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:P05109 (S100A8)
1,212 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A panel of 6 human glioma cell lines was examined for TGF-beta1 responsiveness. U-178 MG and U-251 MG AgCl1 were significantly inhibited by TGF-beta1, while U-343 MGa 31L and U-343 MGa 35L were potently stimulated to proliferate. TGF-beta1 induced endogenous PAI-1 protein synthesis, Smad binding element/(CAGA)12-luciferase-reporter activity, as well as mRNA expression of Smad6 and Smad7 in all gliomas. Interestingly, TGF-beta1 differentially stimulated or inhibited the expression of TbetaR-I and TbetaR-II mRNA in the gliomas. Affinity cross-linking studies using 125I-TGF-beta1 revealed that the gliomas expressed TGF-beta-type-I(TbetaR-I) and -type-II(TbetaR-II) receptors, although binding to TbetaR-II in U-343 MGa 31L and U-251 MG AgCl1 was low to undetectable. Smad2 protein was abundantly present in U-178 MG, U-343 MG, and U-343 MGa 35L, while Smad3 was readily detectable in U-178 MG, U-343 MG, U-343 MGa 35L and U-251 MG AgCl1. In all gliomas, TGF-beta1 induced phosphorylation of Smad2. The level to which TGF-beta1 could activate the pathway leading to induction of the (CAGA)12-luciferase reporter seemed to correlate to the expression levels of TGF-beta receptors, Smad3 and Smad4 proteins. However, despite the plethora of data regarding TGF-beta1 signalling in the different glioma cell lines, the mechanism underlying the differential growth effects mediated by TGF-beta1 is still unclear. The results suggest that a complex balance between several components in the TGF-beta signalling pathway controls glioma responsiveness to TGF-beta1, and extend reports indicating that distinct signal transduction pathways are involved in growth inhibition and other cellular responses.
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PMID:Expression of transforming-growth-factor (TGF)-beta receptors and Smad proteins in glioblastoma cell lines with distinct responses to TGF-beta1. 1004 79

SMAD proteins are essential components of the intracellular signaling pathways utilized by members of the transforming growth factor beta (TGFbeta) superfamily of growth factors. Certain SMAD proteins (Smad1, 2, 3, and 5) can act as regulated transcriptional activators. This process involves phosphorylation of these proteins by activated TGFbeta receptors. Recently, Smad6 and Smad7 were identified; they antagonize TGFbeta signaling by preventing the activation of signal-transducing SMAD complexes. TGFbeta rapidly induces the expression of Smad7 mRNA, suggesting participation of Smad7 in a negative feedback loop to control TGFbeta responses. Similarly, epidermal growth factor (EGF) and interferon gamma (IFN-gamma) have been reported to induce Smad7 expression. In a rat model system of liver fibrosis, TGFbeta inducibility of Smad7 is abrogated during transformation of hepatic stellate cells (HSC), indicating an important switch in transcriptional regulation of the gene. With the detailed characterization of the rat Smad7 genomic organization including the promoter region, we present the first identified Smad7 gene so far. The gene is composed of four exons separated by three introns covering a DNA region of about 30 kilobases (kb) in total. The major transcription start site is conserved between rat and mouse, and two polyadenylation signals were detected. In the promoter region, a potential CAGA box, a signal transducer and activator of transcription (STAT) factor-related recognition site, and different AP1 sites were identified, which could be the targets of TGFbeta, IFN-gamma, and EGF-dependent Smad7 transcription initiation.
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PMID:Genomic locus and promoter region of rat Smad7, an important antagonist of TGFbeta signaling. 1065 34

Activation of hepatic stellate cells (HSCs) is the key step in liver fibrogenesis. Increased transforming growth factor beta (TGF-beta) expression and extracellular matrix production in patients with hepatic fibrosis and experimental models of liver fibrogenesis support implication of TGF-beta in the pathogenesis of this disease. However, a causative role for TGF-beta during transdifferentiation of HSCs has not been delineated in molecular detail. Using a rat cell culture model of HSC transdifferentiation, we analyzed TGF-beta signal transduction and identified changes between stellate cells and their transdifferentiated phenotype. Fully transdifferentiated myofibroblasts, opposed to HSCs, were not inhibited in proliferation activity on treatment with TGF-beta1. Furthermore, stimulation of alpha2 (I) collagen and Smad7 messenger RNA (mRNA) expression by TGF-beta1 was achieved in stellate cells but not in myofibroblasts. Northern and Western blot analyses indicated significant expression of TGF-beta receptors I and II in both cell types. In contrast, [(125)I]-TGF-beta1 receptor affinity labeling displayed strongly reduced types I, II, and III receptor presentation at the cell surface of myofibroblasts. Moreover, myofibroblasts did not display DNA-binding SMAD proteins in electrophoretic mobility shift assays with a CAGA box. These data indicate that stellate cells are responsive to TGF-beta1 treatment and transduce a signal that may play an important role in liver fibrogenesis. Myofibroblasts display decreased availability of surface receptors for TGF-beta, which could be based on autocrine stimulation. However, lack of activated SMAD complexes with DNA-binding activity and absence of alpha2 (I) collagen transcription inhibition by latency-associated peptide (LAP)/anti-TGF-beta antibody raise the possibility of TGF-beta signaling independent receptor down-regulation in myofibroblasts.
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PMID:Modulation of transforming growth factor beta response and signaling during transdifferentiation of rat hepatic stellate cells to myofibroblasts. 1079 85

TGFbeta is of crucial importance during transdifferentiation of resting retinoid-storing hepatic stellate cells (HSC) to extracellular matrix producing myofibroblasts (MFB) and consequently, inhibition of TGFbeta signal transduction is an effective means for preventing experimental fibrosis. We have shown that isolated HSC lose TGFbeta-dependent growth control during in vitro activation and that alpha2 (I) collagen production in transdifferentiated MFB is TGFbeta-independent. Furthermore, Smad complexes with SBE binding activity were only detected in early cultures of HSC, although TGFbeta receptor types I and II were significantly expressed in HSC and MFB. In the present report, we compared the expression pattern of TGFbeta downstream mediators, i.e., the Smads, in TGFbeta responsive HSC versus nonresponding MFB. The transdifferentiation process was monitored by morphology and increasing expression of TGFbeta and alpha-smooth muscle actin, and TGFbeta signaling was investigated by (CAGA)(9)-MLP-Luc. The expression level of all Smads remained essentially unchanged both during the activation process and after TGFbeta-treatment. Smad7 was transiently upregulated upon TGFbeta stimulation in quiescent HSC, indicating a negative feed back loop in responsive cells. In contrast, MFB neither displayed TGFbeta-inducible nor constitutively upregulated Smad7 expression. Instead, Smad3 mRNA was increased in MFB. Our data indicate that abrogation of the TGFbeta response in MFB versus HSC is not based on different regulation of Smad expression.
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PMID:Expression of Smads during in vitro transdifferentiation of hepatic stellate cells to myofibroblasts. 1134 60

We have studied the effects of two new synthetic triterpenoids, 2-cyano-3,12-dioxooleana-1,9-dien-28-oic acid (CDDO) and its derivative, 1-(2-cyano-3,12-dioxooleana-1,9-dien-28-oyl) imidazole (CDDO-Im), on transforming growth factor (TGF)-beta/Smad signaling. These agents, at nanomolar concentrations, increase the expression of TGF-beta-dependent genes, such as those for plasminogen activator inhibitor 1 and the type II TGF-beta receptor, and they synergize with TGF-beta in this regard. They prolong the activation of Smad2 induced by TGF-beta and markedly enhance the ability of Smad3 to activate a Smad binding element, CAGA-luciferase. In transfection assays, they reverse the inhibitory effects of Smad7. CDDO and CDDO-Im also enhance Smad signaling in the pathways of two other members of the TGF-beta superfamily, namely, activin and bone morphogenetic protein. Finally, these triterpenoids induce expression of the transcriptional coactivator p300-CBP-associated factor and synergize with TGF-beta in this regard. These are the first studies to report enhancement of Smad signaling by synthetic triterpenoids and should further their optimal use for applications in prevention or treatment of diseases in which there is aberrant function of TGF-beta.
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PMID:Synthetic triterpenoids enhance transforming growth factor beta/Smad signaling. 1264 1

Growth differentiation factor-9 (GDF-9) is an oocyte-derived growth factor and a member of the TGF-beta superfamily that includes TGF-beta, activin, and bone morphogenetic proteins (BMPs). GDF-9 is indispensable for the development of ovarian follicles from the primary stage, and treatment with GDF-9 enhances the progression of early follicles into small preantral follicles. Similar to other TGF-beta family ligands, GDF-9 likely initiates signaling mediated by type I and type II receptors with serine/threonine kinase activity, followed by the phosphorylation of intracellular transcription factors named Smads. We have shown previously that GDF-9 interacts with the BMP type II receptor (BMPRII) in granulosa cells, but the type I receptor involved is unknown. Using P19 cells, we now report that GDF-9 treatment stimulated the CAGA-luciferase reporter known to be responsive to TGF-beta mediated by the type I receptor, activin receptor-like kinase (ALK)5. In contrast, GDF-9 did not stimulate BMP-responsive reporters. In addition, treatment with GDF-9 induced the phosphorylation of Smad2 and Smad3 in P19 cells, and the stimulatory effect of GDF-9 on the CAGA-luciferase reporter was blocked by the inhibitory Smad7, but not Smad6. We further reconstructed the GDF-9 signaling pathway using Cos7 cells that are not responsive to GDF-9. After overexpression of ALK5, with or without exogenous Smad3, the Cos7 cells gained GDF-9 responsiveness based on the CAGA-luciferase reporter assay. The roles of ALK5 and downstream pathway genes in mediating GDF-9 actions were further tested in ovarian cells. In cultured rat granulosa cells from early antral follicles, treatment with GDF-9 stimulated the CAGA-luciferase reporter activity and induced the phosphorylation of Smad3. Furthermore, transfection with small interfering RNA for ALK5 or overexpression of the inhibitory Smad7 resulted in dose-dependent suppression of GDF-9 actions. In conclusion, although GDF-9 binds to the BMP-activated type II receptor, its downstream actions are mediated by the type I receptor, ALK5, and the Smad2 and Smad3 proteins. Because ALK5 is a known receptor for TGF-beta, diverse members of the TGF-beta family of ligands appear to interact with a limited number of receptors in a combinatorial manner to activate two downstream Smad pathways.
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PMID:Growth differentiation factor-9 signaling is mediated by the type I receptor, activin receptor-like kinase 5. 1468 52

Human fibroproliferative disorders like hypertrophic scarring of the skin are characterized by increased contractility and excess extracellular matrix synthesis. A beneficial role of transforming growth factor (TGF)-beta in wound healing was proposed; however, chronic stimulation by this cytokine leads to fibrosis. In the present report, the intracellular TGF-beta signaling in fibroblasts derived from hypertrophic scars and normal skin was examined. In an attempt to intervene in profibrogenic TGF-beta functions, ectopic expression of Smad7 or dominant negative Smads3/4 completely inhibited contractility of scar-derived and normal fibroblasts after suspension in collagen gels. Both cell types displayed constitutive Smad2/3 phosphorylation and (CAGA)9-MLP-Luc activity with expression and phosphorylation of Smad3 being predominant in hypertrophic scar-derived fibroblasts. Down-regulation of intrinsic signaling with various TGF-beta antagonists, e.g. soluble TGF-beta receptor, latency-associated peptide, and anti-TGF-beta1 antibodies, confirms autocrine TGF-beta stimulation of both cell populations. Further, Smad7 expression inhibited alpha1 (I) collagen and alpha-smooth muscle actin expression. In summary, our data indicate that autocrine TGF-beta/Smad signaling is involved in contractility and matrix gene expression of fibroblasts from normal and hypertrophic scars. Smad7 inhibits these processes and may exert beneficial effects on excessive scar formation.
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PMID:Abrogation of transforming growth factor-beta signaling by SMAD7 inhibits collagen gel contraction of human dermal fibroblasts. 1578 10

Doxorubicin is a DNA-damaging drug, commonly used for treatment of cancer patients. Doxorubicin causes not only cytotoxic and cytostatic effects, but also inhibits metastasis formation, while TGFbeta1 (Transforming Growth Factor-beta1) is a cytokine that is often up-regulated in human cancers and can promote metastasis formation. We have studied the influence of Doxorubicin on TGFbeta signaling in tumor cells. Here we have demonstrated that Doxorubicin inhibited TGFbeta-signaling in human lung adenocarcinoma A549 cells, namely, it blocked TGFbeta1-induced activation of Smad3-responsive CAGA(12)-Luc reporter, but did not affect c-myc-Luc reporter. That effect was observed as early as after 1-3 h of treating these cells with Doxorubicin, while the other drugs cisplatin or methotrexate did not alter activation of CAGA(12)-Luc reporter under the same conditions. Besides, after 1 h action, Doxorubicin abrogated TGFbeta-induced translocation of Smad3-protein from the cytoplasm to the nucleus. Down-regulation of expression of Smad2, Smad3, and Smad4 proteins, and up-regulation of inhibitory Smad7 protein upon Doxorubicin treatment, were found after 12-24 h of Doxorubicin treatment. Phosphorylation of Smad2/3 proteins was also affected by Doxorubicin. Summarizing, we have found that human tumor cells treatment with Doxorubicin resulted in the inhibition of TGFbeta-signaling at both early (1 h) and later (12 h) stages of the drug action. Such inhibition can be a new potential mechanism for Doxorubicin action towards tumor cells.
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PMID:Doxorubicin inhibits TGF-beta signaling in human lung carcinoma A549 cells. 1860 4

Smad7 is an antagonist of TGF-beta signaling pathway and the mechanism of its inhibitory effect is of great interest. We recently found that Smad7 could function in the nucleus by binding to the DNA elements containing the minimal Smad binding element CAGA box. In this work, we further applied single-molecule force spectroscopy to study the DNA-binding property of Smad7. Smad7 showed similar binding strength to the oligonucleotides corresponding to the CAGA-containing activin responsive element (ARE) and the PAI-1 promoter, as that of Smad4. However, Smad7 also exhibited a binding activity to the mutant ARE with the CAGA sequence substituted, indicating its DNA-binding specificity is different from other Smads. Moreover, we demonstrated that the MH2 domain of Smad7 had a higher binding affinity to the DNA elements than the full-length Smad7, while the N-terminal domain exhibited an inhibitory effect.
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PMID:Study of interaction between Smad7 and DNA by single-molecule force spectroscopy. 1899 14

Transforming growth factor beta (TGFbeta) is important in inflammation, angiogenesis, reepithelialization and connective tissue regeneration during wound healing. We analyzed components of TGFbeta signaling pathway in biopsies from 10 patients with nonhealing venous ulcers (VUs). Using comparative genomics of transcriptional profiles of VUs and TGFbeta-treated keratinocytes, we found deregulation of TGFbeta target genes in VUs. Using quantitative polymerase chain reaction (qPCR) and immunohistochemical analysis, we found suppression of TGFbeta RI, TGFbeta RII and TGFbeta RIII, and complete absence of phosphorylated Smad2 (pSmad2) in VU epidermis. In contrast, pSmad2 was induced in the cells of the migrating epithelial tongue of acute wounds. TGFbeta-inducible transcription factors (GADD45beta , ATF3 and ZFP36L1) were suppressed in VUs. Likewise, genes suppressed by TGFbeta (FABP5, CSTA and S100A8) were induced in nonhealing VUs. An inhibitor of Smad signaling, Smad7 was also downregulated in VUs. We conclude that TGFbeta signaling is functionally blocked in VUs by downregulation of TGFbeta receptors and attenuation of Smad signaling resulting in deregulation of TGFbeta target genes and consequent hyperproliferation. These data suggest that application of exogenous TGFbeta may not be a beneficial treatment for VUs.
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PMID:Attenuation of the transforming growth factor beta-signaling pathway in chronic venous ulcers. 2006 32


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