Angiotensin II inhibits luteinizing hormone-stimulated cholesterol side chain cleavage expression and stimulates basic fibroblast growth factor expression in bovine luteal cells in primary culture

Ovarian derived prorenin-angiotensin cascade in human reproduction

OBJECTIVE

To review the available literature concerning the renin-angiotensin system of the human and animal ovary and to outline the clinical relevance of this system.

DESIGN

The location, function, and regulation of the components of the ovarian prorenin cascade are described. The possible functions of this system as well as its association with common gynecologic problems are also given.

CONCLUSIONS

The ovary contains a complete cascade whose end product is the formation of angiotensin II. Angiotensin II may have a role in steroid synthesis, oocyte maturation, ovulation, and corpus luteum formation. Further, aberrations in this system are associated with ovarian tumors, ectopic pregnancy, pre-eclampsia, and ovarian hyperstimulation syndrome.

The basis and evidence of a role for the ovarian renin-angiotensin system in health and disease

OBJECTIVE

We reviewed the evidence for an intrinsic ovarian renin-angiotensin system (OVRAS), highlighting potential diverse signaling in this system through different bioactive angiotensin peptides, their specific receptors, and second messengers. In addition, sites of action for OVRAS in the regulation of ovarian function in health and disease were reviewed.

DATA SOURCES

We used published journals and abstracts from national scientific meetings. Current developments in the renin-angiotensin field are historically set.

STUDY SELECTION

One hundred referenced articles provided studies on renin-angiotensin systems in mammalian species, including humans.

DATA ABSTRACTION

Interpretation of the reviewed publication was in line with the original authors' conclusions and statistical analysis.

DATA SYNTHESIS

Techniques in molecular biology, biochemistry, and immunohistochemistry have identified an OVRAS in mammalian species. Ovarian tissues contain all the elements for the production of angiotensin, including prorenin/renin, angiotensinogen, and angiotensin-converting enzyme. In addition, angiotensin II is present in ovarian compartments, and receptors for angiotensin II are demonstrated on specific ovarian cells. Angiotensin II is implicated to play a role in ovulation, steroidogenesis, follicular atresia, and hyperandrogenic syndromes.

CONCLUSIONS

The newly identified OVRAS may have important actions in the ovary that range from regulation of ovulation to ovarian dysfunction, such as hyperandrogenic syndromes in women. In this respect, the OVRAS is a putative paracrine/autocrine regulator in the ovary, and pharmacologic regulation of the OVRAS may provide new methods for the management of fertility and reproduction.

Angiotensin II (AII) modulation of steroidogenesis by luteinized granulosa cells in vitro

PURPOSE

The purpose of the present study was to evaluate the effect of angiotensin II and its inhibitor, saralasin, on steroid production by luteinized human granulosa cells in vitro. Granulosa cells were obtained from follicular fluid aspirations from human in vitro fertilization. Cultures were established in supplemented Ham's F-10 medium. Human chorionic gonadotropin and angiotensin II were added to culture media and the effect on steroid production was measured.

RESULTS

Human chorionic gonadotropin alone stimulated production of progesterone, estradiol, and testosterone. The addition of angiotensin II resulted in a dose-dependent increase in progesterone production (428% increase compared to baseline). No effect was seen on estradiol or testosterone. However, a large increase (700%) in estradiol was seen with the addition of the competitive inhibitor of angiotensin II, saralasin.

CONCLUSION

We conclude that angiotensin II modulates progesterone production by human luteinized granulosa cells in vitro. The observed enhancement of estradiol production by angiotensin blockade suggests a tonic inhibition of estradiol secretion by endogenous angiotensin II.

Regulation of cell proliferation and growth by angiotensin II

The peptide hormone angiotensin II (AngII) has clearly defined physiologic roles as a regulator of vasomotor tone and fluid homeostasis. In addition AngII has trophic or mitogenic effects on a variety of target tissues, including vascular smooth muscle and adrenal cells. More recent data indicate that AngII exhibits many characteristics of the 'classical' peptide growth factors such as EGF/TGF alpha, PDGF and IGF-1. These include the capacity for local generation ('autocrine or paracrine' action) and the ability to stimulate tyrosine phosphorylation, to activate MAP kinases and to increase expression of nuclear proto-oncogenes. The type 1 AngII receptor, which is responsible for all known physiologic actions of AngII, has been cloned. Activation of this receptor leads to elevated phosphoinositide hydrolysis, mobilization of intracellular Ca2+ and diacylglycerol, and activation of Ca2+/calmodulin and Ca2+/phospholipid-dependent Ser/Thr kinases, as well as Ca2+ regulated tyrosine kinases. The existence of other AngII receptor subtypes has been postulated, but the function(s) of these sites remains unclear. In vascular smooth muscle, AngII can promote cellular hypertrophy and/or hyperplasia, depending in part on the patterns of induction of secondary factors that are known to stimulate (PDGF, IGF-1, basic FGF) or inhibit (TGF-beta) mitosis. Together, these findings have suggested that AngII plays important roles in both the normal development and pathophysiology of vascular, cardiac, renal and central nervous system tissues.

Expression of basic fibroblast growth factor (FGF-2) messenger ribonucleic acid is regulated by testosterone in the rat anterior pituitary

Evidence from in vivo studies supports the concept that growth factors are involved in the function of endocrine organs. We studied the effects of target endocrine organs (thyroid, adrenals, and gonads) on levels of basic fibroblast growth factor (FGF-2) messenger ribonucleic acid (mRNA) in the anterior pituitary and the hypothalamus of male rats using RNase protection assays. Castration significantly reduced the levels of FGF-2 mRNA in the anterior pituitary, but not in the hypothalamus. This decrease was restored by testosterone administration. The regulation of pituitary FGF-2 mRNA involves a specific hormone, i.e. testosterone, since neither adrenalectomy nor chemical thyroidectomy affects the expression of the gene for FGF-2.

Regulation of CYP11A gene expression in bovine ovarian granulosa cells in primary culture by cAMP and phorbol esters is conferred by a common cis-acting element

Production and secretion of steroid hormones throughout the ovarian cycle occurs in a highly episodic and coordinated fashion that requires precise and finely tuned regulatory mechanisms. The regulation of ovarian steroidogenesis by the gonadotropin follicle stimulating hormone (FSH) and luteinizing hormone (LH) as well as by other factors occurs, at least in part, at the level of expression of the genes encoding steroidogenic enzymes. The present study is aimed at the elucidation of regulatory mechanisms by which cyclic adenosine monophosphate (cAMP) and protein kinase C regulate cytochrome P450scc (CYP11A) gene expression in bovine granulosa cells in primary culture. As a first step we characterized the bovine granulosa cell cultures with regard to regulation of P450scc activity and mRNA levels upon treatment with forskolin and/or the phorbol ester TPA. Forskolin, a potent stimulator of cAMP generation, increased both progesterone secretion and P450scc mRNA levels. In contrast, treatment with TPA alone decreased both basal progesterone production and P450scc mRNA accumulation. Co-treatment with forskolin and TPA decreased progesterone and P450scc mRNA levels as compared to forskolin treatment alone. The possibility that TPA interfered with the forskolin-stimulated cAMP production could be excluded because simultaneous treatment of granulosa cells with TPA and forskolin potentiated the formation of cAMP. In order to identify regulatory sequences within the 5' flanking region of the bovine CYP11A gene, chimeric DNA constructs comprizing regions of the CYP11A gene fused to a beta-globin-derived reporter gene were transfected into granulosa cells in primary culture.(ABSTRACT TRUNCATED AT 250 WORDS)

cAMP-dependent and tissue-specific expression of genes encoding steroidogenic enzymes in bovine luteal and granulosa cells in primary culture

Steroidogenic enzymes are differentially expressed throughout the ovarian cycle. The complex pattern of cell-specific up- and down-regulation accounts, at least in part, for the cyclic production of estrogens, androgens and progesterone. The gonadotropins follicle-stimulating hormone and luteinizing hormone are the main regulators of ovarian steroid hormone production and act primarily via the cAMP second-messenger system. Previous studies have identified cAMP-responsive sequences (CRS) in a number of genes encoding steroidogenic enzymes. In the present study we attempted to compare the cAMP responsiveness of some of these sequences with each other and with the classical cAMP-response element (CRE), as identified in the somatostatin gene. In addition, we were interested to determine whether or not the information for tissue-specific expression is contained by these sequences. Using transient transfection of reporter gene constructs, comprising the CRS of bCYP11A, bCYP17, hCYP21B and bovine adrenodoxin, we investigated cAMP-dependent and tissue-specific expression in primary cultures of bovine luteal and granulosa cells. Treatment of transfected luteal cells with forskolin markedly increased the expression of all but the CYP17-specific reporter gene constructs. A similar pattern of forskolin responsiveness was observed when these reporter gene constructs were transfected in bovine granulosa cells in primary culture. Furthermore, when a reporter gene construct containing the classical CRE genomic was transfected in bovine luteal cells, its expression was also highly stimulated upon treatment with forskolin. Thus, the classical cAMP/CRE system appears to be functional in these cells. Northern blot analysis of primary cultures of bovine luteal and granulosa cells revealed that bCYP17 and bCYP21B are not expressed in control and forskolin-treated cultures.(ABSTRACT TRUNCATED AT 250 WORDS)

Regulation of steroid hydroxylase gene expression: importance to physiology and disease

Steroid hydroxylase gene expression is multifactorial in nature, being regulated by tissue-specific, developmental, constitutive and signal transduction systems. The biochemistry of this complex pattern of regulation is not yet clearly elucidated, but studies in several laboratories have led to an understanding of specific aspects of regulation, particularly that involving signal transduction. The complexity of regulation appears to be necessary for normal human physiology because of the wide variety of steroid hormones produced by these enzymes. Genetic diseases associated with the steroid hydroxylases provide examples of how aberrant physiology can result from alterations in the multifactorial regulation of steroid hydroxylase gene expression.

Auto and transactivation of FGF expression: potential mechanism for regulation of myogenic differentiation

Fibroblast growth factors (FGFs) are potent inhibitors of myogenic differentiation. The recent observation that the endogenous expression of acidic and basic FGF by myogenic cells decreases coordinately with differentiation suggests a regulatory role for these growth factors in myogenesis. Inasmuch as other proteins known to influence myogenesis (e.g., MyoD1 and myogenin) activate their own expression as well as the expression of other members of their family, we hypothesized that the FGFs might be capable of similar autoregulation. We examined the effect of exogenously supplied FGF on the abundance of the mRNAs encoding acidic and basic FGF in Sol 8 myoblasts, and demonstrate that either acidic or basic FGF stimulate, through paracrine mechanisms, the accumulation of the mRNAs encoding both of these FGFs. Thus FGFs can auto- and transregulate their own expression in a manner analogous to that observed for the myogenic determination proteins. In addition, similar to that previously observed for MyoD1, both acidic and basic FGF suppress myogenin expression in myoblasts. These results suggest two mechanisms whereby endogenously produced FGFs participate in the maintenance of the undifferentiated state of myogenic cells. These data provide support for paracrine, and suggest potential autocrine, roles for FGFs in the regulation of myogenic differentiation.

Opposite effects of angiotensin-II and corticotropin on bovine adrenocortical cell steroidogenic responsiveness

The long-term effects of angiotensin-II (A-II) and corticotropin (ACTH) on bovine adrenal fasciculata cells (BAC) were studied. Cells were pretreated for 3 days with either A-II or ACTH followed by an examination of the acute steroidogenic response to both hormones as well as the ability to convert several steroid precursors to cortisol and corticosterone. ACTH pretreatment caused a marked increase in cortisol output associated with a decrease in corticosterone secretion in response to both hormones leading to a 50-fold decrease in the corticosterone/cortisol ratio compared to control cells. After incubation with saturating concentrations (5 X 10(-5) M) of 22 R-hydroxycholesterol, pregnenolone or progesterone, ACTH-pretreated cells produced more cortisol than corticosterone whereas the contrary was observed in control cells. However, the conversion of 17 alpha-hydroxyprogesterone and 11-deoxycortisol to cortisol by ACTH-pretreated cells was lower than by control cells. Thus, the main effects of ACTH were a marked increase of 17 alpha-hydroxylase and a small but significant decrease of 21-hydroxylase and 11 beta-hydroxylase activities. A-II pretreatment produced, in a concentration-dependent manner, a down-regulation of its own receptors and homologous and heterologous steroidogenic desensitization. At maximal concentrations (10(-6) M) A-II reduced by 70% its own receptors while the steroidogenic response to A-II and ACTH was reduced by 95% and 75%, respectively. However, the coupling of A-II receptors to phosphoinositide pathway and to Ca2+ influx, as well as its potentiation effect on ACTH-induced cAMP production were similar in control and A-II pretreated cells. Moreover, the conversion of several steroid precursors to corticosterone was similar in control cells and A-II-pretreated cells, whereas the conversion to cortisol was reduced by approximately 30% due mainly to a decrease of 17 alpha-hydroxylase activity. Thus, the marked steroidogenic desensitization induced by A-II is most likely related to some alteration located beyond the activation of the two branches of the phosphoinositide pathway and before the first steps of steroidogenesis.

Basic fibroblast growth factor in rat corpus luteum stimulates prostaglandin F2-alpha production

Rat luteal cells (LC) were incubated with or without basic fibroblast growth factor (bFGF) in a serum-free medium. Prostaglandin F2 alpha (PGF2 alpha) production was stimulated in a dose-dependent manner at 0.03-1 ng/ml of bFGF. One ng/ml of bFGF caused approximately 5-fold the increment of PGF2 alpha at every stage of LC after 48 hrs of incubation. bFGF also raised progesterone secretion from LC, and this stimulatory effect on progesterone was more distinguishable in an early-, than a middle- and a late-stage. Additionally, bFGF concentration throughout the luteal phase was assessed using western blot analysis. The protein with typical molecular weight 18 kDa form was in high concentration throughout the luteal phase. These results suggest that bFGF may play a role in the regulation of PGF2 alpha and progesterone production as autocrine, but not in mitosis in corpus luteum.

Regulation of expression of the genes encoding steroidogenic enzymes

In recent years it has become apparent that tropic hormones involved in steroidogenesis act to regulate the expression of the enzymes involved in the various steroidogenic pathways. This is particularly evident in the ovary where the episodic secretion of steroids throughout the ovarian cycle is regulated largely by changes in the levels of the particular enzymes involved in each step of the steroid biosynthetic pathways. Recently, the genes for the various cytochrome P450 species involved in ovarian steroidogenesis, namely cholesterol side-chain cleavage P450 (P450SCC), 17 alpha-hydroxylase P450 (P450(17 alpha], and aromatase cytochrome P450 (P450AROM) have been isolated and characterized, making it possible to study the regulation of expression at the molecular level. To this end, a series of chimeric constructs have been prepared in which fragments of the 5'-untranslated region of bovine P450(17 alpha) and P450SCC have been inserted upstream of the chloramphenicol acetyl transferase (CAT) and beta-globin reporter genes. These constructs have been used to transfect primary cultures of bovine luteal and thecal cells. The results indicate that cAMP responsiveness lies within defined regions of genes which do not contain a classical CRE, similar to previous results utilizing adrenal cells in culture. Furthermore, although constructs containing both the P450(17 alpha) and P450SCC 5'-upstream regions are expressed in both luteal and thecal cell cultures, only those containing the P450SCC sequences are expressed in luteal cells. Studies on the expression of P450AROM indicate that the promoter which is responsible for its expression in human placenta is not operative in the corpus luteum. Thus estrogen biosynthesis may be regulated by the differential use of tissue specific promoters, thus accounting for the complexity and multifactorial nature of the expression of this activity.

Characterization and regulation of angiotensin and corticotropin receptors on cultured bovine adrenal cells

Cultured bovine adrenal fasciculata cells were used to characterize angiotensin II (A-II) and corticotropin (ACTH) receptors and to study their homologous and heterologous regulation. These cells contain one type of high affinity binding sites for A-II (KD congruent to 2.4 +/- 0.3 10(-9) M) and about 100000 sites/cell. Photoaffinity labeling followed by SDS-PAGE under reducing conditions revealed a single macromolecule of apparent MR 65,000. Treatment of cells with increasing concentrations of A-II produced down-regulation of its own receptors and marked homologous and heterologous (ACTH) steroidogenic desensitization. However, the desensitization was not correlated with receptor loss and was mainly due to alterations of the steroidogenic pathway. Pretreatment of cells with ACTH also reduced A-II receptors, but this was not associated with steroidogenic desensitization. Bovine fasciculata cells contain two binding sites for ACTH: one of high affinity (KD congruent to 2.6 +/- 0.4 10(-10) M) and low capacity (2030 +/- 390 sites/cell) and the other of low affinity and high capacity. Affinity cross-linking of ACTH to plasma membranes prepared from adrenal cells revealed a labeled macromolecule of apparent MR 43000. However, cross-linking experiments to intact cells revealed, both under reducing and non-reducing conditions, two labeled macromolecules of apparent MR of 123000 and 43000. Pretreatment of cells with ACTH enhanced its receptor and the cAMP and cortisol responses to further ACTH stimulation. These effects were time- and dose-dependent. The maximal effects were observed at 10(-10) to 10(-9) M. A-II alone had no effect but it blocked partially the stimulatory action of ACTH.