Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51812 (mitogen-activated protein)
10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular endothelial cells, serving as a barrier between vessel and blood, are exposed to shear stress in the body. Although endothelial responses to shear stress are important in physiological adaption to the hemodynamic environments, they can also contribute to pathological conditions--e.g., in atherosclerosis and reperfusion injury. We have previously shown that shear stress mediates a biphasic response of monocyte chemotactic protein 1 (MCP-1) gene expression in vascular endothelial cells and that the regulation is at the transcriptional level. These observations led us to functionally analyze the 550-bp promoter region of the MCP-1-encoding gene to define the cis element responding to shear stress. The shear stress/luciferase assay on the deletion constructs revealed that a 38-bp segment (-53 to -90 bp relative to the transcription initiation site) containing two divergent phorbol ester "12-O-tetradecanoylphorbol 13-acetate" (TPA)-responsive elements (TRE) is critical for shear inducibility. Site-specific mutations on these two sites further demonstrated that the proximal one (TGACTCC) but not the distal one (TCACTCA) was shear-responsive. Shear inducibility was lost after the mutation or deletion of the proximal site. This molecular mechanism of shear inducibility of the MCP-1 gene was functional in both the epithelial-like HeLa cells and bovine aortic endothelial cells (BAEC). In a construct with four copies of the TRE consensus sequences TGACTACA followed by the rat prolactin minimal promoter and luciferase gene, shear stress induced the reporter activities by 35-fold and 7-fold in HeLa cells and BAEC, respectively. The application of shear stress on BAEC also induced a rapid and transient phosphorylation of mitogen-activated protein kinases. Pretreatment of BAEC with TPA attenuated the shear-induced mitogen-activated protein kinase phosphorylation, suggesting that shear stress and TPA share a similar signal transduction pathway in activating cells. The present study provides a molecular basis for the transient induction of MCP-1 gene by shear stress.
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PMID:The cis-acting phorbol ester "12-O-tetradecanoylphorbol 13-acetate"-responsive element is involved in shear stress-induced monocyte chemotactic protein 1 gene expression. 764 39

The coupling of prolactin (PRL) receptor ligation to activation of mitogen-activated protein (MAP) kinase was sought in rat Nb2 lymphoma cells, a pre-T lymphocyte line dependent upon lactogens for proliferation. Addition of PRL (20 ng/ml) to Nb2 cells, growth arrested in the early G1 phase of cell cycle, stimulated rapid tyrosyl phosphorylation of MAP kinase (min). Phosphorylated MAP kinase subsequently translocated to the nucleus, with kinetics essentially identical to those demonstrated for nuclear accumulation of PRL. The rapidity of MAP kinase activation suggests an intermediary role for this enzyme in PRL receptor signalling. Moreover, nuclear translocation of MAP kinase provides an interactive mechanism by which PRL, together with its nuclear receptor, may regulate transcription requisite for mitogenesis.
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PMID:Prolactin-induced phosphorylation and nuclear translocation of MAP kinase in Nb2 lymphoma cells. 798 May 91

We have previously demonstrated that epidermal growth factor (EGF) produces activation of the rat prolactin (rPRL) promoter in GH4 neuroendocrine cells via a Ras-independent mechanism. This Ras independence of the EGF response appears to be cell rather than promoter specific. Oncogenic Ras also produces activation of the rPRL promoter when transfected into GH4 cells and requires the sequential activation of Raf kinase, mitogen-activated protein (MAP) kinase, and c-Ets-1/GHF-1 to mediate this response. In these studies, we have investigated the interaction between EGF and Ras in stimulating rPRL promoter activity and the role of Raf and MAP kinases in mediating the EGF response. We have also examined the role of several transcription factors and used various promoter mutants of the rPRL gene in order to better define the trans- and cis-acting components of the EGF response. EGF treatment of GH4 cells inhibits activation of the rPRL promoter produced by transfection of V12Ras from 24- to 4-fold in an EGF dose-dependent manner. This antagonistic effect of EGF and Ras is mutual in that transfection of V12Ras also blocks EGF-induced activation of the rPRL promoter in a Ras dose-dependent manner, from 5.5- to 1.6-fold. Transfection of a plasmid encoding the dominant-negative Raf C4 blocks Ras-induced activation by 66% but fails to inhibit EGF-mediated activation of the rPRL promoter. Similarly, transfection of a construct encoding an inhibitory form of MAP kinase decreases the Ras response by 50% but does not inhibit the EGF response. Previous studies have demonstrated that c-Ets-1 is necessary and that GHF-1 acts synergistically with c-Ets-1 in the Ras response of the rPRL promoter. In contrast, overexpression of neither c-Ets-1 nor GHF-1 enhanced EGF-mediated activation of the rPRL promoter, and dominant-negative forms of these transcription factors failed to inhibit the EGF response. Using 5' deletion and site-specific mutations, we have mapped the EGF response to two regions on the proximal rPRL promoter. One region maps between -255 and -212, near the Ras response element, and a second maps between -125 and -54. The latter region appears to involve footprint 2, a previously identified repressor site on the rPRL promoter. Neither footprint 1 nor 3, known GHF-1 binding sites, appears to be crucial to RGF-mediated rPRL promoter activation. The results of these studies indicate that in GH4 neuroendocrine cells, rPRL gene regulation by EGF is mediated by a signal transduction pathway that is separate and antagonistic to the Ras pathway. Hence, the functional role of the Ras/Raf/MAP kinase pathway in mediating transcriptional responses to EGF and other receptor tyrosine kinase may differ in highly specialized cell types.
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PMID:Epidermal growth factor and Ras regulate gene expression in GH4 pituitary cells by separate, antagonistic signal transduction pathways. 852 43

Several serine/threonine and tyrosine kinase signal transduction pathways have been recently linked to prolactin (PRL) action in lymphoid cells. Utilizing the lactogen-dependent, rat pre-T lymphoma cell line, Nb2-11, and the autonomous subline, Nb2-SFJCD1, studies were conducted to determine whether PRL- or interleukin-2 (IL-2)-stimulated Nb2 cell proliferation is coupled to the activation of p21ras and mitogen-activated protein (MAP) kinase. Stimulation of Nb2-11 cells, growth-arrested in the early G1 phase of the cell cycle, with PRL or IL-2 rapidly (5-10 min) provoked GTP binding to Ras, enhanced tyrosyl phosphorylation of MAP kinase, significantly increased its enzymatic activity, and caused its nuclear translocation. The phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), which directly activates protein kinase C, similarly activated Ras and MAP kinase but failed to cause its nuclear translocation. Tyrosine kinase antagonism with genistein inhibited PRL-stimulated Ras and MAP kinase activation. In other experiments, Ras and MAP kinase were each found to be constitutively active in the Nb2-SFJCD1 line. The addition of PRL to these cultures enhanced the activity of these signaling proteins. Finally, the effects of PRL, IL-2, TPA, and phosphatase inhibition on Nb2-11 cell population density and [3H]thymidine uptake were compared. The addition of PRL, IL-2, and TPA significantly stimulated[3H] thymidine incorporation, while only the polypeptide growth factors augmented cell density. Phosphatase inhibition had no effect on either parameter. These results indicate that Nb2 cell proliferation is associated with the early activation of Ras and MAP kinase. Moreover, tyrosyl phosphorylation upstream of Ras activation appears to be required for its subsequent stimulation of mediators, which activate MAP kinase. Protein kinase C activation may be coupled to MAP kinase activation but is not sufficient for Nb2 cell proliferation.
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PMID:Rapid activation of mitogen-activated protein kinase and p21ras by prolactin and interleukin 2 in rat Nb2 node lymphoma cells. 884

HC11 mammary epithelial cells have been used to characterize molecular events involved in the regulation of milk protein gene expression. Treatment of HC11 cells with the lactogenic hormones prolactin, insulin, and glucocorticoids results in transcription of the beta-casein gene. Prolactin induces a signaling event which involves tyrosine phosphorylation of the mammary gland factor, Stat5, a member of the family of signal transducers and activators of transcription (Stat). Here we show that HC11 cells express two Stat5 proteins, Stat5a and Stat5b. Phosphopeptide and phosphoamino acid analysis of Stat5a and Stat5b immunoprecipitated from phosphate-labeled HC11 cells revealed that both proteins were constitutively phosphorylated on serine. Lactogenic hormone treatment resulted in the appearance of a tyrosine-phosphorylated peptide in both Stat5 proteins. Consistent with this observation, a Western blot analysis of Stat5a and Stat5b showed that lactogenic hormones induced a rapid, transient increase in phosphotyrosine which paralleled the binding of Stat5 to its cognate recognition sequence in the beta-casein gene promoter. Lactogenic hormone treatment of the HC11 cells also led to a rapid activation of the mitogen-activated protein (MAP) kinase pathway. We examined the role of this pathway in beta-casein transcription using a specific MAP kinase kinase inhibitor, PD98059. Concentrations of PD98059 which completely abrogated lactogen-induced MAP kinase activation did not affect the phosphorylation state of Stat5, its DNA binding activity, or transcriptional activation of a beta-casein reporter construct. This indicates that the MAP kinase pathway does not contribute to lactogenic hormone induction of the beta-casein gene.
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PMID:Lactogenic hormone activation of Stat5 and transcription of the beta-casein gene in mammary epithelial cells is independent of p42 ERK2 mitogen-activated protein kinase activity. 894 29

The effects of prolactin (PRL) on proliferation of cultured human uterine leiomyoma-derived smooth muscle cells (SMC) and its mechanism of action were investigated. PRL stimulated DNA synthesis and the expression of PRL receptor was identified by ribonuclease protection assay. Moreover, the regulation of mitogen-activated protein (MAP) kinase by PRL in leiomyoma-derived SMC was investigated. PRL stimulated MAP kinase activity, as detected by 32P incorporation into MAP-2, in a dose-dependent manner. PRL also rapidly stimulated MAP kinase phosphorylation as detected by in vivo phosphorylation using 32P labeling and phosphotyrosine immunoblotting. These results suggest that PRL stimulates the proliferation of human leiomyoma cells via the MAP kinase cascade.
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PMID:Prolactin stimulates mitogen-activated protein kinase in human leiomyoma cells. 929 34

Fibroblast growth factors (FGFs) have been implicated in pituitary lactotroph tumorigenesis; however, little is known about the molecular mechanisms of FGF signal transduction. We used a transient transfection approach, in GH4 cells, to identify components of the FGF signaling pathway leading to activation of the rat prolactin (rPRL) promoter. Using dominant-negative constructs of p21(Ras), Raf-1 kinase, and mitogen-activated protein (MAP) kinase, we show that FGF activation of the rPRL promoter is independent of Ras and Raf-1 but requires MAP kinase. Furthermore, MAP kinase but not Raf-1 kinase catalytic activity is stimulated by FGFs. The rPRL promoter FGF response maps to two Ets binding sites, centered at -212 (FRE1) and -96 (FRE2), and co-transfection of dominant-negative Ets inhibits FGF activation. FRE1 co-localizes with a composite, Ets/GHF-1, Ras response element. However, overexpression of Ets-1 and GHF-1, which potentiate the Ras response, inhibits FGF stimulation of the rPRL promoter, implying that Ras and FGF signaling pathways target distinct factors to elicit their effects. These data suggest that Ets factors serve to sort and integrate MAP kinase-dependent growth factor signals, allowing highly specific transcriptional responses to be mediated via the interaction of distinct Ets proteins and cofactors at common response elements.
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PMID:Functional components of fibroblast growth factor (FGF) signal transduction in pituitary cells. Identification of FGF response elements in the prolactin gene. 938 30

Transcription factors of the Stat family are controlled by protein kinases. Phosphorylation of a positionally conserved tyrosine residue is obligatory for Stat dimerization, nuclear translocation, and specific DNA binding. Studies of Stat1 and Stat3 have suggested that serine phosphorylation may also regulate function. We now identify serine residues located in a conserved PSP motif of Stat5a (Ser725) and Stat5b (Ser730) as major phosphorylation sites, using mutagenesis, phosphoamino acid analysis, and site-specific anti-Stat5-phosphoserine antibodies. Unexpectedly, phosphorylation control of this PSP motif differed between the highly homologous Stat5a and Stat5b proteins. Whereas Ser725 of Stat5a was constitutively phosphorylated both in COS-7 cells and Nb2 lymphocytes, phosphorylation of Ser730 of Stat5b was markedly stimulated by prolactin. The data also suggested the existence of a second major serine phosphorylation site in Stat5a. Interestingly, constitutive phosphorylation of the PSP motif was suppressed by PD98059 but not by staurosporine under conditions in which both agents inhibited mitogen-activated protein kinases. Furthermore, pretreatment of cells with staurosporine, PD98059, H7, or wortmannin did not prevent either Stat5a or Stat5b from becoming maximally serine-phosphorylated after prolactin exposure. We propose that two pathways regulate Stat5 serine phosphorylation, one that is prolactin-activated and PD98059-resistant and one that is constitutively active and PD98059-sensitive and preferentially targets Stat5a. Finally, phosphorylation of the PSP motif of Stat5a or Stat5b was not essential for DNA binding or transcriptional activation of a beta-casein reporter gene in COS-7 cells, suggesting that serine kinase control of Stat5 activity differs from that of Stat1 and Stat3.
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PMID:Differential control of the phosphorylation state of proline-juxtaposed serine residues Ser725 of Stat5a and Ser730 of Stat5b in prolactin-sensitive cells. 980 79

Cytokines and hormones activate a network of intracellular signaling pathways to regulate cell division, survival and differentiation. In parallel, a series of growth inhibitory mechanisms critically restrict cell population sizes. For example, mitogens can be opposed in crowded cell cultures through contact-inhibition or by autocrine release of antiproliferative substances. Here, we characterize a small, heat-stable growth inhibitor secreted by a rat T lymphoma line when cultured at high cell density. Short term incubation (<60 min) of prolactin-responsive Nb2 lymphoma cells at high density selectively blocked prolactin stimulation of p42/p44 mitogen-activated protein kinases and transcription factors Stat1 and Stat3 but not prolactin activation of Stat5 or the tyrosine kinase Jak2. The selective effects of cell density on prolactin signaling were reversible. Furthermore, exposure of cells at low density to conditioned media from cells incubated at high density had the same inhibitory effects on prolactin signaling. This selective inhibition of discrete prolactin signals was mimicked by short term preincubation of cells at low density with staurosporine or genistein but not with bis-indoleyl maleimide, cyclic nucleotide analogs, calcium ionophore A23187, or phorbol 12-myristate 13-acetate. A heat-stable, proteinase K-resistant, low molecular weight factor with these characteristics was recovered from high density culture medium. The partially purified inhibitor suppressed Nb2 cell growth with a sigmoidal concentration response consistent with a saturable, receptor-mediated process.
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PMID:A lymphoma growth inhibitor blocks some but not all prolactin-stimulated signaling pathways. 1032 65

We examined whether mitogen-activated protein (MAP) kinase is activated by thyrotropin-releasing hormone (TRH) in GH3 cells, and whether MAP kinase activation is involved in secretion of prolactin from these cells. Protein kinase inhibitors--such as PD098059, calphostin C, and genistein--and removal of extracellular Ca2+ inhibited MAP kinase activation by TRH. A cAMP analogue activated MAP kinase in these cells. Effects of cAMP on MAP kinase activation were inhibited by PD098059. TRH-induced prolactin secretion was not inhibited by levels of PD098059 sufficient to i activation but was inhibited by wortmannin (1 microM) and KN93. Treatment of GH3 cells with either TRH or cAMP significantly inhibited DNA synthesis and induced morphological changes. The effects stimulated by TRH were reversed by PD098059 treatment, but the same effects stimulated by cAMP were not. Treatment of GH3 cells with TRH for 48 h significantly increased the prolactin content in GH3 cells and decreased growth hormone content. The increase in prolactin was completely abolished by PD098059, but the decrease in growth hormone was not. These results suggest that TRH-induced MAP kinase activation is involved in prolactin synthesis and differentiation of GH3 cells, but not in prolactin secretion.
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PMID:Mitogen-activated protein kinase activation by stimulation with thyrotropin-releasing hormone in rat pituitary GH3 cells. 1037 65


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