Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In studies of the regulation of hematopoiesis, increasing attention has focused on the role of bone marrow stromal cells as rich sources of various cytokines. Present studies indicate that marrow stromal cells and monocytes produce activin A, implicating this new cytokine in the paracrine control of hematopoiesis. Activin A, which was initially recognized as a beta A beta A dimeric gonadal protein, was found to potentiate the proliferation and differentiation of erythroid progenitors; both purified erythroid colony-forming units (CFU-E) and K562 cells possess high affinity receptors specific for activin A. Present studies using Western and Northern blots demonstrate the presence of beta A subunits of activin A in the conditioned medium of monocytes and stromal cells and its RNA transcripts in these cells. The presence of functional and homodimeric beta A beta A activin molecule was confirmed through bioassay with or without a blocking antiserum against activin A or an activin binding protein, follistatin; its presence is further supported by a specific enzyme-linked immunosorbent assay (ELISA) in which a monoclonal antibody reacted only with the beta A beta A dimeric form of this molecule. In other experiments, the production of activin A was found to be regulated by various cytokines and regulators. The production of activin A in monocytes was stimulated more than ninefold by treatment with granulocyte-macrophage colony-stimulating factor (GM-CSF). Activin A expression was also stimulated, albeit less potently, by bacterial lipopolysaccharide (LPS) and gamma-interferon. On the other hand, the expression of activin A in marrow stromal cells was upregulated by incubation with tumor necrosis factor-alpha (TNF-alpha), LPS, and interleukin 1 alpha (IL-1 alpha). Therefore, we propose that the local production of activin A in the microenvironment within bone marrow may fine tune the regulation of steady-state hematopoiesis. In addition, this factor may normally be produced at minimal levels, but under certain situations may be further induced to provide important biological functions.
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PMID:Regulation of production of activin A in human marrow stromal cells and monocytes. 142 3

1. The effect of inflammation induced by lipopolysaccharide (LPS) injection on plasma follistatin (FS) concentrations was investigated. 2. Plasma FS and tumour necrosis factor-alpha concentrations increase following LPS administration in ewes. 3. The rise in FS is similar, but more sustained, to that previously observed after surgery. 4. These results indicate a possible functional link between FS, inflammation and the acute-phase response.
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PMID:Plasma follistatin concentrations increase following lipopolysaccharide administration in sheep. 888 4

Human marrow stromal cells were analysed with immunocytochemical staining, Northern blot, and functional bioassay for production of activin A. Although Northern blot and immunocytochemical staining did not detect the alpha subunit of inhibin in human marrow stromal cells, RT-PCR analyses confirmed its presence, along with the expected activin beta A PCR products. Present studies showed that human marrow fibroblastoid cells were reactive with anti-activin A antibodies and that the production of beta A RNA was upregulated by pro-inflammatory cytokines/regulators like interleukin 1 alpha (IL-1 alpha), tumour necrosis factor-alpha (TNF-alpha), lipopolysaccharide (LPS) or 12-O-tetradecanoylphorbol 13-acetate (TPA). IL-1 alpha or TNF-alpha stimulated-marrow stromal cells accumulated beta A RNA after 2 h of incubation, reaching a peak stimulation at approximately 8 h. Biologically active activin A molecules were detected in the conditioned media by a bioassay, and their activity was specifically inhibited by a blocking antibody or an activin-binding protein, follistatin. Accumulation of bioactive activin A in conditioned medium of human marrow stromal cells increased after incubation with IL-1 alpha or TNF-alpha. Nuclear run-off assays with TNF-alpha stimulated marrow stromal cells showed that the enhanced expression of activin A was related to an increase in its rate of transcription. In contrast to the stimulatory effect of pro-inflammatory cytokines, hydrocortisone and dexamethasone at 1 x 10(-7) to 1 x 10(-6) M inhibited both the constitutive and the cytokine-stimulated expression of activin beta A RNA, and also the production of bioactive activin A protein. The upregulation of activin A production by cytokines and its suppression by glucocorticoids imply that activin A may also act as a moderator in diverse functions including host defences.
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PMID:Contrasting effects of inflammatory cytokines and glucocorticoids on the production of activin A in human marrow stromal cells and their implications. 957 69

Activins and follistatins regulate all levels of the reproductive axis, including the pituitary where they stimulate and inhibit FSH production, respectively. Gonadotropes are known to express inhibin/activin betaB and activin-B (betaBbetaB) functions as an autocrine modulator of FSH production. By contrast, the mRNA for the activin-binding protein, follistatin, is present in most pituitary cells and folliculo-stellate cells may be the major source of the protein secreted by the anterior pituitary. Interleukin-1beta (IL-1beta) is one of several cytokines known to also influence the reproductive axis. IL-1beta inhibits the hypothalamo-pituitary-gonadal (HPG) axis by suppressing GnRH and gonadal steroid production. Because several pituitary cell types, including follistatin-producing folliculo-stellate cells, are targets of IL-1beta, cytokine effects on gonadotrope function were evaluated using cultured rat anterior pituitary cells. Activin-A (0.01 to 1 nM; 24h) increased basal FSH secretion approximately 2-fold. IL-1beta (0.005 to 0.5 nM) by itself had no effect on basal FSH secretion. However, IL-1beta attenuated FSH secretion in response to all concentrations of activin-A. These results suggest that the cytokine might stimulate the local production of a factor, such as follistatin, that antagonizes the action of activin-A. RNase protection analysis indicated that IL-1beta (0.005 to 5 nM) stimulated follistatin and inhibin/activin betaB mRNA accumulation in a time-dependent manner. These in vitro effects of IL-1beta were blocked by the specific IL-1 receptor antagonist (IL-lra) and were not mimicked by either rhIL-6 or lipopolysaccharide (LPS). Treatment of intact male rats with LPS (50 microg, i.v.), which increases plasma IL-1beta and induces IL-1beta expression in many tissues, including the pituitary, produced similar time-dependent increases in pituitary follistatin and inhibin/activin subunit mRNA levels. These results suggest that IL-1beta can modulate gonadotrope responses to activins by influencing the local balance of activin-B and follistatin within the pituitary.
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PMID:Interleukin-1beta regulates pituitary follistatin and inhibin/activin betaB mRNA levels and attenuates FSH secretion in response to activin-A. 964 13

Recent evidence suggests a role for activin A, and its binding protein, follistatin, in inflammatory pathways. However, whether activin is released systemically during inflammation is not known. In this study, a release of activin A into the circulation occurred in sheep within 1 hour of injection of lipopolysaccharide. This rapid peak in activin A preceded the release of the key inflammatory cytokines, tumor necrosis factor-alpha and interleukin-6. Follistatin release into the circulation occurred some 4 hours after the peak of activin A and continued out to 24 hours from lipopolysaccharide treatment. These data are the first to document a circulatory response of activin A to an inflammatory stimulus, and together with previous findings, suggest that activin A may have both pro- and anti-inflammatory actions in regulating cytokine-driven pathways.
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PMID:Activin A release into the circulation is an early event in systemic inflammation and precedes the release of follistatin. 1080 3

Activin A is a multi-functional cytokine with a potent stimulation on erythroid cell differentiation in the bone marrow. The actions of activin A are determined by a balance of the levels of activin A and its inhibitor, follistatin (FS). However, the regulation of its actions in the bone marrow has been unclear. Here we show that bone marrow-derived stromal fibroblasts are the major source of activin A and FS in the bone marrow, and that the production of activin A is enhanced by interleukin-1beta (IL-1beta) and lipopolysaccharide (LPS), whereas interferon-gamma (IFN-gamma) inhibits the secretion of activin A by stromal fibroblasts. Concomitantly, IL-1beta as well as LPS inhibits and IFN-gamma stimulates FS secretion from stromal fibroblasts. Thus, these cytokines potently regulate activin A actions by reciprocal modulation of activin A and FS secretion from stromal fibroblasts. Because activin A exhibits anti-inflammatory effects in various tissues, up-regulation of activin A actions by IL-1beta and endotoxin in the bone marrow may play a protective role against inflammatory processes as well as anaemia. The present results also suggest that the inhibitory effect of IFN-gamma on erythropoiesis is mediated at least in part by a suppression of activin A actions in bone marrow.
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PMID:Interleukin-1 beta enhances and interferon-gamma suppresses activin A actions by reciprocally regulating activin A and follistatin secretion from bone marrow stromal fibroblasts. 1167

Folliculostellate cells of the anterior pituitary are postulated to be an important source of factors, such as follistatin, that regulate pituitary function by intercellular communication. To gain further insight into the function of this cell type, folliculostellate cells were enriched from cultured rat anterior pituitary cells, and an immortalized cell line designated FS/D1h was established and characterized. These FS/D1h cells express S100 immunoreactivity and produce IL-6 but not pituitary hormones such as GH, ACTH, FSH, and LH. Importantly, FS/D1h cells express large amounts of follistatin mRNA and secrete the protein, as quantified indirectly by the amount of [(125)I]activin A immunoprecipitated with a follistatin antiserum. The FS/D1h cells also express alpha, betaA, and betaB inhibin/activin subunit mRNAs, but whether they produce the corresponding activins and inhibins has not been determined. The response of FS/D1h cells to agents thought to modulate folliculostellate cell function was evaluated. IL-1beta (0.005-5 nM) stimulated the secretion of follistatin and increased mRNA expression. In parallel, IL-6 secretion was stimulated. Dexamethasone, pituitary adenylate cyclase-activating polypeptide(1-27), and lipopolysaccharide but not testosterone, 12-O-tetradecanoylphorbol-13-acetate, or forskolin also increased follistatin secretion. Surprisingly, activin had no effect on follistatin mRNA levels, despite the fact that FS/D1h cells express ActRII, ActRIIB, and ALK-4 (ActRIB). Activin, on the other hand, induced Smad7 mRNA accumulation and exerted an antiproliferative effect on FS/D1h cells. Altogether, these observations support the possibility that follistatin originating from folliculostellate cells participates in mediating the effects of IL-1beta, glucocorticoids, and other agents on the response of pituitary cells to activins.
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PMID:Rat anterior pituitary folliculostellate cells are targets of interleukin-1beta and a major source of intrapituitary follistatin. 1253 36

HtrA1, a member of the mammalian HtrA serine protease family, has a highly conserved protease domain followed by a PDZ domain. Because HtrA1 is a secretory protein and has another functional domain with homology to follistatin, we examined whether HtrA1 functions as an antagonist of Tgfbeta family proteins. During embryo development, mouse HtrA1 was expressed in specific areas where signaling by Tgfbeta family proteins plays important regulatory roles. The GST-pulldown assay showed that HtrA1 binds to a broad range of Tgfbeta family proteins, including Bmp4, Gdf5, Tgfbetas and activin. HtrA1 inhibited signaling by Bmp4, Bmp2, and Tgfbeta1 in C2C12 cells, presumably by preventing receptor activation. Experiments using a series of deletion mutants indicated that the binding activity of HtrA1 required the protease domain and a small linker region preceding it, and that inhibition of Tgfbeta signaling is dependent on the proteolytic activity of HtrA1. Misexpression of HtrA1 near the developing chick eye led to suppression of eye development that was indistinguishable from the effects of noggin. Taken together, these data indicate that HtrA1 protease is a novel inhibitor of Tgfbeta family members.
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PMID:HtrA1 serine protease inhibits signaling mediated by Tgfbeta family proteins. 1497 87

A series of experiments were conducted in adult ewes to delineate the release profile of activin A and its relationship to other cytokines following an i.v. injection of the bacterial cell wall component, lipopolysaccharide (LPS). Following this challenge, plasma activin A increased rapidly and appeared to be released in a biphasic manner, slightly preceding the release of tumour necrosis factor-alpha (TNFalpha) and before elevation of interleukin (IL)-6 and follistatin levels. The concentration of activin A was correlated with body temperature during the response to LPS. A second experiment compared cytokine concentrations in matched blood and cerebrospinal fluid (CSF) samples. This revealed that activin A was not released centrally in the CSF following a peripheral LPS injection, nor was TNFalpha or the activin binding protein, follistatin, but IL-6 showed a robust elevation. In a third experiment, the stimulus for activin A release was examined by blocking prostaglandin synthesis. Flurbiprofen, a prostaglandin synthesis inhibitor, effectively attenuated the fever response to LPS and partly inhibited cortisol release, but the cytokine profiles were unaffected. Finally, the bioactivity of TNFalpha and/or IL-1 was blocked using soluble receptor antagonists. These treatments did not affect the initial release of activin A, but blockade of TNFalpha depressed the second activin peak. These studies define more rigorously the release of activin A into the circulation following acute inflammatory challenge. The response is rapid and probably biphasic, independent of prostaglandin- mediated pathways and does not depend upon stimulation by TNFalpha or IL-1. The data suggest that activin A release is an early event in the inflammatory cascade following the interaction of LPS with its cellular receptor.
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PMID:Characterisation of the rapid release of activin A following acute lipopolysaccharide challenge in the ewe. 1522 32

The release of activin A in response to intravenous injection of the bacterial cell-wall component lipopolysaccharide (LPS) was investigated in an ovine model of acute inflammatory challenge in newborn and adult sheep, and in non-pregnant and pregnant ewes. Neonatal lambs (<20 days of age) showed a quantitatively similar response in terms of circulating concentrations of activin A, its binding protein follistatin and the cytokine interleukin-6 compared with adult ewes challenged with an equivalent dose (300 ng/kg bodyweight) of LPS. The fever response and plasma tumour necrosis factor-alpha release in response to LPS, however, were significantly (P < 0.01) less in lambs than in the adult group. Pregnant ewes in the last trimester of gestation had similar responses to LPS, in all aspects measured, compared with their non-pregnant counterparts, apart from an ablated fever response. Although the adult and neonatal sheep responded to LPS, a similar response was not apparent in the fetal circulation, possibly due to a protective effect of the placenta. A 10-fold increase in the dose of LPS (from 300 ng to 3 microg/kg bodyweight) given to neonatal lambs elicited an increase in several cytokine responses measured, with a significant (P< 0.05) increase in follistatin release. In contrast, the amount of activin released by the increased dose of LPS was similar to that invoked by the lower dose. The effect of tolerance to LPS was investigated by giving a second challenge of LPS 5 days after the initial injection. In all animals studied, there was an ablated (P < 0.05) response to the subsequent LPS injection, apart from a similar temperature-response profile. These data provide further evidence that activin A concentrations in the bloodstream are acutely responsive to inflammatory challenge in post-natal life and suggest that the response forms a significant component of the innate immune system.
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PMID:Effects of age and pregnancy on the circulatory activin response of sheep to acute inflammatory challenge by lipopolysaccharide. 1581 35


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