicles, we hypothesized that this oocyte hormone could regulate the proliferation and differentiation of granulosa cells from these advanced follicles. Treatment with recombinant GDF-9, but not FSH, stimulated thymidine incorporation into cultured granulosa cells from both early antral and preovulatory follicles, accompanied by increases in granulosa cell number. Although GDF-9 treatment alone stimulated basal steroidogenesis in granulosa cells, cotreatment with GDF-9 suppressed FSH-stimulated progesterone and estradiol production. In addition, GDF-9 cotreatment attentuated FSH-induced LH receptor formation. The inhibitory effects of GDF-9 on FSH-induced granulosa cell differentiation were accompanied by decreases in the FSH-induced cAMP production. These data suggested that GDF-9 is a proliferation factor for granulosa cells from early antral and preovulatory follicles but suppresses FSH-induced differentiation of the same cells. Thus, oocyte-derived GDF-9 could account, at least partially, for the oocyte factor(s) previously reported to control cumulus and granulosa cell differentiation.     

Neuronal microtubule-associated protein 2D is a dual a-kinase anchoring protein expressed in rat ovarian granulosa cells

A-kinase anchoring proteins (AKAPs) function to target protein kinase A (PKA) to specific locations within the cell. AKAPs are functionally identified by their ability to bind the type II regulatory subunits (RII) of PKA in an in vitro overlay assay. We previously showed that follicle-stimulating hormone (FSH) induces the expression of an 80-kDa AKAP (AKAP 80) in ovarian granulosa cells as they mature from a preantral to a preovulatory phenotype. In this report, we identify AKAP 80 as microtubule-associated protein 2D (MAP2D), a low molecular weight splice variant of the neuronal MAP2 protein. MAP2D is induced in granulosa cells by dexamethasone and by FSH in a time-dependent manner that mimics that of AKAP 80, and immunoprecipitation of MAP2D depletes extracts of AKAP 80. MAP2D is the only MAP2 protein present in ovaries and is localized to granulosa cells of preovulatory follicles and to luteal cells. MAP2D is concentrated at the Golgi apparatus along with RI and RII and, based on coimmunoprecipitation results, appears to bind both RI and RII in granulosa cells. Reduced expression of MAP2D resulting from treatment of granulosa cells with antisense oligonucleotides to MAP2 inhibited the phosphorylation of cAMP-response element-binding protein. These results suggest that this classic neuronal RII AKAP is a dual RI/RII AKAP that performs unique functions in ovarian granulosa cells that contribute to the preovulatory phenotype.     

Regulation of follicle-stimulating hormone-receptor messenger RNA in hen granulosa cells relative to follicle selection

Both the viability of hen prehierarchal follicles and subsequent differentiation associated with the selection of a single follicle per day into the preovulatory hierarchy depend on circulating FSH and the expression of FSH receptor (FSH-R) in granulosa cells. The present study addresses mechanisms that mediate both basal expression plus selective up-regulation of FSH-R mRNA in granulosa cells from prehierarchal follicles. Results demonstrate that FSH-R mRNA is both expressed and functional in granulosa cells collected from growing prehierarchal follicles as small as those of 1-2 mm in diameter, as indicated by rapid induction of steroidogenic acute regulatory (StAR) protein expression by FSH in vitro. Real-time polymerase chain reaction determined that relative FSH-R expression within the granulosa layer from individual prehierarchal follicles of 6-8 mm in diameter was similar among the 8-13 follicles within this cohort, with the notable exception that the granulosa layer from a single follicle (presumably the selected follicle) showed elevated expression. Levels of FSH-R mRNA expression were enhanced by both recombinant human (rh) transforming growth factor (TGF) beta1 and, to a lesser extent, rh-activin A after 20 h of culture. This stimulatory effect was effectively blocked by mitogen-activated protein (MAP) kinase signaling induced by TGF alpha treatment. Finally, inhibition of MAP kinase signaling, using the selective inhibitor U0126, promoted FSH-R expression and further enhanced TGF beta1-induced FSH-R expression in vitro. Collectively, results suggest that premature granulosa cell differentiation normally is suppressed by tonic MAP kinase signaling. At the time of follicle selection, a release from inhibitory MAP kinase signaling is proposed to occur, which enables the full potentiation of FSH-R expression mediated by intrafollicular factors.     

Follicle stimulating hormone-induced DNA synthesis in the granulosa cells of hamster preantral follicles involves activation of cyclin-dependent kinase-4 rather than cyclin d2 synthesis

Although cyclin D2 mRNA synthesis precedes gonadotropin-induced DNA synthesis in quiescent granulosa cells in culture, it is unclear whether a similar mechanism exists for the granulosa cells of growing preantral follicles in cyclic animals. The objective was to evaluate whether the synthesis of cyclin D2 protein was a prerequisite for FSH-induced DNA synthesis in the granulosa cells of intact preantral follicles of cyclic hamsters. Preantral follicles from cyclic hamsters were cultured in the presence or absence of FSH, and cell cycle parameters were examined. FSH stimulated cyclin-dependent kinase (CDK)-4 activity by 2 h and DNA synthesis by 4 h without altering the levels of cyclin D2 in the granulosa cells. The FSH effect was mimicked by epidermal growth factor administered in vivo. Although FSH increased the levels of cyclin D2 mRNA, it also stimulated the degradation of cyclin D2 as well as p27(Kip1) and p19(INK4) proteins. FSH activation of CDK4 was mediated by cAMP and ERK-1/2. In contrast to granulosa cells in intact follicles, FSH or cAMP significantly increased cyclin D2 protein levels in cultured granulosa cells but failed to induce DNA synthesis. Collectively, these data suggest that granulosa cells of preantral follicles, which are destined to enter the S phase during the estrous cycle, contain necessary amounts of cyclin D2 and other G1 phase components. FSH stimulation results in the formation and activation of the cyclin D2/CDK4 complex leading to DNA synthesis. This mechanism may be necessary for rapid movement of follicles from preantral to antral stages during the short duration of the murine estrous cycle.     

Expression of mRNA of lipoprotein receptor related protein 8, low density lipoprotein receptor, and very low density lipoprotein receptor in bovine ovarian cells during follicular development and corpus luteum formation and regression

Lipoproteins in the plasma are the major source of cholesterol obtained by the ovarian theca and granulosa cells for steroidogenesis. In this study, we have identified mRNA expression in bovine theca and granulosa cells of two lipoprotein receptors, low density lipoprotein receptor (LDLr) and very low density lipoprotein receptor (VLDLr) in granulosa cells from small antral follicles through preovulatory follicles and in theca cells from large and medium sized antral follicles. In the corpus luteum (CL) both these receptors were found in the developing and differentiating stages whereas only mRNA for VLDLr was detected in the regression stage. This study also described for the first time, the presence of lipoprotein receptor related protein (LRP8) in granulosa cells from small antral follicles through preovulatory follicles and in theca cells from large and medium sized antral follicles. This may indicate a role of LRP8 in cholesterol delivery to steriodogenic cells. LRP8 was not detected in any of the CL stages. The roles of the LDLr superfamily in lipid transport to ovarian cells and its participation in follicular and CL development and regression is discussed.     

Production and validation of a polyclonal serum against bovine FSH receptor

In ovarian granulosa cells, follicle-stimulating hormone (FSH) regulates the proliferation and differentiation events required for follicular growth and oocyte maturation. FSH actions are mediated exclusively through the FSH receptor (FSHR). In cattle, the FSHR gene expression pattern during folliculogenesis and the implications of this receptor in reproductive disorders have been extensively studied. However, the limited availability of specific antibodies against bovine FSHR has restricted FSHR protein analysis. In the present study, we developed an anti-FSHR polyclonal serum by using a 14-kDa peptide conjugated to maltose binding protein. The antiserum obtained was characterized by western blot of protein extracts from bovine follicles, BGC-1 cells and primary cultures of granulosa cells stimulated with testosterone. Also, the blocking effect of serum on estradiol secretion and cell viability after gonadotropin stimulus was characterized in a functional in vitro assay. A 76-kDa protein, consistent with the predicted molecular size of full-length FSHR, was detected in ovarian tissue. Besides, two immunoreactive bands of 60-kDa and 30-kDa (only in cultured cells) were detected. These bands would be related to some of the isoforms of the receptor. Therefore, immunohistochemical assays allowed detecting FSHR in the cytoplasm of granulosa cells and an increase in its expression as follicles progressed from primordial to large preantral follicles. These results suggest that the anti-FSHR serum here developed has good reactivity and specificity against the native FSHR. Therefore, this antiserum may serve as a valuable tool for future studies of the biological function of FSHR in physiological conditions as well as of the molecular mechanism and functional involvement of FSHR in reproductive disorders.     

Luteinizing hormone receptor activation in ovarian granulosa cells promotes protein kinase A-dependent dephosphorylation of microtubule-associated protein 2D

The actions of LH to induce ovulation and luteinization of preovulatory follicles are mediated principally by activation of cAMP-dependent protein kinase (PKA) in granulosa cells. PKA activity is targeted to specific locations in many cells by A kinase-anchoring proteins (AKAPs). We previously showed that FSH induces expression of microtubule-associated protein (MAP) 2D, an 80-kDa AKAP, in rat granulosa cells, and that MAP2D coimmunoprecipitates with PKA-regulatory subunits in these cells. Here we report a rapid and targeted dephosphorylation of MAP2D at Thr256/Thr259 after treatment with human chorionic gonadotropin, an LH receptor agonist. This event is mimicked by treatment with forskolin or a cAMP analog and is blocked by the PKA inhibitor myristoylated-PKI, indicating a role for cAMP and PKA signaling in phosphoregulation of granulosa cell MAP2D. Furthermore, we show that Thr256/Thr259 dephosphorylation is blocked by the protein phosphatase 2A (PP2A) inhibitor, okadaic acid, and demonstrate interactions between MAP2D and PP2A by coimmunoprecipitation and microcystin-agarose pull-down. We also show that MAP2D interacts with glycogen synthase kinase (GSK) 3beta and is phosphorylated at Thr256/Thr259 by this kinase in the basal state. Increased phosphorylation of GSK3beta at Ser9 and the PP2A B56delta subunit at Ser566 is observed after treatment with human chorionic gonadotropin and appears to result in LH receptor-mediated inhibition of GSK3beta and activation of PP2A, respectively. Taken together, these results show that the phosphorylation status of the AKAP MAP2D is acutely regulated by LH receptor-mediated modulation of kinase and phosphatase activities via PKA.     

Effects of genistein and lavendustin on reproductive processes in domestic animals in vitro

The aim of our experiments was to study the influence of genistein [tyrosine kinase (TK) inhibitor with estrogenic activity] and lavendustin A (TK inhibitor without estrogenic activity) on female reproductive processes in domestic animals in vitro. It was found that genistein (0.001–1 μg/ml) increased IGF-I release by cultured bovine and porcine granulosa cells, but decreased its secretion by rabbit granulosa cells (0.01–10 μg/ml). Genistein stimulated progesterone secretion by bovine and rabbit granulosa cells (at 0.01–10 μg/ml), estradiol output by rabbit granulosa cells (at 1 μg/ml) and porcine ovarian follicles (at 10 μg/ml), as well as cAMP production by bovine (at 0.001–1 μg/ml) and rabbit (at 1 μg/ml) granulosa cells. No effects of genistein (at 10 μg/ml) on PGF-2 alpha and progesterone release by porcine ovarian follicles were observed. Genistein significantly (P < 0.05) stimulated the reinitiation and completion of nuclear maturation of porcine oocytes (at 5 μg/ml), as well as the preimplantation development of rabbit zygotes (at 1 μg/ml). Lavendustin A (0.001–1 μg/ml) increased IGF-I release by bovine (but not by porcine) granulosa cells, cAMP release by bovine granulosa cells, and PGF-2 alpha output by porcine ovarian follicles (at 10 μg/ml). Lavendustin (at 1 μg/ml) had no significant effect on IGF-I release by porcine granulosa cells, on estradiol and cAMP output by rabbit granulosa cells, or on progesterone secretion by porcine follicles (at 10 μg/ml). Inhibitory actions of lavendustin (at 10 μg/ml) on estradiol secretion by porcine follicles were also found. Furthermore, lavendustin, like genistein, promoted the reinitiation and completion of meiosis in porcine oocytes. The present study demonstrates a predominantly stimulatory effect of TK inhibition on endocrine and generative processes in domestic animals. The majority of these effects are similar for both compounds, indirectly suggesting that their action is due to tyrosine kinase inhibition and protein kinase A-stimulation, rather than estrogenic activity.