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)

We have developed an efficient serum free culture model for cloning human erythroid progenitors. Accordingly, human bone marrow or cord blood CD34+ cells if plated in our serum free medium and stimulated with a mixture of EpO + KL, grow erythroid colonies exclusively. Cells isolated from these cultures express glycophorin-A (GPA-A), are CD33-, IIb/IIIa-, and finally all become hemoglobinized. By employing this system we also found out that cord blood CD34+ mononuclear cells (MNC) contain more BFU-E than adult marrow CD34+ MNC, moreover, the erythroid colonies formed by cord blood progenitors are significantly larger then the ones formed by the marrow cells. We have also compared the influence of different cytokines and growth factors, which were reported in the literature to costimulate BFU-E growth on cloning efficiency of human BFU-E cultured in our serum free medium. We found that from 20 different growth factors and cytokines tested, EpO dependent bone marrow BFU-E growth is costimulated only by KL, and to lesser degree also by IL-3, GM-CSF, TpO and IL-9. In contrast to marrow cells we observed that cord blood BFU-E in addition to KL, IL-3, GM-CSF, TpO, LIF and IL-9 were also costimulated by NGF-beta, FGF-1, FGF-2 and STK-IL. We found simultaneously that TPO which possess only negligible costimulatory effect on erythroid colony formation by bone marrow CD34+ cells, significantly costimulated the formation of erythroid colonies grown by cord blood CD34+ cells. Therefore, the cord blood CD34+ cells are largely committed to erythroid differentiation, and, moreover, they respond to a wider spectrum of the growth factors than their bone marrow counterparts.
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PMID:An improved serum free system for cloning human "pure" erythroid colonies. The role of different growth factors and cytokines on BFU-E formation by the bone marrow and cord blood CD34+ cells. 960 18

We have identified a novel mitogen- and stress-activated protein kinase (MSK1) that contains two protein kinase domains in a single polypeptide. MSK1 is activated in vitro by MAPK2/ERK2 or SAPK2/p38. Endogenous MSK1 is activated in 293 cells by either growth factor/phorbol ester stimulation, or by exposure to UV radiation, and oxidative and chemical stress. The activation of MSK1 by growth factors/phorbol esters is prevented by PD 98059, which suppresses activation of the MAPK cascade, while the activation of MSK1 by stress stimuli is prevented by SB 203580, a specific inhibitor of SAPK2/p38. In HeLa, PC12 and SK-N-MC cells, PD 98059 and SB 203580 are both required to suppress the activation of MSK1 by TNF, NGF and FGF, respectively, because these agonists activate both the MAPK/ERK and SAPK2/p38 cascades. MSK1 is localized in the nucleus of unstimulated or stimulated cells, and phosphorylates CREB at Ser133 with a Km value far lower than PKA, MAPKAP-K1(p90Rsk) and MAPKAP-K2. The effects of SB 203580, PD 98059 and Ro 318220 on agonist-induced activation of CREB and ATF1 in four cell-lines mirror the effects of these inhibitors on MSK1 activation, and exclude a role for MAPKAP-K1 and MAPKAP-K2/3 in this process. These findings, together with other observations, suggest that MSK1 may mediate the growth-factor and stress-induced activation of CREB.
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PMID:Mitogen- and stress-activated protein kinase-1 (MSK1) is directly activated by MAPK and SAPK2/p38, and may mediate activation of CREB. 968 10

The antimitotic nucleoside cytosine arabinoside (araC) causes apoptosis in postmitotic neurons for which two mechanisms have been suggested: (1) araC directly inhibits a trophic factor-maintained signaling pathway required for survival, effectively mimicking trophic factor withdrawal; and (2) araC induces apoptosis by a p53-dependent mechanism distinct from trophic factor withdrawal. In rat sympathetic neurons, we found that araC treatment for 12 hr induced approximately 25% apoptosis without affecting NGF-maintained signaling; there was neither reduction in the activity of mitogen activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) or protein kinase B/Akt, a kinase implicated in NGF-mediated survival, nor was there c-Jun N-terminal kinase (JNK) activation or c-Jun N-terminal phosphorylation, events implicated in apoptosis induced by NGF withdrawal. However, araC treatment, but not NGF-withdrawal, elevated expression of p53 protein before and during apoptosis. Additionally, araC-induced apoptosis was suppressed in sympathetic neurons from p53 null mice. Although MAPK/ERK activity is not necessary for NGF-induced survival, it protected against toxicity by araC, because inhibition of the MAPK pathway by PD98059 resulted in a significant increase in the rate of apoptosis induced by araC in the presence of NGF. Consistent with this finding, ciliary neurotrophic factor, which does not cause sustained activation of MAPK/ERK, did not protect against araC toxicity. Our data show that, in contrast to NGF deprivation, araC induces apoptosis via a p53-dependent, JNK-independent mechanism, against which MAPK/ERK plays a substantial protective role. Thus, NGF can suppress apoptotic mechanisms in addition to those caused by its own deprivation.
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PMID:A role for MAPK/ERK in sympathetic neuron survival: protection against a p53-dependent, JNK-independent induction of apoptosis by cytosine arabinoside. 988 May 87

Stably transfected PC12 cell lines expressing similar amounts of chimeric receptors composed of the extracellular domain of the human platelet-derived growth factor (PDGF)beta receptor and the transmembrane and intracellular domains of the fibroblast growth factor receptors (FGFRs) 1, 3, and 4 undergo ligand-induced differentiation. The FGFR1 chimera (PFR1) is the most potent of the three, and PFR4 requires more frequent (every 24 hr) addition of ligand to maintain the response. Both PFR1 and -3 also show significant ligand-independent autophosphorylation but PFR4 does not. All of the chimeras activated phospholipase Cgamma, Shc, FGFR substrate (FRS)2, and the mitogen-activated protein kinases, ERK1 and 2. PFR4 was moderately weaker in stimulating these effects as well; PFR1 and -3 were comparable. None of the chimeras induced Sos association or were coprecipitated with Shc. Cotransfection of a dominant-negative Shc derivative, with tyrosine at 239, 240, and 317 replaced with phenylalanine, in the PFR-expressing cells was without effect on PDGF-induced neurite outgrowth. The same derivative substantially inhibited the response of these cells to NGF. These results indicate that FGFR1, 3, and 4 (i) are capable of signaling in a similar fashion; (ii) primarily use FRS2 and, perhaps, PLCgamma; and (iii) do not utilize Shc. The results also suggest that the principal difference between FGFR1, 3, and 4 is in the strength of the tyrosine kinase activity and that qualitative differences in signaling capacity are likely to be less important.
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PMID:Comparison of the intracellular signaling responses by three chimeric fibroblast growth factor receptors in PC12 cells. 1037 88

To study possible effects of physical training on the expression of neurotrophic factors and their receptors in the brain, we used a rat strain (spontaneously hypertensive rat, SHR), known to spontaneously run up to 20 km/night. We show that such long-distance running affects the brain-derived neurotrophic factor (BDNF) and TrkB system in hippocampus, and in particular that abrupt deprivation of habitual running leads to long-lasting decreases of BDNF/TrkB expression in hippocampus. Quantitative in situ hybridization demonstrates that running increases the expression of mRNA coding for BDNF and its high affinity receptor TrkB in hippocampus in a running length dependent manner. In addition, we show that an abrupt interruption of prolonged spontaneous exercise decrease expression of mRNA encoding BDNF and TrkB in certain hippocampal areas and that this decrease lasts at least 10 days. This down-regulation was most prominent in medial cornu ammonis 3 (CA3M). Several other trophic factors and receptors were investigated, including NGF, NT3, GDNF, trkC and p75. For these other probes investigated, no robust changes in mRNA expression were noted. Areas examined included sensorimotor cortex and hippocampus. For RET, p75, NT3, TrkB and BDNF we also examined the spinal cord without detecting any robust changes. We conclude that spontaneous running as well as its abrupt termination, leads to area-specific and trophic factor-specific changes in hippocampus.
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PMID:Deprived of habitual running, rats downregulate BDNF and TrkB messages in the brain. 1051 54

The role of signal transducer and activator of transcription (STAT) signaling pathways in the interleukin-6 (IL-6)-induced morphological differentiation of PC12-E2 cells was assessed using wild type and dominant negative mutants of Stat1 and Stat3, containing Tyr --> Phe (YF), Ser --> Ala (SA), and the double mutations (DM), respectively. FS3-YF or FS3-DM markedly inhibited the IL-6-induced response, but overexpression of FS3-SA caused only a modest inhibition. Expression of all Stat3 mutants had no effect on NGF-induced neurite outgrowth. Overexpression of wild type Stat1 protein inhibited IL-6 activated DNA binding complexes containing Stat3 homodimers, which may explain the partial negative effect of Stat1 on IL-6-induced neurite outgrowth. Specificity of these STAT constructs was confirmed using luciferase reporter gene assays, which showed that IL-6-activated transcription was blocked by expression of FS3-YF and FS3-DM and that FS1 enhanced the interferon gamma-activated transcription. Thus, in PC12-E2 cells, Stat3 homodimers are preferentially activated by IL-6, indicating a role for Stat3 in the regulation of cellular differentiation. Furthermore, IL-6 induced robust neurite outgrowth in PC12-E2 cells expressing dominant negative forms of RAS or SHC or in cells pretreated with the mitogen-activated protein kinase mitogen-activated protein kinase kinase inhibitor, PD98059. Thus, activation of the Stat3 signaling pathway, but not RAS/ERK dependent pathways, is essential for differentiation of PC12-E2 cells by IL-6.
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PMID:Activation of the Stat3 signaling pathway is required for differentiation by interleukin-6 in PC12-E2 cells. 1063 20

Accumulation of ceramide has been reported in stress- and receptor-induced apoptosis in the nervous system. However, its role in apoptosis signaling remains elusive. We describe here the inhibition of the NGF-activated phosphoinositide 3-kinase (PI3K)-PKB/Akt1 survival pathway by the cell permeable analog C2-ceramide. C2-ceramide did not inhibit ERK, PI3K, or PDK1 activities and did not alter the translocation of PDK1 and Akt1 to the plasma membrane, but blocked nuclear translocation of Akt1. Down-regulation of the Akt pathway was due to enhanced dephosphorylation of Akt1 at residues T308 and S473. Moreover, Akt1 was dephosphorylated in vitro by a cation-independent phosphatase involving ceramide-activated protein phosphatase (CAPP). Membrane-anchored Akt1 was more resistant to dephosphorylation/inactivation by C2-ceramide than wild-type Akt1. Consistently, N-myristylated-Akt1 conferred resistance to the apoptosis induced by C2-ceramide in PC12 cells. These results provide a novel mechanism for induction of apoptosis by ceramide in nerve-derived cells.
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PMID:Inhibition of PKB/Akt1 by C2-ceramide involves activation of ceramide-activated protein phosphatase in PC12 cells. 1067 24

The effects of heregulin on the cell line HB2, derived from immortalised human luminal mammary epithelial cells, have been examined. HB2 cells, which normally form smooth spherical colonies in collagen gels, exhibited a striking heregulin-induced morphological change to colonies projecting a large number of spiky branches. A mitogenic effect of heregulin on HB2 cells was also seen, which was more pronounced on collagen than on plastic, whereas cell motility was unaffected. HB2 cells were found to express the heregulin receptor subunits HER2 and HER3, but not HER4. Treatment of HB2 cells with heregulin also induced tyrosine phosphorylation of a band shown by immunoprecipitation to contain HER3. Using specific receptor-blocking antibodies, it was found that both the morphogenetic and proliferative responses of heregulin in HB2 cells were mediated by HER2 and HER3. To compare the effects of HER2 in heregulin signaling to heregulin-independent HER2 homodimerisation (thought to be a carcinoma-associated event), HB2 cells were transfected with the trk-neu hybrid receptor which could be induced to form homodimers by NGF. Although activated HER2 homodimers induced proliferation in the HB2 transfectants in collagen, a morphological response in collagen was not seen, suggesting that HER3 signaling is important for morphogenesis in this cell type.
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PMID:Morphogenetic and proliferative responses to heregulin of mammary epithelial cells in vitro are dependent on HER2 and HER3 and differ from the responses to HER2 homodimerisation or hepatocyte growth factor. 1081 78

To investigate the influence of AT(2) receptor stimulation on the ERK pathway and elucidate potential mechanisms of angiotensin II (ANG II)-mediated neuronal differentiation, we analysed tyrosine phosphorylation and activity of ERK after ANG II treatment of both quiescent and NGF-treated PC12W cells. Tyrosine phosphorylation of ERK1 and ERK2 corresponded with the activity of ERK. While ANG II induced an initial activation of ERK in quiescent cells, the NGF-mediated plateau of ERK-stimulation was lowered by costimulation with ANG II. All effects of ANG II were sensitive to AT(2) - but not AT(1) receptor blockade. Ang II-mediated neurite outgrowth in PC12W cells was inhibited by co-treatment with the MEK inhibitor PD 098059. These findings demonstrate that the AT(2) receptor modulates ERK activity depending on the overall cellular input. The distinct regulation of ERK by ANG II and NGF further indicates basic differences in AT(2) receptor- and NGF-induced neuronal differentiation.
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PMID:Angiotensin AT(2) receptor stimulates ERK1 and ERK2 in quiescent but inhibits ERK in NGF-stimulated PC12W cells. 1089 97

Bcl-2 overexpression prevents neuronal death after injury or neurotrophic factor-deprivation but the biochemical consequences of survival maintenance by Bcl-2 have hardly been explored. We show that unlike NGF, adenovirally delivered hBcl-2 supports the survival of over 80% of the neurons without activating ERK and Akt phosphorylation, or suppressing JNK phosphorylation, or enhancing cell growth. However, the proapoptotic protein BAD, whose phosphorylation is induced by NGF, is degraded in NGF-deprived neurons expressing hBcl-2, while the level of Bcl-xL remains unaffected. Interestingly, degradation of BAD protein is prevented by the pan-caspase inhibitor Boc.Asp(OMe)fmk. We propose that NGF-deprivation promotes dephosphorylation of BAD while hBcl-2 facilitates its release into the cytoplasm where it is degraded by noncaspase, Boc.Asp(O-Me)fmk-inhibitable proteases. The potential importance of BAD degradation is suggested by our finding that overexpressed BAD kills NGF-maintained sympathetic neurons by apoptosis, while hBcl-2 prevents BAD-induced death.
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PMID:The combination of bcl-2 expression and NGF-deprivation facilitates the selective destruction of BAD protein in living sympathetic neurons. 1092 54

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