EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

SK-HEP-1 is an immortal, human cell line derived from the ascitic fluid of a patient with adenocarcinoma of the liver. We have determined that these cells are of endothelial origin. Despite the location of the tumor from which SK HEP-1 was derived, the cell line does not have properties of hepatocytes. Northern blot analysis of total cellular RNA shows no messenger RNA for the hepatic-specific proteins albumin, alpha-fibrinogen, or gamma-fibrinogen. Endothelial characteristics are seen by transmission electron microscopy. These features include numerous pinocytotic vesicles, electron dense granules consistent with Weibel-Palade bodies, and abundant intermediate filaments, identified immunocytochemically as vimentin. Cultures grown on plastic dishes grow in bundles of polygonal to spindle-shaped cells. Proteins characteristic for endothelial cells are identified by immunocytochemistry. Addition of basement membrane material (Matrigel) or type I collagen to the cultures induces these cells to organize into a tubular network.
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PMID:SK HEP-1: a human cell line of endothelial origin. 137 4

We decided to investigate the EPH-gestosis--connected alterations in collagen of the umbilical cord arteries. The samples of arterial walls were submitted to histological and biochemical studies. It was found that umbilical cord arteries taken from newborns of mothers with EPH-gestosis contain more than twice the amount of collagen in comparison to corresponding arteries of newborns from normal pregnancies. An increase of collagen content in these vessels in accompanied by a slight decrease of its solubility. Types I, III, IV, V and VI collagens were found both in normal umbilical cord arteries and in those of newborns delivered by mothers with EPH-gestosis but their proportional relationships were different. EPH-gestosis is accompanied by an increase of a proportional amount of type III-collagen and a decrease of type I collagen in umbilical cord arteries. It seems that these changes in the umbilical cord arteries may be responsible for the decrease of blood flow in fetus of woman with EPH-gestosis.
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PMID:Collagen of umbilical cord arteries and its alterations in EPH-gestosis. 800 74

ARH-77 human myeloma cells invade into type I collagen gels but become non-invasive when engineered to express syndecan-1, a heparan sulphate proteoglycan that promotes cell adhesion to collagen. To determine if syndecan-1 expression influences the activity of proteases that may facilitate invasion, we analysed media harvested from syndecan-1 expressing and non-expressing cells. High levels of a 92 kD gelatinase accumulated in serum-free growth medium of both parental and control-transfected ARH-77, but much less 92 kD gelatinase accumulated in the medium of ARH-77 transfectants expressing syndecan-1. The gelatinase was identified as matrix metalloproteinase (MMP)-9 because its activity was immunoprecipitated with a MMP-9-specific monoclonal antibody. Gelatinase activity and Western blot analyses revealed 2-3-fold less MMP-9 in medium from syndecan-1 transfected cells than in medium from parental cells. Decreased MMP-9 was not due to increased association of MMP-9 with cells expressing syndecan-1. An inverse correlation between the syndecan 1 level and the level of MMP-9 accumulation in the media was observed using a panel of ARH-77 transfectants expressing syndecan-1. Investigation of six unrelated human myeloma cell lines confirmed that high gelatinase levels were recovered from conditioned media of those that did not express syndecan-1 (ARH-77, Mer and Col) and one line that expressed a low level of syndecan-1 (RPMI-8226), but low gelatinase levels were recovered from media of lines that expressed high levels of syndecan-1 (ARK and clone 2+). Therefore syndecan-1 may play a dual role in inhibiting the metastasis of tumour cells by promoting cell adhesion to the extracellular matrix and suppressing the proteolytic activity needed for invasion.
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PMID:Syndecan-1 expression suppresses the level of myeloma matrix metalloproteinase-9. 1005 Jul 21

Endothelial cells derived from fetal bovine aorta (BAECs) undergo apoptosis in three-dimensional (3-D) type I collagen lattice in the absence of specific angiogenic factor. In the presence of angiogenic factor, BAECs survive and form a capillary-like tube structure in 3-D culture. In the present study we elucidate the mechanisms of BAECs apoptosis or survival and tube formation in 3-D culture. When BAECs embedded in collagen lattice were cultured with angiogenic factor (fibroblast growth factor-2 (FGF-2) or 4beta-phorbol 12-myristate 13-acetate (PMA)) in the presence of PD98059, a specific inhibitor of mitogen-activated protein kinase kinase, BAECs did not form tube structures and underwent apoptosis in collagen lattice. Function-blocking antibody against alphavbeta3 integrin also inhibited tube formation and induced apoptosis in 3-D culture in the presence of angiogenic factors. Exposure of BAECs to FGF-2 and PMA had no effect on the alphavbeta3 integrin expression but induced the activation of alphavbeta3 integrin. PD98059 attenuated alphavbeta3 integrin activation in response to angiogenic factor. KB-R8301, a hydroxamic acid-based matrix metalloproteinase (MMP) inhibitor, prevented apoptotic cell death in the absence of angiogenic factor in 3-D culture and enhanced capillary-like tube formation in the presence of angiogenic factor, which was not inhibited by the anti-alphavbeta3 integrin antibody. The results suggest that angiogenic factor-induced alphavbeta3 integrin activation through the MEK-ERK pathway regulates the BAEC fate between apoptosis and angiogenesis in collagen lattice. MMP derived from BAECs seems to play a key role in the release of cryptic ligands for alphavbeta3 integrin from intact collagen.
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PMID:Induction of apoptotic cell death in vascular endothelial cells cultured in three-dimensional collagen lattice. 1022 41

Our previous studies have shown that Fc gamma receptor (FcgammaR)-mediated uptake of LDL-containing immune complexes (oxLDL-ICs) by human monocyte-derived macrophages leads to not only transformation of macrophages into foam cells but also macrophage activation and release of cytokines. It has been shown that cross-linking of FcgammaR triggers activation of signal transduction pathways that alter gene expression in macrophages. In this study, we determined whether engagement of FcgammaR by oxLDL-ICs leads to activation of mitogen-activated protein (MAP) kinase pathway, a signaling cascade serving many important functions, including the regulation of gene expression, in THP-1 macrophage-like cells. Our results from immunoblotting, using specific anti-phosphorylated MAP kinase antibodies, showed that oxLDL-ICs induced extracellular signal regulated kinase 2 (ERK2) MAP kinase phosphorylation in THP-1 macrophage-like cells in time- and dose-dependent manners. Cholesterol loading before stimulation led to a longer phosphorylation of ERK2. Nuclear translocation of phosphorylated ERK was markedly increased after the stimulation. Moreover, our data showed that oxLDL-IC induction of MAP kinase was prevented by human monomeric IgG1, suggesting that the specific engagement of type I FcgammaR by oxLDL-IC is responsible for the MAP kinase activation. Finally, we showed that human anti-oxLDL autoantibody-containing immune complexes immobilized on type I collagen induced MAP kinase activation in THP-1 cells. These results strongly suggest that oxLDL-IC, which has been detected in atherosclerotic plaques, may play an important role in macrophage activation and atherogenesis.
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PMID:Oxidized LDL-containing immune complexes induce Fc gamma receptor I-mediated mitogen-activated protein kinase activation in THP-1 macrophages. 1039 76

Although basic fibroblast growth factor (FGF-2) had been shown to inhibit type I collagen gene expression in osteoblast, its inhibitory mechanism is unknown. In the present study, we investigated the underlying mechanisms by which growth factors downregulate type I collagen gene expression. Treatment of mouse osteoblastic MC3T3-E1 cells with okadaic acid (40 ng/ml), an inhibitor of phosphoserine/threonine-specific protein phosphatase and activator of ERK1/2, for 24 h and 48 h completely inhibited steady-state mRNA levels of type I collagen. FGF-2 (30 ng/ml), platelet-derived growth factor-BB (PDGF-BB), 30 ng/ml, and serum, which activate ERK mitogen-activated protein kinase (MAPK) pathway also inhibited collagen type I gene expression, suggesting that the activation of ERK pathway mediates inhibition of type I collagen mRNA. This observation was further confirmed by experiments using inhibitors of the ERK pathway (i.e., PD and U0126), which increased type I collagen mRNA in MC3T3-E1 cells, indicating that the inhibition of ERK pathway upregulates type I collagen gene expression. Low serum (0.3%) markedly increased type I collagen mRNA. MEK inhibitor PD inhibited c-fos induction by FGF-2 and PDGF-BB, suggesting that c-fos is the downstream target of ERK pathway. Our data have clearly demonstrated for the first time that the ERK MAPK pathway play an important role in the regulation of type I collagen gene expression in osteoblastic cells. Results also showed that one of the mechanisms by which FGF-2 and PDGF-BB downregulate type I collagen gene expression in the osteoblast is through the activation of ERK signaling pathway.
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PMID:Extracellular-signal regulated kinase signaling pathway mediates downregulation of type I procollagen gene expression by FGF-2, PDGF-BB, and okadaic acid in osteoblastic cells. 1064 32

A coordinated interaction between fibroblast growth factors (FGFs) and matrix metalloproteinases (MMPs) is implicated in migration of microvascular endothelial cells (ECs), an early stage of angiogenesis. Specifically, we investigated microvascular ECs migration in vitro, which can be initiated by the overexpression of a secretory form of the angiogenic fibroblast growth factor-1 (FGF-1) and mediated through the enzymatic activity of matrix metalloproteinase-1 (MMP-1). MMP-1 is a member of the MMP family with a propensity for degradation of interstitial type I collagen. We stably overexpressed a chimeric FGF-1 construct composed of the FGF-4 signal-peptide gene, linked in-frame to the FGF-1 coding frame gene (sp-FGF-1), in cultured postcapillary venular ECs. The presence of the biologically active form of FGF-1 was readily detected in the conditioned medium of ECs transfected with sp-FGF-1 construct as demonstrated by DNA synthesis assay. The sp-FGF-1-, but not the plasmid vector alone-transfected ECs, exhibited an altered morphology as demonstrated by their conversion from a classic cobblestone form to a fibroblastlike shape that featured prominent neuritelike extensions. Addition of the anti-FGF receptor 1 antibody (FGFR1 Ab) reverted the transformed phenotype of sp-FGF-1 transfectants. This suggests that the resulting phenotypic transformation in sp-FGF-1 transfectants requires an uninterrupted interaction between the FGF-1 ligand and its receptor. We studied migration of cells through matrices of either highly pure collagen I or reconstituted basement membrane (matrigel) and found that sp-FGF-1-transfected cells migrated two times and six times faster than the vector control transfectants in the respective matrices. We further demonstrated that the enhanced migration rate of sp-FGF-1-transfected EC coincided with the induction of their MMP-1 mRNA level and increased enzymatic activity. The enhanced migratory activity of sp-FGF-1 could be blocked with a selective inhibitor of MMP-1. These results suggest that the multipotent FGF-1 plays a key role in the early stages of angiogenesis, by mediating MMP-1 proteolytic activity.
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PMID:Overexpression of a secretory form of FGF-1 promotes MMP-1-mediated endothelial cell migration. 1086 46

The alpha(2) integrin subunit cytoplasmic domain is necessary for epidermal growth factor (EGF)-stimulated chemotactic migration and insulin-dependent entry into S-phase of mammary epithelial cells adherent to type I collagen. Truncation mutants revealed that the seven amino acids, KYEKMTK, in addition to the GFFKR motif were sufficient for these functions. Mutation of tyrosine 1134 to alanine inhibited the ability of the cells to phosphorylate p38 MAPK and to migrate in response to EGF but had only a modest effect on the ability of the cells to induce sustained phosphorylation of the ERK MAPK, to up-regulate cyclin E and cdk2 expression, and to enter S-phase when adherent to type I collagen. Conversely, mutation of the lysine 1136 inhibited the ability of the cells to increase cyclin E and cdk2 expression, to maintain long term phosphorylation of the ERK MAPK, and to enter S-phase but had no effect on the ability of the cells to phosphorylate the p38 MAPK or to migrate on type I collagen in response to EGF. Methionine 1137 was essential for both migration and entry into S-phase. Thus, distinctly different structural elements of the alpha(2) integrin cytoplasmic domain are required to engage the signaling pathways leading to cell migration or cell cycle progression.
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PMID:Specific residues within the alpha 2 integrin subunit cytoplasmic domain regulate migration and cell cycle progression via distinct MAPK pathways. 1141 14

Activation of hepatic stellate cells (HSC) has been identified as a critical step in hepatic fibrogenesis and is regulated by several factors including cytokines and oxidative stress. However, the molecular mechanism for HSC inactivation is not well understood. We investigated an N-acetyl-L-cysteine (NAC)-mediated signaling pathway involved in HSC inactivation. NAC, which acting through its reducing activity, induced cell arrest at G1 via the mitogen-activated protein kinase (MAPK) kinase (MEK)/MAPK pathway in a Ras-independent manner. The sustained activation of this extracellular signal-regulated kinase induced the expression of p21(Cip1/WAF1), a cell cycle-dependent kinase inhibitor, and mediated cell growth arrest through the Sp1 transcription activator-dependent mechanism. These effects of NAC were all reversed by treatment of HSC with MEK inhibitor PD98059 followed by culturing HSC on type I collagen-coated flasks. The collagen-mediated suppression of NAC-induced arrest may be due to an overriding of the cell cycle arrest through an acceleration of integrin-induced cell growth. NAC action is actually dependent on modulating the redox states of cysteine residues of target proteins such as Raf-1, MEK, and ERK. In conclusion, an understanding of the NAC signaling pathway in HSC should provide the theoretical basis for clinical approaches using antioxidant therapies in liver fibrosis.
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PMID:N-acetylcysteine induces cell cycle arrest in hepatic stellate cells through its reducing activity. 1150 53

The formation of new blood vessels proceeds by both vasculogenesis and angiogenesis. The development of models, which fully recapitulate spatio-temporal events involved during these processes, are crucial to fully understand their mechanisms of regulation. In vitro differentiation of murine embryonic stem (ES) cells has been shown to be a useful tool to investigate factors and genes potentially involved in vasculogenesis (Hirashima et al, 1999; Risau et al, 1988; Vittet et al, 1996; Wang et al, 1992; Wartenberg et al, 1998). We asked here whether this model system can also recapitulate angiogenesis, which may offer new means to study mechanisms involved in this process. ES-derived embryoid bodies (EBs) obtained after 11 days of differentiation, in which a primitive vascular network had formed, were then subcultured into a type I collagen matrix. In the presence of angiogenic growth factors, EBs rapidly developed branching pseudopods. Whole mount immunostainings with a PECAM antibody revealed that more than 75% EBs displayed, within a few days, a large number of endothelial outgrowths that can give tube-like structures with concomitant differentiation of alpha-smooth muscle actin positive cells, thus evoking sprouting angiogenesis. High expression levels of flk1 (VEGFR2), flt1 (VEGFR1), tie-1, and tie-2 are also found, indicating that budding endothelial cells displayed an angiogenic phenotype. The endothelial sprouting response was specifically induced by angiogenic factors with a major contribution of vascular endothelial growth factor (VEGF). Known angiostatic agents, such as platelet factor 4 (PF4), angiostatin, and endostatin inhibited the formation of endothelial sprouts induced by angiogenic factors. Moreover, consistent with the in vivo phenotype, VE-cadherin deficient EBs failed to develop angiogenesis in this model. ES cell differentiation can then recapitulate, in addition to vasculogenesis, the early stages of sprouting angiogenesis. This model system, in which genetic modifications can be easily introduced, may be of particular interest to investigate unsolved questions and molecular mechanisms involved in blood vessel formation.
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PMID:Embryonic stem cell-derived embryoid bodies development in collagen gels recapitulates sprouting angiogenesis. 1174 37

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