EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pathological angiogenesis in the retina and underlying choroid is a major cause of visual impairment in all age groups. The last decade has seen an explosion in the clinical availability of antiangiogenic compounds. Emphasis has been placed on inhibitors of the VEGF signaling pathway and considerable success has been achieved with aptamers and antibodies that bind VEGF. However, regression of neovascularization is rarely permanent and the regrowth of new vessels, often within a few months, requires multiple applications of drug. A number of antiangiogenic factors such as IGFBP3, SDF-1 blockers, PEDF, gamma-secretase, Delta-like ligand 4, and integrin antagonists have been identified, which act either indirectly on the VEGF system or independent of it. The importance of other candidates such as HIF-1alpha and protein kinase CK2, which act as "master" regulators of angiogenesis, offer realistic alternative targets for pharmacological intervention. The concept of combination therapy is rapidly gaining interest in the eye field and co-administration of two angiogenic agents (e.g., a CK2 inhibitor with a somatostatin analog, octreotide) are often significantly more effective at inhibiting retinal angiogenesis than either drug alone. The following review will discuss the current therapies available for aberrant ocular angiogenesis, consider new candidate targets for development of antiangiogenic compounds and emphasize the importance of combinatorial pharmacological agents in the treatment of such a dynamic cellular event as angiogenesis.
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PMID:Retinal and choroidal microangiopathies: therapeutic opportunities. 1758 51

Heat shock protein 90 (Hsp90) is a molecular chaperone whose association is required for the stability and function of multiple mutated, chimeric and over-expressed signaling proteins that promote the growth and/or survival of cancer cells. Hsp90 client proteins include mutated p53, Bcr-Abl, Raf-1, Akt, HER2/Neu (ErbB2) and HIF-1alpha. Hsp90 inhibitors, by interacting specifically with a single molecular target, cause the destabilization and eventual degradation of Hsp90 client proteins, and the first-in-class Hsp90 inhibitor, 17-allylamino-17 demethoxygeldanamycin (17AAG), is currently in phase II clinical trials. A fraction of Hsp90 has been identified at the cell surface and its presence has recently been shown to correlate with melanoma progression. Inhibition of cell-surface Hsp90 with antibodies or cell-impermeable Hsp90 inhibitors blocks cell motility and invasion in vitro and cancer metastasis in vivo. Thus, cell-surface Hsp90 may play a unique role in tumor metastasis, distinct from but perhaps overlapping with its intracellular function. In addition, because cell-surface Hsp90 may be the point of contact between some viruses and host cells, this pool of the chaperone may play a distinct role in initiation of infectious disease.
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PMID:Extracellular heat shock protein 90: a role for a molecular chaperone in cell motility and cancer metastasis. 1764 79

Vascularized tumors are exposed to intermittent hypoxia, that is, hypoxia followed by periods of reoxygenation. Abnormal structure and dysfunction of tumor blood vessels are responsible for these conditions. These repeated short periods of hypoxia concern tumor cells as well as endothelial cells. However, the effects of intermittent hypoxia are poorly understood. The aim of this study was to investigate the effects of intermittent hypoxia on endothelial cells and particularly on HIF-1alpha, a central actor in adaptive response to hypoxia. For that, endothelial cells were exposed to four repeated cycles of 1-h hypoxia followed by 30 min of reoxygenation. We showed that repeated cycles of hypoxia/reoxygenation induced a modification in HIF-l alpha phosphorylation pattern: a progressive increase in HIF-1alpha phosphorylated form was observed during the hypoxic periods. Activation of p42/p44, Akt and PKA was observed in parallel. PKA was shown to be involved in the phosphorylation of HIF-lalpha under intermittent hypoxia, while p42/p44 and Akt were not. As HIF-1 activity is often associated with enhanced cell survival, a better knowledge of the effects of intermittent hypoxia on endothelial cells and the highlight of particular mechanisms induced by intermittent hypoxia are essential to understand the behavior of endothelial cells during neo-angiogenesis.
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PMID:Intermittent hypoxia changes HIF-1alpha phosphorylation pattern in endothelial cells: unravelling of a new PKA-dependent regulation of HIF-1alpha. 1766 81

Hypoxia-inducible factor (HIF-1) plays a central role in the cellular adaptive response to hypoxic conditions, which are closely related to pathophysiological conditions, such as cancer. Although reactive oxygen species (ROS) have been implicated in the regulation of hypoxic and non-hypoxic induction of HIF-1 under various conditions, the role of ROS is quite controversial, and the mechanism underlying the HIF-1 regulation by ROS is not completely understood yet. Here, we investigated the biochemical mechanism for the ROS-induced HIF-1 by revealing a novel role of adenosine monophosphate-activated protein kinase (AMPK) and the upstream signal components. AMPK plays an essential role as energy-sensor under adenosine triphosphate-deprived conditions. Here we report that ROS induced by a direct application of H(2)O(2) and menadione to DU145 human prostate carcinoma resulted in accumulation of HIF-1alpha protein by attenuation of its degradation and activation of its transcriptional activity in an AMPK-dependent manner. By way of contrast, AMPK was required only for the transcriptional activity of HIF-1 under hypoxic condition, revealing a differential role of AMPK in these two stimuli. Furthermore, our data show that inhibition of AMPK enhances HIF-1alpha ubiquitination under ROS condition. Finally, we show that the regulation of HIF-1 by AMPK in response to ROS is under the control of c-Jun N-terminal kinase and Janus kinase 2 pathways. Collectively, our findings identify AMPK as a key determinant of HIF-1 functions in response to ROS and its possible role in the sophisticated HIF-1 regulatory mechanisms.
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PMID:Reactive oxygen species stabilize hypoxia-inducible factor-1 alpha protein and stimulate transcriptional activity via AMP-activated protein kinase in DU145 human prostate cancer cells. 1825 5

Hypoxia induces oxidative damage in skeletal muscle. Uncoupling protein 3 (UCP3) is the skeletal muscle enriched uncoupling protein and has previously been shown to confer resistance against oxidative stress. We show that hypoxia robustly up-regulates skeletal muscle UCP3 and that the absence of UCP3 in primary skeletal myocytes exacerbates hypoxia-induced reactive oxygen species generation. In this context, we reasoned that the investigation of the regulation of UCP3 may identify novel hypoxia-responsive regulatory pathways that modulate intrinsic anti-oxidant defenses. By screening a transcription factor array of 704 full-length cDNAs in murine C2C12 myoblasts following cotransfection of a murine UCP3 promoter-luciferase construct and myoD we identified numerous candidate regulatory factors that up-regulate UCP3. Active transcription factor-1 (ATF-1) was identified, and as this transcription factor is a known component of a multiprotein hypoxia-induced regulatory complex, we explored its role in hypoxia-mediated UCP3 up-regulation. Site-directed mutagenesis and chromatin immunoprecipitation assays identify a 10-bp region required for ATF-1 induction of UCP3 promoter activity. Hypoxia promotes the phosphorylation of ATF-1, and the knockdown of ATF-1 by shRNA prevents hypoxia-mediated up-regulation of UCP3. Pharmacologic inhibition of p38 MAP kinase prevents both hypoxia-mediated ATF-1 phosphorylation and UCP3 up-regulation. PKA signaling does not modulate hypoxia-induced UCP3 up-regulation and neither does HIF-1alpha activation by cobalt chloride. In conclusion, ATF-1, via p38 MAP kinase activation, functions as a novel regulatory pathway driving UCP3 expression. These data reinforce the role of ATF-1 as a hypoxia-responsive trans-activator and identifies a novel regulatory program that may modulate cellular responses to oxygen-deficit.
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PMID:ATF-1 is a hypoxia-responsive transcriptional activator of skeletal muscle mitochondrial-uncoupling protein 3. 1857 31

The interaction of thrombopoietin (TPO) with its receptor c-Mpl initiates intracellular signals that are critical for megakaryopoiesis. Previously we and others have shown that TPO activates PI3K and Akt and that this pathway is important for megakaryocyte growth. Here, we investigate the importance of the Akt substrate glycogen synthase kinase (GSK)-3beta in TPO signaling. GSK-3beta is phosphorylated and inhibited by Akt as part of the PI3K pathway. GSK-3beta can also be inhibited by Wnt signaling through a distinct mechanism, leading to reduced phosphorylation and accumulation of the transcription factor beta-catenin. Therefore, we asked if TPO and Wnt3a can both inhibit GSK-3beta in megakaryocytic cells, and if they can act synergistically to promote cell growth. Although both TPO and specific chemical inhibitors of GSK-3beta result in increased survival and proliferation in a megakaryocytic cell line model, treatment with Wnt3a failed to increase cell growth either in the absence or presence of TPO, despite inducing high levels of beta-catenin. Similarly, expression of a constitutively active version of beta-catenin did not increase cell growth either in the absence or presence of TPO, suggesting that the effects of GSK-3beta inhibition downstream of TPO signaling are distinct from those induced by Wnt3a and independent of beta-catenin. The growth promoting effects of TPO are not mediated by either of the two known GSK-3beta targets, cyclin D or HIF-1alpha. We conclude that GSK-3beta is phosphorylated and inhibited by TPO-induced Akt, promoting survival and proliferation in megakaryocytic cells through a pathway that does not involve beta-catenin.
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PMID:Inhibition of GSK-3beta promotes survival and proliferation of megakaryocytic cells through a beta-catenin-independent pathway. 1880 63

Hypoxic preconditioning may afford protection against subsequent lethal hypoxia. As hypoxic tolerance induces changes in the expression of genes involved in DNA damage and repair response pathways, we investigated whether DNA-dependent protein kinase (DNA-PK), one of the DNA double-strand break repair proteins, could be involved in hypoxic preconditioning-induced protective signaling cascades. We showed that induction of hypoxia-inducible factor-1alpha expression during hypoxic preconditioning by repeated hypoxic exposure was associated with increased mRNA and protein levels of DNA-PK catalytic subunit (DNA-PKcs) and Ku70/Ku80, the DNA-PK components, in human hepatoma HepG2 cells, followed by upregulation of Hsp70/Hsp90 and Bcl-2 and concurrent downregulation of Bax. Additionally, loss of DNA-PKcs led to attenuated expression of Hsp70/Hsp90, accelerated hypoxia-inducible factor-1alpha degradation, and increased susceptibility to hypoxia-induced cell death. We also found that the mRNA and protein levels of heat shock factor-1 (HSF1) were progressively increased with DNA-PK activation during hypoxic preconditioning, and inhibition of HSF1 function by KNK437 resulted in a significant decrease in the level of protein kinase Akt as well as of DNA-PKcs, with downregulation of Hsp70/Hsp90 and HIF-1alpha. Our results suggest the possibility that DNA-PK-mediated signaling pathway is required for the increase in HIF-1alpha expression through activation of HSF1 and subsequent upregulation of heat shock proteins after hypoxic reconditioning.
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PMID:DNA-dependent protein kinase is involved in heat shock protein-mediated accumulation of hypoxia-inducible factor-1alpha in hypoxic preconditioned HepG2 cells. 1902 71

Tumor angiogenesis plays an important role in the malignancy of solid tumors. A number of recent studies including our own have suggested that Raf-1 is involved in this process, and may be critical in regulating gene activation of several angiogenesis factors. RNA interference (RNAi) provides a powerful method for gene silencing in eukaryotic cells, including proliferating mammalian cells. To further define Raf-1 function in angiogenesis and to explore novel approaches to modulate angiogenesis, we employed the small interference RNA technique to knockdown gene expression of Raf-1 in gastric cancer cells and observed the effect of silencing Raf-1 on gastric cancer tumorigenesis and angiogenesis in vitro and in nude mice. We found that the expression of double stranded RNA leads to the efficient and specific inhibition of endogenous Raf-1 protein expression in gastric cancer cell lines as determined by Western blotting. Raf-1 protein is a potential target for gastric cancer biological therapy. Inhibition of Raf-1 with siRNA technique could inhibit growth of the tumor graft and reduce angiogenesis in nude mice, which probably caused by downregulation of pro-angiogenesis molecules, such as VEGF and HIF-1alpha.Taken together, our findings indicate that specific Raf-1 targeting may have important therapeutic values for cancer therapy, and that individual Raf-1 may be a useful target in developing angiogenic inhibitors.
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PMID:RNAi-mediated inhibition of Raf-1 leads to decreased angiogenesis and tumor growth in gastric cancer. 1983 83

HIPK2 has been implicated in restraining tumor progression by more than one mechanism, involving both its catalytic and transcriptional co-repressor functions. Starting from the finding that HIPK2 knockdown by RNA-interference (HIPK2i) induced significant up-regulation of HIF-1alpha mRNA and of its target VEGF in tumor cells, we evaluated the role of HIPK2 in transcriptional regulation of HIF-1alpha. We found that HIPK2 overexpression downmodulated both HIF-1alpha reporter activity and mRNA levels and showed that HIPK2 was bound in vivo to the HIF-1alpha promoter likely in a multiprotein co-repressor complex with histone deacetylase 1 (HDAC1). Thus, the HIF-1alpha promoter was strongly acetylated following HIPK2 knockdown. The HIF-1alpha-dependent VEGF transcription was evaluated by co-transfection of a dominant negative (DN) construct of HIF-1alpha that inhibited VEGF reporter activity induced by HIPK2 knockdown. HIF-1alpha and VEGF up-regulation in HIPK2i cells correlated with increased vascularity of tumor xenografts in vivo and tube formation in HUVEC in vitro. These findings provide the first evidence of HIPK2-mediated transcriptional regulation of HIF-1alpha that might play a critical role in VEGF expression.
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PMID:Transcriptional regulation of hypoxia-inducible factor 1alpha by HIPK2 suggests a novel mechanism to restrain tumor growth. 1904 97

Resveratrol, a polyphenol derived from red grapes, berries, and peanuts, has been shown to mediate death of a wide variety of cells. The mechanisms by which resveratrol mediates cell death include necrosis, apoptosis, autophagy, and others. While most studies suggest that resveratrol kills tumor cells selectively, evidence is emerging that certain normal cells such as endothelial cells, lymphocytes, and chondrocytes are vulnerable to resveratrol. Cell killing by this stilbene may be mediated through any of numerous mechanisms that involve activation of mitochondria and of death caspases; upregulation of cyclin-dependent kinase inhibitors, tumor suppressor gene products, or death-inducing cytokines and cytokine receptors; or downregulation of cell survival proteins (survivin, cFLIP, cIAPs, X-linked inhibitor of apoptosis protein (XIAP), bcl-2, bcl-XL) or inhibition of cell survival kinases (e.g., mitogen-activiated protein kinases (MAPKs), AKT/phosphoinositide 3-kinase (PI3K), PKC, EGFR kinase) and survival transcription factors (nuclear factor-kappaB (NF-kappaB), activating protein 1 (AP-1), HIF-1alpha, signal transducer and activator of transcription (STAT3)). Induction of any of these pathways by resveratrol leads to cell death. While cell death is a hallmark of resveratrol, this polyphenol also has been linked with suppression of inflammation, arthritis, and cardiovascular diseases and delaying of aging. These attributes of resveratrol are discussed in detail in this review.
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PMID:Resveratrol addiction: to die or not to die. 1907 42

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