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Query: UNIPROT:P31749 (AKT)
 22,954 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Little is known about the physiologic role of phosphatidylinositol 3-kinase (PI-3K) in the development of erythrocytes. Previous studies have shown that the effects of the PI-3K inhibitor wortmannin on erythropoietin (EPO)-dependent cell lines differed depending on the cell type used. Wortmannin inhibited EPO-induced differentiation of some cell lines without affecting their proliferation; however, the EPO-induced proliferation of other cell lines was inhibited by wortmannin. In neither case were signs of apoptosis observed. We have previously reported that signaling in highly purified human colony forming units-erythroid (CFU-E), generated in vitro from CD34(+) cells, differed from that in EPO-dependent cell lines. In the current study, we examined the effects of a more specific PI-3K inhibitor (LY294002) on human CFU-E. We found that LY294002 dose-dependently inhibits the proliferation of erythroid progenitor cells with a half-maximal effect at 10 micromol/L LY294002. LY294002 at similar concentrations also induces apoptosis of these cells, as evidenced by the appearance of annexin V-binding cells and DNA fragmentation. The steady-state phosphorylation of AKT at Ser-473 that occurs as a result of PI-3K activation was also inhibited by LY294002 at similar concentrations, suggesting that the effects of LY294002 are specific. Interestingly, the acceleration of apoptosis by LY294002 was observed in the presence or absence of EPO. Further, deprivation of EPO resulted in accelerated apoptosis irrespective of the presence of LY294002. Our study confirms and extends the finding that signaling in human primary cultured erythroid cells is significantly different from that in EPO-dependent cell lines. These data suggest that PI-3K has an antiapoptotic role in erythroid progenitor cells. In addition, 2 different pathways for the protection of primary erythroid cells from apoptosis likely exist: 1 independent of EPO that is LY294002-sensitive and one that is EPO-dependent and at least partly insensitive to LY294002.
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PMID:Phosphatidylinositol 3-kinase is involved in the protection of primary cultured human erythroid precursor cells from apoptosis. 1047 82

Protein kinase C (PKC) is implied in the activation of multiple targets of erythropoietin (Epo) signaling, but its exact role in Epo receptor (EpoR) signal transduction and in the regulation of erythroid proliferation and differentiation remained elusive. We analyzed the effect of PKC inhibitors with distinct modes of action on EpoR signaling in primary human erythroblasts and in a recently established murine erythroid cell line. Active PKC appeared essential for Epo-induced phosphorylation of the Epo receptor itself, STAT5, Gab1, Erk1/2, AKT, and other downstream targets. Under the same conditions, stem cell factor-induced signal transduction was not impaired. LY294002, a specific inhibitor of phosphoinositol 3-kinase, also suppressed Epo-induced signal transduction, which could be partially relieved by activators of PKC. PKC inhibitors or LY294002 did not affect membrane expression of the EpoR, the association of JAK2 with the EpoR, or the in vitro kinase activity of JAK2. The data suggest that PKC controls EpoR signaling instead of being a downstream effector. PKC and phosphoinositol 3-kinase may act in concert to regulate association of the EpoR complex such that it is responsive to ligand stimulation. Reduced PKC-activity inhibited Epo-dependent differentiation, although it did not effect Epo-dependent "renewal divisions" induced in the presence of Epo, stem cell factor, and dexamethasone.
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PMID:Protein kinase C alpha controls erythropoietin receptor signaling. 1094 Mar 12

The molecular details of hypoxia-induced cellular responses have been difficult to identify since there is as yet no known oxygen receptor. We used cDNA microarray technology to extend our studies pertaining to these molecular details in human hepatocellular carcinoma (Hep3B) cells that produce erythropoietin (Epo) in response to hypoxia. Of approximately 1200 genes in the array, those associated with integrin-linked kinase (ILK), fibronectin precursor and glycogen synthase kinase-3beta (GSK-3beta) were markedly stimulated after exposure of Hep3B cells to low oxygen (1%) for 6 h. Epo, HIF-1, and von Hippel-Lindau cDNAs were measured in parallel as markers of low oxygen responses in Hep3B cells. ILK is a serine, threonine protein kinase that interacts with the cytoplasmic domains of integrin beta1 and beta3. This interaction localizes ILK to focal adhesion plaques. ILK is stimulated by cell-fibronectin interaction as well as insulin. It is regulated in a phosphatidylinositol 3-kinase dependent manner and can phosphorylate protein kinase B (PKB/AKT) and GSK-3beta. As a result of these and other activities ILK has been shown to affect anchorage-independent cell survival, cell cycle progression and tumorigenesis in nude mice. ILK has also been implicated in the Wnt pathway and as a critical target in PTEN-dependent tumor therapies. To our knowledge this is the first report implicating the ILK pathway in low oxygen responses. Other genes identified as a result of the microarray analysis not previously known to change as a result of low oxygen treatment were elongation factor-1alpha, glycyl-tRNA synthetase, and laminin receptor protein-1. These findings were all corroborated by RT-PCR assays and in some instances Western blot analysis.
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PMID:Gene microarray analysis reveals a novel hypoxia signal transduction pathway in human hepatocellular carcinoma cells. 1140 33

During the cell transformation processes leading to erythroleukemia, erythroid progenitors often become erythropoietin (Epo)-independent for their proliferation. The biochemical events that could lead an erythroleukemic cell to growth factor-independence were investigated using spi-1 transgenic poerythroblasts. Spi-1/PU.1 is a myeloid and B-cell transcription factor of the ETS family and is activated by insertional mutagenesis during Friend erythroleukemia. Its overexpression in proerythroblasts induces their differentiation arrest without altering their erythropoietin requirement for proliferation (HS1 cells). At a later step, genetic alterations most probably occur allowing spi-1 transgenic poerythroblasts to proliferate in the absence of erythropoietin (HS2 cells). The signaling transduction pathways in HS1 and HS2 proerythroblasts were analyzed. The authors have previously shown that the Jak/STAT pathway was not activated in Epo-independent cells, but remained sensitive to Epo stimulation. In the present study, it is shown that the Epo-independent proliferation of HS2 cells requires active phosphoinositide 3-kinase (PI3K) and mitogen-activated protein kinase (MAPK) pathways. In these cells, PI3K was constitutively associated with the molecular adapters Grb2 and Gab1, and with the phosphatases SHP-2 and SHIP. Moreover, PI3K activity was correlated with the constitutive phosphorylation of serine-threonine protein kinase (AKT) in HS2 cells. Lastly, a constitutive activation of the MAPKs extracellular signal-regulated kinases (ERK1/2) in HS2 cells was observed that occurs in a PI3K-independent manner, but depends strictly on the activity of the protein kinase C (PKC). These results suggest that constitutive activations of PI3K/AKT and PKC/MAPK pathways can act in synergy to lead a proerythroblast to proliferate without Epo.
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PMID:Alterations of the phosphoinositide 3-kinase and mitogen-activated protein kinase signaling pathways in the erythropoietin-independent Spi-1/PU.1 transgenic proerythroblasts. 1158 33

The aim of this study was to identify signal transduction pathways activated by erythropoietin (EpO) and erythropoietin co-stimulatory factors (kit ligand), insulin-like growth factor, thrombopoietin, interleukin 3 and granulocyte-macrophage colony-stimulating factor) in normal human bone marrow CD34(+) cells and d 11 erythroid burst forming unit derived glycophorin+ cells. The activation of these signal transduction pathways was further correlated with various biological effects such as (i) cell proliferation, (ii) inhibition of apoptosis, (iii) activation of adhesion and (iv) secretion of the matrix metalloproteinases (MMPs) MMP-9 and MMP-2, and vascular endothelial growth factor (VEGF). We found that in human CD34(+) cells and erythroblasts erythropoietic factors may activate similar but different signalling pathways, and that activation of each of the JAK-STAT, MAPK p42/44 or PI-3K-AKT axes alone is not sufficient either to stimulate cell proliferation or inhibit apoptosis, suggesting that these processes are regulated by orchestrated activation of multiple signalling cascades. Accordingly, we found that although cell proliferation was more related to simultaneous activation of JAK-STAT and MAPK p42/44, the effect on cell survival correlated with activation of PI-3K-AKT, MAPK p42/44 and JAK-STAT proteins. We also demonstrated that differentiating normal human erythroid cells lose their adhesive properties and secrete angiopoietic factors such as MMP-9, MMP-2 and VEGF, and we postulate that this secretion by early erythroid cells may play a role in their maturation and egress from the haematopoietic niches of the bone marrow.
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PMID:Biological significance of MAPK, AKT and JAK-STAT protein activation by various erythropoietic factors in normal human early erythroid cells. 1172 33

Tumors utilize hyperactivation of the phosphatidylinositol 3-kinase (PI3K)/AKT signaling pathway to cope with deleterious environmental conditions. Activation of the PI3K/AKT pathway has been shown to increase protein expression of the alpha subunit of the hypoxia-inducible factor (HIF) 1, a key regulator of oxygen homeostasis. Elevated levels of HIF-1 alpha induce expression of genes with critical roles in angiogenesis, erythropoiesis, and glucose metabolism, processes that are essential for tumor expansion. Here we examine the involvement of FOXO4 (also known as AFX), a member of the forkhead transcription factor superfamily that is negatively regulated by the PI3K/AKT pathway, in the regulation of HIF-1 alpha protein expression. Nuclear expression of FOXO4 results in the suppression of various responses to hypoxia, including decreased vascular endothelial growth factor, glucose transporter 1, and erythropoietin expression. Interestingly, FOXO4 down-regulates the HIF-1 alpha protein levels, consistent with the lack of hypoxia responsiveness. Previous results have revealed a role for prolyl hydroxylation and resultant von Hippel-Lindau protein (pVHL) interactions in the ubiquitin-proteasome-mediated degradation of HIF-1 alpha. However, neither inhibition of prolyl hydroxylases nor mutation of HIF-1 alpha-hydroxylated prolines involved with pVHL-mediated binding inhibits the observed FOXO4-mediated down-regulation of HIF-1 alpha. These results suggest a novel alternate mechanism for hypoxic regulation that is dependent upon the level of activation of FOXO4-mediated transcription.
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PMID:The forkhead transcription factor FOXO4 induces the down-regulation of hypoxia-inducible factor 1 alpha by a von Hippel-Lindau protein-independent mechanism. 1276 Dec 17

AKT serine threonine kinase of the protein kinase B (PKB) family plays essential roles in cell survival, growth, metabolism, and differentiation. In the erythroid system, AKT is known to be rapidly phosphorylated and activated in response to erythropoietin (Epo) engagement of Epo receptor (EpoR) and to sustain survival signals in cultured erythroid cells. Here we demonstrate that activated AKT complements EpoR signaling and supports erythroid-cell differentiation in wild-type and JAK2-deficient fetal liver cells. We show that erythroid maturation of AKT-transduced cells is not solely dependent on AKT-induced cell survival or proliferation signals, suggesting that AKT transduces also a differentiation-specific signal downstream of EpoR in erythroid cells. Down-regulation of expression of AKT kinase by RNA interference, or AKT activity by expression of dominant negative forms, inhibits significantly fetal liver-derived erythroid-cell colony formation and gene expression, demonstrating that AKT is required for Epo regulation of erythroid-cell maturation.
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PMID:AKT induces erythroid-cell maturation of JAK2-deficient fetal liver progenitor cells and is required for Epo regulation of erythroid-cell differentiation. 1625 41

The hematopoietic cytokine erythropoietin (Epo) prevents neuronal death during ischemic events in the brain and in neurodegenerative diseases, presumably through its antiapoptotic effects. To explore the role of different signaling pathways in Epo-mediated antiapoptotic effects in differentiated human neuroblastoma SH-SY5Y cells, we employed a prolactin receptor (PrlR)/erythropoietin receptor (EpoR) chimera system, in which binding of prolactin (Prl) to the extracellular domain activates EpoR signaling in the cytosol. On induction of apoptosis by staurosporine, Prl supports survival of the SH-SY5Y cells expressing the wild-type PrlR/EpoR chimera. In these cells Prl treatment strongly activates the STAT5, AKT, and MAPK signaling pathways and induces weak activation of the p65 NF-kappaB factor. Selective mutation of the eight tyrosine residues of the EpoR cytoplasmic domain results in impaired or absent activation of either STAT5 (mutation of Tyr(343)) or AKT (mutation of Tyr(479)) or both (mutation of all eight tyrosine residues). Most interestingly, Prl treatment does not prevent apoptosis in cells expressing mutant PrlR/EpoR chimeras in which either the STAT5 or the AKT signaling pathways are not activated. In contrast, ERK 1/2 is fully activated by all mutant PrlR/EpoR chimeras, comparable with the level seen with the wild-type PrlR/EpoR chimera, implying that activation of the MAPK signaling pathway per se is not sufficient for antiapoptotic activity. Therefore, the antiapoptotic effects of Epo in neuronal cells require the combinatorial activation of multiple signaling pathways, including STAT5, AKT, and potentially MAPK as well, in a manner similar to that observed in hematopoietic cells.
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PMID:Antiapoptotic effects of erythropoietin in differentiated neuroblastoma SH-SY5Y cells require activation of both the STAT5 and AKT signaling pathways. 1640 71

We investigated the significance of erythropoietin receptor (EPOR) expression following treatment with recombinant human erythropoietin (rHuEPO; epoetin alpha) and the effect of recombinant epoetins (epoetin alpha, epoetin beta, and darbepoetin alpha) alone or in combination with anticancer therapy on tumor growth in two well-established preclinical models of breast carcinoma (MDA-MB-231 and MCF-7 cell lines). Expression and localization of EPOR under hypoxic and normoxic conditions in MDA-MB-231 and MCF-7 cells were evaluated by immunoblotting, flow cytometry, and immunohistochemistry. EPOR binding was evaluated using [125I]rHuEPO. Proliferation, migration, and signaling in MDA-MB-231 and MCF-7 cells following treatment with rHuEPO were evaluated. Tumor growth was assessed following administration of recombinant epoetins alone and in combination with paclitaxel (anticancer therapy) in orthotopically implanted MDA-MB-231 and MCF-7 breast carcinoma xenograft models in athymic mice. EPOR expression was detected in both tumor cell lines. EPOR localization was found to be exclusively cytosolic and no specific [125I]rHuEPO binding was observed. There was no stimulated migration, proliferation, or activation of mitogen-activated protein kinase and AKT following rHuEPO treatment. In mice, treatment with recombinant epoetins alone and in combination with paclitaxel resulted in equivalent tumor burdens compared with vehicle-treated controls. Results from our study suggest that although EPOR expression was observed in two well-established breast carcinoma cell lines, it was localized to a cytosolic distribution and did not transduce a signaling cascade in tumors that leads to tumor growth. The addition of recombinant epoetins to paclitaxel did not affect the outcome of paclitaxel therapy in breast carcinoma xenograft models. These results show that recombinant epoetins do not evoke a physiologic response on EPOR-bearing tumor cells as assessed by numerous variables, including growth, migration, and cytotoxic challenge in preclinical in vivo tumor models.
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PMID:Recombinant epoetins do not stimulate tumor growth in erythropoietin receptor-positive breast carcinoma models. 1650 8

The hematopoietic cytokine erythropoietin (Epo) exerts cytoprotective effects on several types of neuronal cells both in vivo and in culture. Detailed molecular mechanisms underlying this phenomenon have not been elucidated and even the identity of the cytoprotective Epo receptors in neuronal cells is controversial. Here we show that Epo prevents staurosporine-induced apoptosis of differentiated human neuroblastoma SH-SY5Y cells, and activates the STAT5, AKT and MAPK signaling pathways. Differentiated SH-SY5Y cells have fewer than 50 high affinity Epo surface binding sites per cell, which could not be detected by standard assays measuring binding of 125I-labeled Epo. However, by measuring endocytosis of 125I-Epo, we could reliably quantify very small numbers of high-affinity Epo surface binding sites. Using SH-SY5Y cells stably expressing an Epo receptor (EpoR) shRNA and thus lacking detectable EpoR expression, we show that high affinity binding of Epo to these neuronal cells is mediated by the hematopoietic EpoR, and that this EpoR is also essential for the antiapoptotic activity of Epo. In contrast, a mutant Epo that has an intact binding site 1 but a non-functional binding site 2 and hence binds only to one cell surface EpoR molecule ("site 2" Epo mutant) displays significantly lower antiapoptotic activity than wild-type Epo. Furthermore, expression of the GM-CSF/IL-3/IL-5 receptor common beta chain, which was proposed to be responsible for the cytoprotective activity of Epo on certain types of neuronal cells, was undetectable in differentiated SH-SY5Y cells. Epo also alleviated staurosporine-induced apoptosis of rat PC-12 pheochromocytoma cells while the R103A "site 2" Epo mutant did not, and we could not detect expression of the common beta chain in PC-12 cells. Together our results indicate that Epo exerts its antiapoptotic effects on differentiated SH-SY5Y and PC-12 cells through the standard stoichiometry of one molecule of Epo binding to two EpoR subunits, comprising the "classical" Epo receptor signaling complex.
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PMID:A "classical" homodimeric erythropoietin receptor is essential for the antiapoptotic effects of erythropoietin on differentiated neuroblastoma SH-SY5Y and pheochromocytoma PC-12 cells. 1704 82


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