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

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

N-acetylcysteine increases the biosynthesis of recombinant EPO in apoptotic Chinese hamster ovary cells

Sodium butyrate (NaBu) is known to enhance the rate of biosynthesis of recombinant proteins in Chinese hamster ovary cells (CHO). Here we demonstrate that supplementation with NaBu during rapid growth brings about abrupt death of the cells. The death of the cells is due to apoptosis, as assessed by intranucleosomal DNA fragmentation. The promotion of apoptotic death of the cells could be partially blocked by treatment with the well-known antioxidant, N-acetylcysteine (NAC). Strikingly, the NAC treatment enhanced the production of recombinant EPO two-fold compared with that of the culture without NAC supplementation. These results showed that NaBu treatment supplemented with NAC not only inhibits apoptosis, but also exerts a synergistic effect on the biosynthesis of recombinant EPO.     

N-acetylcysteine increases the biosynthesis of recombinant EPO in apoptotic Chinese hamster ovary cells

Sodium butyrate (NaBu) is known to enhance the rate of biosynthesis of recombinant proteins in Chinese hamster ovary cells (CHO). Here we demonstrate that supplementation with NaBu during rapid growth brings about abrupt death of the cells. The death of the cells is due to apoptosis, as assessed by intranucleosomal DNA fragmentation. The promotion of apoptotic death of the cells could be partially blocked by treatment with the well-known antioxidant, N-acetylcysteine (NAC). Strikingly, the NAC treatment enhanced the production of recombinant EPO two-fold compared with that of the culture without NAC supplementation. These results showed that NaBu treatment supplemented with NAC not only inhibits apoptosis, but also exerts a synergistic effect on the biosynthesis of recombinant EPO.     

Neutral endopeptidase is expressed on the follicular granulosa cells of rabbit ovaries

Neutral endopeptidase (NEP) is a zinc metallopeptidase ubiquitously distributed in various tissues in mammals. This peptidase is involved in the post-secretory metabolism of various neuropeptides and peptide hormones in vivo, such as enkephalins, bradykinin, atrial natriuretic peptide, substance P and endothelins. In this paper we show that NEP is expressed in ovaries as a 110-kDa glycosylated integral membrane protein with enzymatic properties similar to those of the kidney protein. Using immunohistochemistry, we localize the peptidase in the granulosa cells of follicles at all stages of maturation, with the exception of atretic follicles. We also observe immunoreactive staining in the epithelia that lines the blood vessels in the medulla and the surface of the ovary. The co-localization of NEP and bioactive peptides known to be physiological substrates of NEP in other tissues suggests an important role for this protein in processes such as follicle maturation, ovulation, and/or regulation of ovarian blood flow, by modulating the physiological function of these peptides.     

The production of progesterone and 5,6-epoxyeicosatrienoic acid by human granulosa cells

Previous investigations have implicated epoxygenase metabolites of arachidonic acid in the control of steroidogenesis in luteinised granulosa cells. The aim of this study was to assess this hypothesis further. We first determined the responsiveness of the cells in vitro to three different stimuli, namely luteinising hormone (LH), interleukin-1β (IL-1β), and dibutyryl cyclic AMP (db. cyclic AMP). Their effects were time-dependent, in that progesterone production from cells incubated for 3 days prior to stimulation responded strongly to db. cyclic AMP, to a lesser extent to LH and not to IL-1β. After 6 days of preincubation, all three stimuli increased progesterone production, and this preincubation period was used in the remainder of the study.

LH and IL-1β increased the intracellular levels of 5,6-epoxyeicosatrienoic acid (5,6-EpETrE) maximally after 10 min, whereas db. cyclic AMP had a more rapid effect within 2–5 min. There were no changes in levels of 14,15-epoxyeicosatrienoic acid (14,15-EpETrE), indicating that the effect was specific. Levels of dihydroxy derivatives of arachidonic acid were also increased, suggesting rapid metabolism of 5,6-EpETrE to inactive 5,6-DiHETrE. The effects of 5,6-EpETrE on progesterone production were transient, which may be due to the lability of this compound in solution, and limited passage into the granulosa-luteal cell cytoplasm. These results support a role for 5,6-EpETrE in the production of progesterone by human granulosa-luteal cells.     

Melatonin directly stimulates the secretion of progesterone by human and bovine granulosa cells in vitro

Melatonin, at concentrations and periods of exposure reflecting those present during the circadian cycle, was investigated for its influence on steroid production by granulosa cells cultured in serum-supplemented medium. At high (200 pg/ml) but not low (20 pg/ml) physiological concentrations, melatonin significantly stimulated progesterone production by human granulosa cells. This response was independent of the overall level of cell activity and was seen under the different culture conditions associated with different culture media. Exposure to melatonin for 8 h significantly stimulated progesterone secretion to a level similar to that achieved under continuous exposure, and the effect was reduced to control levels during subsequent periods in which no melatonin was added. Melatonin had no consistent effect on aromatase activity in the conversion of stored or serum-available androgen to oestradiol. Melatonin significantly stimulated progesterone production by bovine granulosa cells in vitro, at concentrations similar to those present during the endogenous nocturnal rise (100-400 pg/ml). This response to physiological conditions by human and bovine cells suggests a role for melatonin in the regulation of progesterone production by the ovary.     

Regional pattern of cell maturation and progesterone biosynthesis in the avian granulosa cell layer

The objective of the present study was to compare the structural and functional features of cells derived from histologically different regions of the granulosa cell layer of hen preovulatory follicles. Granulosa cells were isolated from a 0.8-1.5-cm diameter region of the granulosa layer overlying the germinal disc (GD) or from the remainder of the granulosa layer peripheral to the disc region (GP). In the first study, the isolated cells were prepared from each region of the five largest preovulatory follicles; fixed; stained with fluorescent dyes for DNA, total protein, and RNA; and analyzed by use of multiparameter flow cytometry. A greater percentage of cells from the GD region than from the GP region were in proliferative (S and G2/M) stages of the cell cycle in the four largest follicles. In addition, GD cells had lower relative protein content than GP cells in the two largest follicles. In the second study, progesterone biosynthesis in response to treatment with luteinizing hormone (LH) or forskolin was examined in granulosa cells from the GD and the GP regions of the largest preovulatory follicles. GP cells had greater responsiveness to the treatments than GD cells. In addition, conversion of 25-hydroxy-cholesterol to progesterone was greater in GP cells than in GD cells. There were no differences in cyclic adenosine 3',5'-monophosphate (cAMP) production by GD and GP cells in response to LH or forskolin or in the ability of cells from each region to convert pregnenolone substrate to progesterone via 3 beta-hydroxysteroid dehydrogenase activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Fractalkine is expressed by smooth muscle cells in response to IFN-gamma and TNF-alpha and is modulated by metalloproteinase activity.

Fractalkine/CX3C-chemokine ligand 1 is expressed as a membrane-spanning adhesion molecule that can be cleaved from the cell surface to produce a soluble chemoattractant. Within the vasculature, fractalkine is known to be generated by endothelial cells, but to date there are no reports describing its expression by smooth muscle cells (SMC). In this study we demonstrate that IFN-gamma and TNF-alpha, but not IL-1beta, cooperate synergistically to induce fractalkine mRNA and protein expression in cultured aortic SMC. We also report the release of functional, soluble fractalkine from the membranes of stimulated SMC. This release is inhibited by the zinc metalloproteinase inhibitor batimastat, resulting in the accumulation of membrane-associated fractalkine on the SMC surface. Therefore, an SMC-derived metalloproteinase activity is involved in fractalkine shedding. While soluble fractalkine present in SMC-conditioned medium is capable of inducing calcium transients in cells expressing the fractalkine receptor (CX3CR1), blocking experiments using neutralizing Abs reveal that it can be inactivated without affecting the chemotactic activity of SMC-conditioned media on monocytes. However, membrane-bound fractalkine plays a major role in promoting adhesion of monocytic cells to activated SMC. This fractalkine-mediated adhesion is further enhanced in the presence of batimastat, indicating that shedding of fractalkine from the cell surface down-regulates the adhesive properties of SMC. Hence, during vascular inflammation, the synergistic induction of fractalkine by IFN-gamma and TNF-alpha together with its metalloproteinase-mediated cleavage may finely control the recruitment of monocytes to SMC within the blood vessel wall.     

The androgen receptor does not mediate progestin regulation of progesterone biosynthesis in cultured rat granulosa cells

In the present investigation the influence of androgens and progestins on the FSH modulation of progesterone biosynthesis was studied in cultured rat granulosa cells. Cells obtained from the ovaries of immature estrogen treated rats were cultured for three days in serum free medium or in medium supplemented with FSH or CPA, with or without reduced androgen DHT or the synthetic progestin R5020 alone or in combination with the anti-androgen CPA. Treatment with FSH increased pregnenolone, progesterone and 20 alpha-OHP accumulation in the culture medium 20-, 14- and 7-fold, respectively. Furthermore FSH increased the activity of the enzyme 3 beta-HSD. Concurrent treatment with DHT or R5020 augmented the FSH stimulated steroidogenesis of cultured cells. The androgen enhancement of FSH stimulated steroidogenesis of cultured granulosa cells was blocked by concomitant treatment with CPA, whereas treatment of cultures with anti-androgen did not affect the stimulatory effect of the synthetic progestin R5020.     

Stimulation of progesterone secretion by cultured human granulosa cells with melatonin and catecholamines

Granulosa cells, aspirated from the follicles of patients undergoing treatment for in-vitro fertilization, were cultured in serum-supplemented medium. Adrenaline and noradrenaline stimulated a dose-related increase in progesterone secretion with a maximum stimulation at 10(-5) M, a response that was prevented by the beta-antagonist, propranolol. Adrenaline and hCG showed similar characteristics in their stimulation of progesterone secretion but there was no further increase in progesterone when the 2 compounds were added together. Melatonin stimulated progesterone secretion and, like adrenaline, this stimulation was prevented by propranolol. The ability of both adrenaline and melatonin to increase progesterone secretion was dependent on the degree of follicular development, as determined by peripheral oestradiol concentrations, on the day of laparoscopy. These results suggest that adrenaline and melatonin may have a physiological role in modulating luteal function and that melatonin may act by a beta-adrenergic-related mechanism.     

Rapid actions of progesterone on granulosa cells

Ovarian granulosa cells are responsive to progesterone but do not express the nuclear progesterone receptor. In an attempt to identify a receptor for progesterone (P4) in granulosa cells (GCs), an antibody built against the ligand binding site of the P4 receptor (i.e. C-262) was used. This antibody detected a 60 kDa protein in GCs as well as spontaneously immortalized granulosa cells (SIGCs). This C-262 detectable protein localizes to the plasma membrane and binds P4. Importantly, this C-262 detectable protein appears to be involved in mediating P4's biological actions. This is based on the findings that C-262 1) blocks P4's ability to inhibit mitogen-induced mitosis and apoptosis and 2) FITC-BSA-conjugated P4 binding to granulosa cells. A C-262 detectable protein was isolated using a C-262 affinity column and sequenced. This analysis identified an unnamed protein referred to as RDA288 that was found in the rat genome (Accession number: XM216160). A nearly identical unnamed protein was found in a cDNA library of mouse lung (Accession number: AK004678). Whether RDA288 functions as a membrane receptor for P4 remains to be determined.     

Overexpression of progesterone receptor B increases sensitivity of human colon muscle cells to progesterone

Colon muscle strips and cells from female patients with slow-transit constipation (STC) exhibit impaired motility, signal transduction abnormalities characterized by downregulation of Gq/11 and upregulation of Gs proteins, decreased cyclooxygenase (COX)-1 and thromboxane (Tx)B2 levels, increased COX-2 and PGE2 levels, and overexpression of progesterone receptors (PGR). Progesterone (P4) treatment of normal cells reproduced these motility and signal transduction abnormalities. The purpose of the study was to examine whether overexpression of PGR-B reproduces these abnormalities by rendering the cells more sensitive to physiological concentrations of P4. Cultured human colon muscle was transfected with a plasmid DNA expressing PGR-B. The mRNAs of PGR, COX-1, COX-2, and Gq/11 were determined by quantitative real-time PCR. Their protein expression was determined by Western blot, and prostaglandins were measured by radioimmunoassay. Cultured muscle cells maintained their phenotypic features determined with myosin light chain (MLC) and h-caldesmon antibodies. Control and transfected muscle cells responded to 10(-6) M P4. In contrast, muscle cells transfected with PGR-B responded to lower P4 concentration (10(-7) M). This P4 concentration reduced MLC phosphorylation induced by CCK-8 (10(-8) M), downregulated Gq/11, and decreased COX-1 and TxB2 levels. It upregulated Gs proteins. It also increased COX-2 and PGE2 levels. We conclude that overexpression of PGR-B renders the cells more sensitive to physiological concentrations of P4. These results are consistent with the hypothesis that overexpression of PGR-B contributes to the motility and signal transduction abnormalities observed in female patients with STC and normal serum levels of P4.     

Metabolism of progesterone by avian granulosa cells in culture

Previous studies have demonstrated that progesterone is the primary product of steroidogenesis in avian granulosa cells during short-term incubation. However, during more prolonged culture, lasting several days, the progesterone content in the medium was found to decrease progressively, indicating in vitro metabolic conversion. In the present study we have isolated and identified a number of progesterone metabolites. Granulosa cells, isolated from mature ovarian follicles of laying hens, were cultured in medium 199 supplemented with fetal calf serum and containing [14C]progesterone. After 4 days in culture, cells + media were extracted and the radioactive metabolites separated and identified by TLC, HPLC and GC-MS. Several of the metabolites were further characterized by derivatization and crystallization to constant specific activity. A total of 24 radioactive substances was detected. Of these, 15 have been positively identified, 5 tentatively and the remaining 4 are unidentified. The principal metabolite, representing more than 45% of the total radioactivity, was identified as 3 alpha-hydroxy-5 beta-pregnan-20-one. In addition, significant amounts of 3 alpha-hydroxy-5 alpha-pregnan-20-one (5.76%), 5 beta-pregnane-3,20-dione (3.05%), and 5 alpha-pregnane-3,20-dione (2.95%) were detected and identified. The results indicate that avian granulosa cells possess 3 alpha-hydroxy-steroid dehydrogenase (3 alpha-HSD), 17 beta-HSD, 20 alpha-HSD, 20 beta-HSD, 17 alpha-hydroxylase, C17-20-lyase and 5 alpha- and 5 beta-reductase activities. These enzyme activities may convert progesterone to biologically inactive or less active metabolites. However, a functional role for some of these metabolites cannot be ruled out.     

Depletion of substrates for protein prenylation increases apoptosis in human periovulatory granulosa cells

Progesterone receptor (PR) stimulation promotes survival in human and rat periovulatory granulosa cells. PR antagonists, Org 31710 and RU 486, both increase apoptosis and decrease cholesterol synthesis in these cells. The decrease in cholesterol synthesis also causes decreased synthesis of other products branching from the cholesterol synthesis pathway, including substrates for protein prenylation. In this study we focus on the link between apoptosis and prenylation in human periovulatory granulosa cells. A decreased cholesterol synthesis and increased apoptosis was verified in experiments with human periovulatory granulosa cells treated with the PR antagonists Org 31710 or RU 486 by measuring caspase-3/7 activity and incorporation of 14C-acetate into cholesterol and progesterone. Correspondingly, specific inhibition of cholesterol synthesis in periovulatory human granulosa cells using HMG-CoA reductase inhibitors (lovastatin or simvastatin) increased apoptosis, measured as caspase-3/7 activity. The increase in apoptosis caused by simvastatin or Org 31710 was partially reversed by addition of the protein prenylation precursors farnesol or geranylgeraniol. In addition, the prenylation inhibitors FTI R115777 and GGTI 2147 increased apoptosis in these cells. In conclusion our data suggest that PR antagonists increase apoptosis and reduce cholesterol synthesis in periovulatory granulosa cells and that the resulting depletion of substrates for protein prenylation may contribute to the increased apoptosis sensitivity.     

Fractalkine and apoptotic/anti-apoptotic markers in granulosa cells of women with polycystic ovarian syndrome

Molecular Biology Reports - Owing to the role of fractalkine in regulating cellular apoptosis/proliferation, we investigated fractalkine effects on apoptosis/proliferation signaling of granulosa...     

Evidence that Sry is expressed in pre-Sertoli cells and Sertoli and granulosa cells have a common precursor.

The expression of Sry in the undifferentiated, bipotential genital ridges of mammalian XY fetuses initiates testis development and is hypothesized to do so by directing supporting cell precursors to develop as Sertoli cells and not as granulosa cells. To directly test this hypothesis, transgenic mice expressing EGFP under the control of the Sry promoter were produced. After establishing that the transgene was expressed in fetal gonads similarly to endogenous Sry, the spatial and temporal expression of the Sry-EGFP transgene was investigated in developing gonads by using confocal microscopy and immunofluorescent histochemistry. This analysis indicated: (1) Sry is first expressed in cells located centrally in the genital ridge and then later in cells located at the cranial and caudal poles, (2) Sry is expressed exclusively in pre-Sertoli cells in the urogenital ridge, and (3) Sertoli and granulosa cells develop from a common precursor. These results support the hypothesis that Sry initiates testis differentiation by directing the development of supporting cell precursors as Sertoli rather than granulosa cells. Furthermore, the Sry expression pattern explains the nonrandom distribution of testicular and ovarian tissue in mammalian ovotestes.     

Effects of interleukin-8 on estradiol and progesterone production by bovine granulosa cells from large follicles and progesterone production by luteinizing granulosa cells in culture

Interleukin 8 (IL-8) is a chemoattractant involved in the recruitment and activation of neutrophils and is associated with the ovulate process. We examined the possible role of IL-8 in steroid production by bovine granulosa cells before and after ovulation. The concentration of IL-8 in the follicular fluid of estrogen-active dominant (EAD) and pre-ovulatory follicles (POF) was higher than that of small follicles (SF). CXCR1 mRNA expression was higher in the granulosa cells of EAD and POF than that of SF. In contrast, CXCR2 mRNA expression was lower in granulosa cells of EAD and POF than in SF. IL-8 inhibited estradiol (E2) production in follicle-stimulating hormone (FSH)-treated granulosa cells at 48 h of culture. IL-8 also suppressed CYP19A1 mRNA expression in FSH-treated granulosa cells. IL-8 stimulated progesterone (P4) production in luteinizing hormone (LH)-treated granulosa cells at 48 h of culture. Although IL-8 did not alter the expression of genes associated with P4 production, it induced StAR protein expression in LH-treated granulosa cells. The expression of CXCR1 mRNA in corpus luteum (CL) did not change during the luteal phase. In contrast, the expression of CXCR2 mRNA in middle CL was significantly higher than in early and regression CL during the luteal phase. In luteinizing granulosa cells, an in vitro model of granulosa cell luteinization, CXCR2 mRNA expression was downregulated, whereas CXCR1 mRNA expression was unchanged. IL-8 also stimulated P4 production in luteinizing granulosa cells. These data provide evidence that IL-8 functions not only as a chemokine, but also act as a regulator of steroid synthesis in granulosa cells to promote luteinization after ovulation.     

Steroid sulfatase activity in the rat ovary, cultured granulosa cells, and a granulosa cell line

Direct production of gonadal steroids from sulfated adrenal androgens may be an important alternative or complementary pathway for ovarian steroidogenesis. The conversion of sulfated adrenal androgens, present in serum at micromolar concentrations in adult women, into unconjugated androgens or estrogens requires steroid sulfatase (STS) activity. STS activity has not been characterized in the rat ovary. Substantial STS activity was present in homogenates of rat ovaries, primary cultures of rat granulosa cells, and a granulosa cell line, as determined by conversion of radiolabeled estrone sulfate (E₁S) to unconjugated estrone. The potent inhibitor estrone sulfamate eliminated the STS activity. Using E₁S as a substrate with microsomes prepared from a granulosa cell line, the K_m of STS activity was approximately 72 μM, a value in agreement with previously published data for rat STS. Therefore, ovarian cells possess STS and can remove the sulfate from adrenal androgens such as dehydroepiandrosterone sulfate (DHEA-S). Using DHEA-S as a steroidogenic substrate represents an alternative model for the production of ovarian steroids versus the “two cell, two gonadotropin” model of ovarian estrogen synthesis, whereby thecal cells produce androgens from substrate cholesterol and granulosa cells convert the androgens into estrogens. The relative contribution of STS activity to ovarian steroidogenesis remains unclear but may have important physiological and pathophysiological implications.     

Purification and characterization of recombinant human interleukin 5 expressed in Chinese hamster ovary cells

Recombinant human interleukin 5 (rhIL-5) expressed in Chinese hamster ovary cells was purified and characterized. Molecular heterogeneity was observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Two major components of Mr around 40,000 were detected under non-reducing conditions. However, under reducing conditions, the Mr of rhIL-5 was determined to be 22,000 and 20,000. After treatment with endoglycosidase F, a band with an apparent Mr of 18,000 was observed. Treatment of rhIL-5 with 2-mercaptoethanol followed by N-ethylmaleimide resulted in its dissociation into a monomeric form. This alkylated rhIL-5 was biologically less active than intact rhIL-5. These results suggest that rhIL-5 exists as a dimer, and that the heterogeneity of rhIL-5 is mainly due to the difference in the content of carbohydrate. Moreover, the formation of disulfide bond(s) might be important for the biological activity of rhIL-5.