EC:2.7.11.1 - FACTA Search

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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)

The multiple neoplasia syndrome Carney complex (CNC) is caused by heterozygote mutations in the gene, which codes for the RIalpha regulatory subunit (PRKAR1A) of protein kinase A. Inactivation of PRKAR1A and the additional loss of the normal allele lead to tumors in CNC patients and increased cyclic AMP signaling in their cells, but the oncogenetic mechanisms in affected tissues remain unknown. Previous studies suggested that PRKAR1A down-regulation may lead to increased mitogen-activated protein kinase (MAPK) signaling. Here, we show that, in lymphocytes with PRKAR1A-inactivating mutations, there is increased extracellular signal-regulated kinase (ERK) 1/2 and B-raf phosphorylation and MAPK/ERK kinase 1/2 and c-Myc activation, whereas c-Raf-1 is inhibited. These changes are accompanied by increased cell cycle rates and decreased apoptosis that result in an overall net gain in proliferation and survival. In conclusion, inactivation of PRKAR1A leads to widespread changes in molecular pathways that control cell cycle and apoptosis. This is the first study to show that human cells with partially inactivated RIalpha levels have increased proliferation and survival, suggesting that loss of the normal allele in these cells is not necessary for these changes to occur.
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PMID:PRKAR1A inactivation leads to increased proliferation and decreased apoptosis in human B lymphocytes. 1707 85

The circadian timing system and the cell division cycle are frequently deregulated in cancer. The therapeutic relevance of the reciprocal interactions between both biological rhythms was investigated using Seliciclib, a cyclin-dependent kinase (CDK) inhibitor (CDKI). Mice bearing Glasgow osteosarcoma received Seliciclib (300 mg/kg/d orally) or vehicle for 5 days at Zeitgeber time (ZT) 3, 11, or 19. On day 6, tumor mRNA 24-hour expression patterns were determined for clock genes (Per2, Rev-erbalpha, and Bmal1) and clock-controlled cell cycle genes (c-Myc, Wee1, cyclin B1, and CDK1) with quantitative reverse transcription-PCR. Affinity chromatography on immobilized Seliciclib identified CDK1/CDK2 and extracellular signal-regulated kinase (ERK) 1/ERK2, CDK7/CDK9, and casein kinase CK1epsilon as Seliciclib targets, which respectively regulate cell cycle, transcription, and circadian clock in Glasgow osteosarcoma. Seliciclib reduced tumor growth by 55% following dosing at ZT3 or ZT11 and by 35% at ZT19 compared with controls (P < 0.001). Tolerability was also best at ZT3. Mean transcriptional activity of Rev-erbalpha, Per2, and Bmal1 was arrhythmic in the tumors of untreated mice. Seliciclib induced rhythmic clock gene expression patterns with physiologic phase relations only after ZT3 dosing. c-Myc and Wee1 mRNAs displayed synchronous circadian rhythms in the tumors of control mice receiving vehicle only but not in those of mice given the drug. Seliciclib further enhanced Wee1 expression irrespective of dosing time, an effect that reinforced G(2)-M gating. Seliciclib also inhibited CK1epsilon, which determines circadian period length. The coordination of clock gene expression patterns in tumor cells was associated with best antitumor activity of Seliciclib. The circadian clock and its upstream regulators represent relevant targets for CDKIs.
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PMID:Improved tumor control through circadian clock induction by Seliciclib, a cyclin-dependent kinase inhibitor. 1710 8

The protein kinase C (PKC) family of proteins plays important roles in growth regulation and is implicated in tumorigenesis. It has become clear that the role of PKC in tumorigenesis is cell context dependent and/or isoform specific. In this study, we showed for the first time by immunohistochemistry that overexpression of PKC epsilon was detected in the vast majority (>90%) of primary human non-small cell lung cancers (NSCLC) compared with normal lung epithelium. Inhibition of the PKC epsilon pathway using a kinase-inactive, dominant-negative PKC epsilon, PKC epsilon(KR), led to a significant inhibition of proliferation and anchorage-independent growth of human NSCLC cells in a p53-independent manner. This was accompanied by a specific induction of the cyclin-dependent kinase (cdk) inhibitor p21/Cip1 but not p27/Kip1. In response to serum stimulation, PKC epsilon(KR)-expressing cells showed a prolonged G(1)-S transition and delayed and reduced activation of cdk2 complexes, which was likely attributed to the increased binding of p21/Cip1 to cdk2. Furthermore, inhibition of PKC epsilon function either by expressing PKC epsilon(KR) or by small interfering RNA (siRNA)-mediated gene knockdown resulted in c-Myc down-regulation, which, in turn, regulated p21/Cip1 expression. Knockdown of PKC epsilon or c-Myc expression using siRNA led to induction of p21/Cip1 and attenuation of G(1)-S transition in NSCLC cells. Using p21(+/+) and p21(-/-) HCT116 isogenic cell lines, we further showed that growth inhibition by PKC epsilon(KR) required the function of p21/Cip1. Collectively, these results reveal an important role for PKC epsilon signaling in lung cancer and suggest that one potential mechanism by which PKC epsilon exerts its oncogenic activity is through deregulation of the cell cycle via a p21/Cip1-dependent mechanism.
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PMID:Protein kinase C epsilon is overexpressed in primary human non-small cell lung cancers and functionally required for proliferation of non-small cell lung cancer cells in a p21/Cip1-dependent manner. 1761 61

Astrocyte elevated gene-1 (AEG-1) displays oncogenic properties. Its expression is elevated in diverse neoplastic states and it cooperates with Ha-ras to promote cellular transformation. Overexpression of AEG-1 augments invasion and anchorage-independent growth of transformed cells, while AEG-1 siRNA inhibits Ha-ras-mediated colony formation, supporting a potential functional role in tumorigenesis. Additionally, oncogenic Ha-ras induces AEG-1 expression through the phosphatidylinositol 3-kinase (PI3K)-Akt signaling pathway. In the present study, we investigated whether AEG-1 could induce serum-independent cell growth, another property of oncogenes. Overexpression of AEG-1 inhibited serum starvation-induced apoptosis through activation of PI3K-Akt signaling, one of the effector pathways induced by activated Ras. AEG-1 also affected the phosphorylation state of Akt substrates that are implicated in apoptosis suppression, including glycogen synthase kinase 3beta, c-Myc, murine double minute 2, p53, p21/mda-6 and Bad. Additionally, AEG-1 blocked the activity of serum starvation-induced caspases. Taken together, these observations provide evidence that AEG-1 is an oncogene cooperating with Ha-ras as well as functioning as a downstream target gene of Ha-ras and may perform a central role in Ha-ras-mediated carcinogenesis. Activation of survival pathways may be one mechanism by which AEG-1 exerts its oncogenic properties.
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PMID:Astrocyte elevated gene-1 activates cell survival pathways through PI3K-Akt signaling. 1770 8

The GnRH receptor is a G protein-coupled receptor (GPCR), and its ligand GnRH is the central regulator of the reproductive system. GnRH receptors are known to target a wide variety of signal transduction pathways. Several recent studies have shown that activation of GPCRs can impact on beta-catenin signaling. beta-Catenin is the main effecter of the Wnt signaling pathway where it acts with the transcription factors T cell factor/lymphoid enhancer factor to mediate the transcription of Wnt target genes. We show that GnRH treatment promotes the nuclear accumulation of beta-catenin, activation of T cell factor-dependent transcription, and up-regulation of Wnt target genes, c-Jun, Fra-1, and c-Myc. These results are observed in human embryonic kidney 293/GnRH receptor-expressing cells and have been recapitulated in LbetaT2 and alphaT3-1 mouse gonadotrope cells. In addition to these findings, we show that GnRH treatment mediates the inactivation of glycogen synthase kinase-3, a protein serine/threonine kinase that regulates beta-catenin degradation within the Wnt signaling pathway. Our findings extend the number of GPCRs that can target beta-catenin signaling through diverse pathways. Furthermore, this is the first demonstration of the targeting of Wnt/beta-catenin signaling by a peptide hormone GPCR.
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PMID:Nuclear stabilization of beta-catenin and inactivation of glycogen synthase kinase-3beta by gonadotropin-releasing hormone: targeting Wnt signaling in the pituitary gonadotrope. 1771 75

The INK4 family members p16(INK4a) and p15(INK4b) negatively regulate cell cycle progression by inhibition of cyclin-dependent kinase (CDK) 4/6. Loss of p16(INK4a) functional activity is frequently observed in tumor cells, and is thought to be one of the primary causes of carcinogenesis. In contrast, despite the biochemical similarity to p16(INK4a), the frequency of defects in p15(INK4b) was found to be lower than in p16(INK4a), suggesting that p15(INK4b)-inductive agents may be useful for tumor suppression. Here we report the discovery of a novel pyrido-pyrimidine derivative, JTP-70902, which exhibits p15(INK4b)-inducing activity in p16(INK4a)-inactivated human colon cancer HT-29 cells. JTP-70902 also induced another CDK-inhibitor, p27(KIP1), and downregulated the expression of c-Myc and cyclin D1, resulting in G(1) cell cycle arrest. MEK1/2 was identified by compound-immobilized affinity chromatography as the molecular target of JTP-70902, and this was further confirmed by the inhibitory activity of JTP-70902 against MEK1/2 in kinase assays. JTP-70902 suppressed the growth of most colorectal and some other cancer cell lines in vitro, and showed antitumor activity in an HT-29 xenograft model. However, JTP-70902 did not inhibit the growth of COLO320 DM cells; in these, constitutive extracellular signal-regulated kinase phosphorylation was not detected, and neither p15(INK4b) nor p27(KIP1) induction was observed. Moreover, p15(INK4b)-deficient mouse embryonic fibroblasts were found to be more resistant to the growth-inhibitory effect of JTP-70902 than wild-type mouse embryonic fibroblasts. These findings suggest that JTP-70902 restores CDK inhibitor-mediated cell cycle control by inhibiting MEK1/2 and exerts a potent antitumor effect.
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PMID:Identification of JTP-70902, a p15(INK4b)-inductive compound, as a novel MEK1/2 inhibitor. 1778 72

Peroxynitrite-mediated damage has been linked to numerous neurological and neurodegenerative diseases, including stroke, Alzheimer's and Parkinson's Diseases, amyotrophic lateral sclerosis and multiple sclerosis. Studies on the toxic effects of peroxynitrite in neurons have focused primarily on adverse effects resulting from the nitration of cellular proteins as the principal mode of toxicity while the consequences of the modulation of kinase pathways by peroxynitrite have received relatively less attention. Our results show that treatment of primary rat neurons with the peroxynitrite donor, SIN-1, leads to decreases in glutathione (GSH) levels and cell viability via a novel extracellular-signal-related kinase (ERK)/c-Myc phosphorylation pathway and a reduction in the nuclear expression of NF-E2-related factor-2 (Nrf2) that down-regulate the expression of glutamate cysteine ligase, the rate limiting enzyme for GSH synthesis. The flavonoid fisetin protects against the SIN-1-mediated alterations in ERK/c-Myc phosphorylation, nuclear Nrf2 levels, glutamate cysteine ligase levels, GSH concentration and cell viability. We also show that inhibition of mitogen-activated protein kinase kinase or Raf kinase can increase GSH levels in unstressed primary rat neurons through the same ERK/c-Myc phosphorylation pathway. Together, these results demonstrate that distinct signaling pathways modulate GSH metabolism in unstressed and stressed cortical neurons.
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PMID:Glutathione production is regulated via distinct pathways in stressed and non-stressed cortical neurons. 1804 13

Tocotrienols have been shown to inhibit proliferation and induce apoptosis in cancer cells. However, the molecular mechanisms involved in tocotrienol-induced apoptosis are still unclear. In the present study, gamma-tocotrienol induced apoptosis in human gastric adenocarcinoma SGC-7901 cell line through down regulation of the extracellular signal-regulated kinase (ERK) signalling pathway. Furthermore, gamma-tocotrienol-induced apoptosis was accompanied by down regulation of Bcl-2, up regulation of Bax, activation of caspase-3, and subsequent poly (ADP-ribose) polymerase cleavage. These results indicated that up or down regulation of Bcl-2 family proteins play a major role in the initiation of gamma-tocotrienol-induced apoptosis as an activator of caspase-3. Gamma-tocotrienol also down regulated the activation of the Raf-ERK signalling pathway, and down regulated c-Myc by decreasing the expressions of Raf-1 and p-ERK1/2 proteins. The results suggest that key regulators in tocotrienol-induced apoptosis may be Bcl-2 families and caspase-3 in SGC-7901 cells through down regulation of the Raf-ERK signalling pathway.
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PMID:Gamma-tocotrienol-induced apoptosis in human gastric cancer SGC-7901 cells is associated with a suppression in mitogen-activated protein kinase signalling. 1808 43

Multiple myeloma (MM) is a malignancy characterized by the accumulation of tumoral plasma cells in bone marrow. This disease remains incurable and the development of new therapeutic strategies is urgently required. We have studied the effects of 2 selective estrogen receptor disrupters (SERDs), RU 58668 (RU) and ICI 182,780 (ICI) or pure antiestrogens (AEs) on MM cell lines. Both compounds have antimyeloma activity through either cell cycle arrest or induction of apoptosis. To analyze the molecular mechanisms of SERD action, we choose 2 differently responding cell lines as models. In LP-1 cells, RU blocked cell cycle at the G1 phase. RU treatment induced a rapid decrease of c-Myc, an upregulation of p27(Kip1), and the subsequent decreased activity of cyclin-dependent kinase, CDK6 and associated cyclin D3, impairing the inactivation of the retinoblastoma protein (pRb). In RPMI 8226 cells, RU induced apoptosis by recruiting endoplasmic reticulum- as well as mitochondria-associated caspases. Moreover, RU interfered with the NF-kappaB survival pathway, often deregulated in MM malignancy. Antimyeloma activities were observed in dexamethasone (Dex)- and RU-resistant cells when RU was combined with bortezomib; Dex and bortezomib being frequently used in MM therapy. RU induced the death of CD138+ cells purified from MM patients but not CD19+ normal cells obtained from tonsils. Therefore, RU mediates the inhibition of survival, the activation of apoptosis and finally potentiates anticancer drug. Those combinatory effects provide a basis for the potential use of pure AEs in MM treatment.
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PMID:Pure antiestrogen-induced G1-arrest in myeloma cells results from the reduced kinase activity of cyclin D3/CDK6 complexes whereas apoptosis is mediated by endoplasmic reticulum-dependent caspases. 1818 92

The insulinotropic hormone GLP-1 (glucagon-like peptide-1) is a new therapeutic agent that preserves or restores pancreatic beta cell mass. We report that GLP-1 and its agonist, exendin-4 (Exd4), induce Wnt signaling in pancreatic beta cells, both isolated islets, and in INS-1 cells. Basal and GLP-1 agonist-induced proliferation of beta cells requires active Wnt signaling. Cyclin D1 and c-Myc, determinants of cell proliferation, are up-regulated by Exd4. Basal endogenous Wnt signaling activity depends on Wnt frizzled receptors and the protein kinases Akt and GSK3beta but not cAMP-dependent protein kinase. In contrast, GLP-1 agonists enhance Wnt signaling via GLP-1 receptor-mediated activation of Akt and beta cell independent of GSK3beta. Inhibition of Wnt signaling by small interfering RNAs to beta-catenin or a dominant-negative TCF7L2 decreases both basal and Exd4-induced beta cell proliferation. Wnt signaling appears to mediate GLP-1-induced beta cell proliferation raising possibilities for novel treatments of diabetes.
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PMID:Glucagon-like peptide-1 activation of TCF7L2-dependent Wnt signaling enhances pancreatic beta cell proliferation. 1821 22

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