UNIPROT:P06889 - FACTA Search

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An antagonistic relationship between inhibin and activin is essential to the control of pituitary FSH release and to normal gonadal function. Two inhibin ligands, inhibin A and inhibin B, are made by the ovary in females, and each regulate pituitary FSH at different times during the reproductive cycle. Inhibin B, but not inhibin A, is produced by the testes and is therefore responsible for all inhibin-dependent FSH regulation in males. Although the activin signal transduction pathway has been well characterized, little is known about the mechanism of inhibin signaling and its relationship to activin antagonism. A recently cloned inhibin-binding protein, InhBP (p120), associates strongly with the type IB activin receptor (Alk4) in a ligand-responsive manner and interacts to a lesser extent with other activin and bone morphogenetic protein (BMP) type I and activin type II receptors. Activin stimulates the association of InhBP and Alk4, and inhibin B, but not inhibin A, interferes with InhBP-Alk4 complex formation. InhBP is necessary to mediate a specific antagonistic effect of inhibin B on activin-stimulated transcription. Appropriate stoichiometry between InhBP and the activin type I receptor is crucial to InhBP function. These findings suggest that InhBP is an inhibin B-specific receptor that mediates antagonism of activin signal transduction through the modulation of activin heteromeric receptor complex assembly.
Mol Endocrinol 2001 Apr
PMID:Modulation of activin signal transduction by inhibin B and inhibin-binding protein (INhBP). 1126 16

During the human menstrual cycle, serum inhibin concentrations fluctuate in a cyclic fashion. To examine the regulation of inhibin/activin beta(B) subunit gene expression in ovarian granulosa-luteal cells, the levels of beta(B) subunit mRNA were determined in primary cultures of human granulosa-luteal cells treated with gonadotrophins and protein kinase modulators. Granulosa cells were obtained from women undergoing an IVF programme. The cells were enzymatically dispersed, separated from red blood cells, and maintained in culture for 5--10 days before addition of different agents. Northern blot analysis with specific oligonucleotide probes was performed to study inhibin/activin beta(B) subunit mRNA levels. Both LH and FSH reduced the accumulation of beta(B) subunit mRNA in a dose-dependent manner. The protein kinase A activator, (Bu)(2)cAMP, and the protein kinase inhibitor staurosporine also inhibited beta(B) subunit mRNA expression dose-dependently. Activin A increased dose-dependently beta(B) subunit mRNA expression. Our study suggests that activin-induced and gonadotrophin-inhibited beta(B) subunit expression in granulosa cells might be key factors in the transition from inhibin B to inhibin A dominance during the menstrual cycle.
Mol Hum Reprod 2001 Apr
PMID:Gonadotrophins inhibit and activin induces expression of inhibin/activin beta(B) subunit mRNA in cultured human granulosa-luteal cells. 1127 93

Ovarian surface epithelium (OSE) is the tissue of origin for the majority of ovarian cancers. The mechanism underlying the neoplastic transformation of OSE to ovarian cancer is poorly understood. Activin, a member of the transforming growth factor-beta superfamily, has been shown to increase cell proliferation in ovarian cancer cells. The present study was carried out to investigate the expression and regulation of activin/inhibin subunits and activin receptors in normal and neoplastic OSE. Using reverse transcriptase-polymerase chain reaction and Southern blot analysis, the mRNA levels of alpha, betaA and betaB subunits and activin receptor type IIA and IIB were analyzed in normal OSE and the ovarian cancer cell line, OVCAR-3 cells. The alpha and betaA subunits were highly expressed in normal OSE when compared to OVCAR-3 cells. By contrast, betaB subunit was highly expressed in OVCAR-3 cells, when compared to normal OSE cells. Interestingly, activin receptor IIB mRNA levels were significantly higher in OVCAR-3 when compared to normal OSE cells, whereas activin receptor IIA mRNA levels were the same in both cell types. To characterize the growth modulatory role of activin during neoplastic progression, normal OSE and OVCAR-3 cells were treated with recombinant human activin A (rh-activin A). At concentrations of 1,10 and 100 ng/ml, rh-activin A stimulated the growth of OVCAR-3 cells, but not of normal OSE. Treatment with follistatin, binding protein of activin, attenuates the stimulatory effect of activin. To determine whether the growth stimulatory action of activin in the neoplastic OSE is mediated via an autocrine regulatory mechanism, OVCAR-3 cells were treated with rh-activin A in a dose- and time-dependent manner and the expression levels of activin/inhibin subunits and activin receptors were investigated. Treatments with activin increased the alpha and betaA subunit mRNA levels in a dose- and time-dependent manner. However, no difference was observed in levels of betaB subunit, or in activin receptor type IIA and IIB mRNAs following activin treatments in OVCAR-3 cells. Taken together, these results suggest that different levels of activin/inhibin and activin receptor isoforms are expressed in normal and neoplastic OSE cells. In addition, the altered expression of the activin/inhibin subunits, as well as the cell proliferative effect of activin observed in OVCAR-3 but not in normal OSE cells, indicate that activin may act as an autocrine regulator of neoplastic OSE progression.
Mol Cell Endocrinol 2001 Mar 28
PMID:Differential expression of activin/inhibin subunit and activin receptor mRNAs in normal and neoplastic ovarian surface epithelium (OSE). 1130 76

In chick embryos, the first signs of left-right asymmetry are detected in Hensen's node, essentially by left-sided Sonic Hedgehog (Shh) expression. After a gap of several hours, SHH induces polarized gene activities in the left paraxial mesoderm. We show that during this time period, BMP4 signaling is necessary and sufficient to maintain Shh asymmetry within the node. SHH and BMP4 proteins negatively regulate each other's transcription, resulting in a strict complementarity between these two gene patterns on each side of the node. Noggin, present in the midline at this stage, limits BMP4 spreading. Moreover, BMP4 is downstream to Activin signals and controls Fgf8. Thus, early BMP4 signaling coordinates left and right pathways in Hensen's node.
Mol Cell 2001 Apr
PMID:BMP4 plays a key role in left-right patterning in chick embryos by maintaining Sonic Hedgehog asymmetry. 1133 2

The identification and characterization of components of the transforming growth factor beta (TGFbeta) signalling pathway are proceeding at a very fast pace. To illustrate a number of our activities in this field, we first summarize our work aiming at the selection from a large collection of single residue substitution mutants of two activin A polypeptides in which D27 and K102, respectively, have been modified. This work has highlighted the importance of K102 and its positive charge for binding to activin type II receptors. Activin K102E, which did not bind to high-affinity receptor complexes, may be a valuable beta chain, when incorporated in recombinant inhibin to unambiguously detect novel inhibin binding sites at the cell surface. We then illustrate how Smad5 knockout mice and an overexpression approach with a truncated TGFbeta type II receptor in the mouse embryo can contribute to the identification of a novel TGFbeta-->TbetaRII/ALK1-->Smad5 pathway in endothelial cells in the embryo proper and the yolk sac vasculature. We conclude with a summary of our results with a Smad-interacting transcriptional repressor but focus on its biological significance in the vertebrate embryo.
Mol Cell Endocrinol 2001 Jun 30
PMID:Transforming growth factor beta signalling in vitro and in vivo: activin ligand-receptor interaction, Smad5 in vasculogenesis, and repression of target genes by the deltaEF1/ZEB-related SIP1 in the vertebrate embryo. 1145 67

Activin signal transduction is regulated through multiple mechanisms. We have identified novel regulatory proteins that control activin functions either intracellularly or extracellularly. As intracellular molecules, PSD-95/Dlg/ZO-1 (PDZ) proteins that specifically associate with activin type II receptors (ActRIIs) were identified. We have named the molecules as activin receptor-interacting proteins (ARIPs). ARIP1 has two WW domains and five PDZ domains, associates not only with ActRIIs but also with Smads, and controls activin functions intracellularly in neuronal cells. Another ARIP we have found has only one PDZ domain, and is likely to be involved in intracellular trafficking and sorting of activin receptor complexes in the cell. As an extracellular regulatory protein, we have identified a novel follistatin-like protein, named follistatin-related gene (FLRG). Like follistatins, FLRG binds activins and bone morphogenetic proteins (BMPs) and controls their functions extracellularly. The mode of association of follistatin and FLRG with activins and their expression patterns are different, suggesting the distinct functions of follistatin and FLRG in vivo.
Mol Cell Endocrinol 2001 Jun 30
PMID:Intracellular and extracellular control of activin function by novel regulatory molecules. 1145 68

Activin and inhibin research has provided important insight into reproductive physiology as well as many areas involving regulation of cell growth, differentiation and function. Progress in understanding the roles of these hormones in various cell and tissue types has been complimented by novel discoveries at the molecular level that have shed light on ligand/receptor interactions, signaling mechanisms and regulation. While the receptors and signaling pathway for activin are now well characterized, the molecular basis for inhibin action has remained relatively unclear. Here we summarize recent advances in understanding inhibin's mode of action focusing on our recent identification of betaglycan-glycan as an inhibin co-receptor capable of mediating inhibin action.
Mol Cell Endocrinol 2001 Jun 30
PMID:Antagonism of activin by inhibin and inhibin receptors: a functional role for betaglycan-glycan. 1191 62

Activin signals via complexes of type I (50-55 kDa) and II (70-75 kDa) activin receptors, but the mechanism of inhibin action is unclear. Proposed models range from an anti-activin action at the type II activin receptor to independent actions involving putative inhibin receptors. Two membrane-embedded proteoglycans, betaglycan and p120, have recently been implicated in inhibin binding, but neither appears to be a signalling receptor. The present studies on primary cultures of rat pituitary and adrenal cells, and several murine and human cell lines were undertaken to characterise inhibin binding to its physiological targets. High affinity binding of inhibin to the primary cultures and several of the cell lines, like that previously described for ovine pituitary cells, was saturable and reversible. Scatchard analysis revealed two classes of binding sites (K(d) of 40-400 and 500-5000 pM, respectively). Affinity labelling identified [125I]inhibin binding proteins with apparent molecular weights of 41, 74, 114 and >170 kDa in all cell types that displayed high affinity, high capacity binding of inhibin. Additional labelling of a 124 kDa species was evident in gonadal TM3 and TM4 cell lines. In several cases, activin (> or =20 nM) competed poorly or not at all for binding to these proteins. The 74, 114 and >170 kDa inhibin binding proteins in TM3 and TM4 cells were immunoprecipitated by an anti-betaglycan antiserum. These three proteins correspond in size to the activin receptor type II and the core protein and glycosylated forms of betaglycan, respectively, that have been proposed to mediate anti-activin actions of inhibin, but the identity of the 74 kDa species is yet to be confirmed. Studies of [125I]inhibin binding kinetics and competition for affinity labelling of individual binding proteins in several cell lines suggest these three species and the 41 and 124 kDa proteins form a high affinity inhibin binding complex. In summary, common patterns of inhibin binding and affinity labelling were observed in inhibin target cells. Novel inhibin binding proteins of around 41 and 124 kDa were implicated in the high affinity binding of inhibin to cells from several sources.
Mol Cell Endocrinol 2001 Jun 30
PMID:Inhibin binding sites and proteins in pituitary, gonadal, adrenal and bone cells. 1145 73

Unexplained fetal death in utero in late pregnancy represents an increasing proportion of perinatal deaths. It has been assumed that critical hypoxia is the likely mechanism underlying these losses, but the lack of a physiological marker has hampered both confirmation and prediction which could lead to timely intervention. In this paper, we report studies on hypoxia that we have performed in chronically cannulated late pregnant sheep, complemented by parallel investigations undertaken in human pregnancies. Our initial studies were directed towards determining activin secretion in the fetus and mother during late gestation, and immediately after fetal surgery using a sheep model. This led us to propose that there may be a relationship between hypoxia and activin A, follistatin and prostaglandin (PG) release from the feto-placental unit. Subsequent studies have been directed towards examining this potential relationship in sheep and in humans with compromised pregnancies. As a result of these studies, we have identified a potential mechanism by which activin A may be involved in regulating the response of the fetus to hypoxic insult. Activin A and follistatin concentrations increased in late gestation in ovine maternal plasma and in fetal fluids. Feto-placental hypoxemia or maternal isocapnic hypoxemia, leading to fetal hypoxia, were specific triggers for an acute increase in fetal activin A and follistatin concentrations during late gestation. The source and secretion of activin A, follistatin, and the associated release of PGE(2,) from within the feto-placental unit varied according to the site of the insult. The concomitant secretion of activin A and PGE(2) into the fetal circulation and amniotic fluid during reduced uterine blood flow provides an insight into the physiological regulatory mechanisms that might be involved. Changes observed in maternal activin A concentrations in mid and late gestation in the human may also be associated with fetal compromise. In human pregnancies, elevated activin A concentrations were observed in maternal plasma in mid and late gestation, in association with severe pre-eclampsia and with severe fetal growth restriction, compared to those observed in pregnancies with constitutionally small, healthy fetuses. Activin A was also elevated in maternal and arterial cord plasma in women at term during labour and immediately prior to undergoing emergency Caesarean section for failure to progress. These findings offer exciting new possibilities to gain insights into the mechanisms that underlie the maintenance of fetal wellbeing and provide a rationale for the potential that activin A may prove to be a useful clinical marker of fetal distress.
Mol Cell Endocrinol 2001 Jun 30
PMID:Physiological and regulatory roles of activin A in late pregnancy. 1145 82

Evidence to enhance the premise that inhibin and activin are local regulators of ovarian folliculogenesis is presented in this review. Granulosa cells (GC) have been identified as the source of inhibin/activin in the ovary on the basis of mRNA and protein localisation and the measurement of the inhibin forms in GC conditioned media. Expression of the subunit mRNAs changed with follicular development, being maximal in the ovaries of 8-day-old rats, where secondary follicles predominate. The expression of beta subunit mRNAs by GC isolated from diethylstilboestrol (DES)-treated immature rats, was reduced in the absence of any change in alpha subunit mRNA expression. Dimeric inhibin-A, -B and free alpha subunit were produced by ovarian cell cultures prepared from 4- to 12-day-old rats. Inhibin-A production by these cultures was responsive to FSH and TGF-beta, with preantral follicles of day 8 ovaries exerting effects so profound that the inhibin A/alpha subunit ratio increased, most likely due to a stimulation of beta(A) subunit production. In contrast, inhibin-B was not stimulated by TGF-beta until day 8 and FSH until day 12. Fractionation of GC conditioned media revealed a prominence of free alpha subunit and inhibin-A, but little inhibin-B, suggesting that inhibin-B production declines with follicular development. Activin receptor types I and II, Smads 1-8 and betaglycan (beta-glycan) mRNAs were present in the rat ovary and showed distinct patterns of expression between postnatal days 4 and 12. Oocytes and GC localised activin receptor, Smad and beta-glycan proteins, with beta-glycan also present in theca cells (TC). These data indicate that activin/TGF-beta signalling machinery and factors which influence these pathways, are present in the postnatal rat ovary. Our hypothesis that inhibin and activin play important and changing autocrine/paracrine roles in the growth and differentiation of follicles, including the oocyte, has been supported by these studies.
Mol Cell Endocrinol 2001 Jun 30
PMID:Production and actions of inhibin and activin during folliculogenesis in the rat. 1145 83

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