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)

Pancreatic cancer is one of the most common causes of cancer death in western civilization. The five-year survival rate is below 1% and of the 10% of patients with resectable disease only around one-fifth survives 5 years. Survival rates have not changed much during the last 20 years, demonstrating the inefficacy of current available therapies. To improve the prognosis of pancreatic cancer, there is the need to develop effective non-surgical treatment for this disease. The protein kinase casein kinase II (CK2) is a ubiquitously expressed serine-threonine kinase and its activity is enhanced in all human tumors examined so far. The contribution of CK2 to the tumor maintenance of pancreatic cancer has not been investigated. To investigate the function of CK2 in pancreatic cancer cells we used the CK2 specific inhibitors 5,6-Dichloro-1-beta-D-ribofuranosylbenzimidazole and Apigenin. Furthermore, we interfered with CK2 expression using CK2 specific siRNAs. Interfering with CK2 function led to a reduction of pancreatic cancer cell viability, which was due to caspase-dependent apoptosis. The induction of apoptosis correlated with a reduced NF-kappaB-dependent transcriptional activity. This study validates CK2 as a molecular drug target in a preclinical in vitro model of pancreatic cancer.
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PMID:Casein kinase II inhibition induces apoptosis in pancreatic cancer cells. 1767 22

Despite tremendous scientific effort, conventional treatment approaches have had little impact on the course of pancreatic ductal adenocarcinoma. Therefore, urgency is needed to understand the molecular mechanisms underlying the development of pancreatic cancer with the hope that this will lead to preventative and treatment strategies to improve the outcome of the disease. Numerous factors contribute to progression of this disease, including constitutively active NF kappa B, which has been shown to positively influence cancer cell survival, proliferation, invasion, metastasis and chemoresistance. Recently, the cytoplasmic serine/threonine protein kinase glycogen synthase kinase-3beta (GSK-3beta) was found to regulate NF kappa B activation and the proliferation and survival of pancreatic cancer cells. Moreover, recent studies in other human malignancies have implicated GSK-3beta as a regulator of cancer cell proliferation, survival and chemoresistance through distinct mechanisms. Thus, GSK-3beta has emerged as a viable therapeutic target in the treatment of several human neoplasms.
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PMID:Primers on molecular pathways. The glycogen synthase kinase-3beta. 1791 8

The poor prognosis of pancreatic cancer patients using currently available therapies mandates novel therapeutics that combine anti-neoplastic potency with toxicity-minimizing cancer specificity. Employing an overlapping pathway screen to identify genes exhibiting coordinated expression as a consequence of terminal cell differentiation and replicative senescence, we identified human polynucleotide phosphorylase (hPNPase(old-35)), a 3',5'-exoribonuclease that exhibits robust growth-suppressing effects in a wide spectrum of human cancers. A limitation to the anti-neoplastic efficacy of hPNPase(old-35) relates to its lack of cancer specificity. The promoter of Progression Elevated Gene-3 (PEG-Prom), discovered in our laboratory via subtraction hybridization in a transformation progression rodent tumor model functions selectively in a diverse array of human cancer cells, with limited activity in normal cells. An adenovirus constructed with the PEG-Prom driving expression of hPNPase(old-35) containing a C-terminal Hemaglutinin (HA)-tag (Ad.PEG.hPNPase(old-35)) was shown to induce robust transgene expression, growth suppression, apoptosis, and cell-cycle arrest in a broad panel of pancreatic cancer cells, with minimal effects in normal immortalized pancreatic cells. hPNPase(old-35) expression correlated with arrest in the G(2)/M phase of the cell cycle and up-regulation of the cyclin-dependent kinase inhibitors (CDKI) p21(CIP1/WAF-1/MDA-6) and p27(KIP1). In a nude mouse xenograft model, Ad.PEG.hPNPase(old-35) injections effectively inhibited growth of human pancreatic cancer cells in vivo. These findings support the potential efficacy of combining a cancer-specific promoter, such as the PEG-Prom, with a novel anti-neoplastic agent, such as hPNPase(old-35), to create a potent, targeted cancer therapeutic, especially for a devastating disease like pancreatic cancer.
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PMID:Progression elevated gene-3 promoter (PEG-Prom) confers cancer cell selectivity to human polynucleotide phosphorylase (hPNPase(old-35))-mediated growth suppression. 1796 May 60

MDA-MB-231 human breast cancer cells have a survival signal generated by phospholipase D (PLD) that involves the activation of mTOR and MAP kinase. TGF-beta signals that block cell cycle progression in G(1) are suppressed in MDA-MB-231 cells. We report here that the elevated PLD activity in MDA-MB-231 cells suppresses TGF-beta signaling. Suppression of PLD activity or PLD expression resulted in increased phosphorylation of Smad2 and Smad3 on Ser 465/467-sites on Smads that get phosphorylated by the TGF-beta receptor and positively regulate TGF-beta signaling. The effect of PLD suppression on Smad2/3 phosphorylation was dependent on the presence of TGF-beta. Suppression of PLD also suppressed phosphorylation of Smad2 on Ser 245/250/255-sites that are phosphorylated by MAP kinase and negatively regulate TGF-beta signaling. Suppression of PLD also led to increased expression of the cyclin-dependent kinase (CDK) inhibitors p21Cip1 and p27Kip1, the expression of which is stimulated in response to TGF-beta. Consistent with the elevated expression of CDK inhibitors, suppression of PLD also suppressed phosphorylation of the CDK substrate pRb. Similar effects were also seen in PANC-1 human pancreatic cancer cells. The data presented here indicate that the suppressed TGF-beta signaling in MDA-MB-231 and perhaps many other human cancer cells is due to elevated PLD activity and mediated by mTOR and MAP kinase. These results indicate that the survival signals generated by PLD involve the suppression TGF-beta signals that promote G(1) arrest.
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PMID:Suppression of TGF-beta signaling by phospholipase D. 1803 24

The Dock-and-Lock (DNL) method, which makes bioactive molecules with multivalency and multifunctionality, is a new approach to develop targeting molecules for improved cancer imaging and therapy. It involves the use of a pair of distinct protein domains involved in the natural association between cyclic adenosine monophosphate (cAMP)-dependent protein kinase A (PKA) and A-kinase anchoring proteins (AKAPs). The dimerization and docking domain found in the regulatory subunit of PKA and the anchoring domain (AD) of an interactive AKAP are each attached to a biologic entity, and the resulting derivatives, when combined, readily form a stably tethered complex of a defined composition that fully retains the functions of the individual constituents. The DNL method has generated several trivalent, bispecific, binding proteins, each consisting of 2 identical Fab fragments linked site-specifically to a different Fab fragment. For example, 2 identical Fabs reacting with carcinoembryonic antigen (CEA) are bound to a Fab reacting with a hapten peptide that bears a diagnostic or therapeutic radionuclide. Using a 2-step, pretargeting method that separates the bivalent anti-CEA antibody targeting of tumor from the delivery of the radioactive peptide that is captured by the second Fab of the tri-Fab construct, an improved method of cancer imaging and therapy has been developed and shows very sensitive and specific targeting of CEA-expressing tumors for either diagnostic imaging, such as with immunoSPECT and immunoPET, or radioimmunotherapy. Improved therapeutic efficacy is shown with pretargeting in a pancreatic cancer xenograft model given a tri-Fab to a pancreatic cancer MUC1 and the hapten peptide labeled with (90)Y.
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PMID:Multifunctional antibodies by the Dock-and-Lock method for improved cancer imaging and therapy by pretargeting. 1807 30

Human aquaporin 5 (AQP5) has been shown to be overexpressed in multiple cancers, such as pancreatic cancer and colon cancer. Furthermore, it has been reported that ectopic expression of AQP5 leads to many phenotypic changes characteristic of transformation. However, the biochemical mechanism leading to transformation in AQP5-overexpressing cells has not been clearly elucidated. In this report, the overexpression of AQP5 in NIH3T3 cells demonstrated a significant effect on Ras activity and, thus, cell proliferation. Furthermore, this influence was shown to be mediated by phosphorylation of the PKA consensus site of AQP5. This is the first evidence demonstrating an association between AQP5 and a signaling pathway, namely the Ras signal transduction pathway, which may be the basis of the oncogenic properties seen in AQP-overexpressing cells.
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PMID:The effect of aquaporin 5 overexpression on the Ras signaling pathway. 1815 56

Activating mutations in K-Ras occur in most pancreatic cancers. We investigated whether genetic changes (K-Ras mutations) in human pancreatic cancer cell lines altered genomic instability and epigenetic events responding to Ras-mitogen activated protein kinase (MAPK) signaling by characterizing 3 human pancreatic cancer cells lines with and without activating mutations in K-Ras. Activation of the Ras-MAPK pathway results in the stimulation of the histone H3 kinase, mitogen and stress activated kinase (MSK) 1, and increased phosphorylation of histone H3 at serine 10 (H3 S10ph). MSK1 and H3 S10ph have roles in neoplastic transformation. We demonstrate that the presence of a K-Ras mutation did not correlate with elevated chromosomal aberrations or increased genomic instability. Although the levels of the epidermal growth factor receptors and MSK were similar, the Ras-MAPK pathway was differentially induced by phorbol esters (12-O tetradecanoylphorbol-13-acetate) or epidermal growth factor, with the response of this signaling pathway being cell-type specific. This response corresponded downstream at the level of chromatin where stimuli-induced elevation of H3 S10ph typically paralleled the increase in phospho-extracellular signal regulated kinase 1/2. Our results present evidence that nonclonal chromosomal aberrations and epigenetic programming responding to stimulation of the Ras-MAPK pathway may be better markers for cancer progression than the upstream mutated oncogenes.
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PMID:Genomic instability and histone H3 phosphorylation induction by the Ras-mitogen activated protein kinase pathway in pancreatic cancer cells. 1900 7

The protein kinase checkpoint kinase 1 (Chk1) has been implicated as a key regulator of cell cycle progression and DNA repair, and inhibitors of Chk1 (e.g., UCN-01 and EXEL-9844) potentiate the cytotoxic actions of chemotherapeutic drugs in tumor cells. We have examined the ability of PD-321852, a small-molecule Chk1 inhibitor, to potentiate gemcitabine-induced clonogenic death in a panel of pancreatic cancer cell lines and evaluated the relationship between endpoints associated with Chk1 inhibition and chemosensitization. Gemcitabine chemosensitization by minimally toxic concentrations of PD-321852 ranged from minimal (<3-fold change in survival) in Panc1 cells to >30-fold in MiaPaCa2 cells. PD-321852 inhibited Chk1 in all cell lines as evidenced by stabilization of Cdc25A; in combination with gemcitabine, a synergistic loss of Chk1 protein was observed in the more sensitized cell lines. Gemcitabine chemosensitization, however, did not correlate with abrogation of the S-M or G2-M checkpoint; PD-321852 did not induce premature mitotic entry in gemcitabine-treated BxPC3 or M-Panc96 cells, which were sensitized to gemcitabine 6.2- and 4.6-fold, respectively. In the more sensitized cells lines, PD-321852 not only inhibited gemcitabine-induced Rad51 focus formation and the recovery from gemcitabine-induced replication stress, as evidenced by persistence of gamma-H2AX, but also depleted these cells of Rad51 protein. Our data suggest the inhibition of this Chk1-mediated Rad51 response to gemcitabine-induced replication stress is an important factor in determining gemcitabine chemosensitization by Chk1 inhibition in pancreatic cancer cells.
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PMID:Gemcitabine sensitization by checkpoint kinase 1 inhibition correlates with inhibition of a Rad51 DNA damage response in pancreatic cancer cells. 1913 12

Pancreatic adenocarcinoma (PCA) is an almost invariably fatal disease. Recently, it has been shown by several groups as well as ours that insulin-like growth factor-I receptor (IGF-IR) overexpression is related to higher proliferation, survival, angiogenesis, and highly invasive pancreatic tumors. Several studies have been carried out to understand the pathways that lead to growth factor-mediated signaling, but the molecular mechanism of receptor overexpression remains mostly unknown. Treatment with neutralizing antibodies or a specific kinase inhibitor against IGF-IR could block the receptor expression in PCA cells. Furthermore, we also showed that insulin receptor substrate (IRS)-2, but not IRS-1, is involved in regulation of IGF-IR expression, which is most likely not transcriptional control. By blocking mammalian target of rapamycin (mTOR) pathway with rapamycin as well as other biochemical analysis, we defined a unique regulation of IGF-IR expression mediated by protein kinase Cdelta (PKCdelta) and mTOR pathway. Moreover, we showed that the down-regulation of IGF-IR expression due to IRS-2 small interfering RNA can be compensated by overexpression of dominant-active mutant of PKCdelta, suggesting that PKCdelta is downstream of IGF-IR/IRS-2 axis. Overall, these findings suggest a novel regulatory role of IRS-2 on the expression of IGF-IR through PKCdelta and mTOR in pancreatic cancer cells.
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PMID:Insulin receptor substrate-2 mediated insulin-like growth factor-I receptor overexpression in pancreatic adenocarcinoma through protein kinase Cdelta. 1919 Mar 47

The transcriptional regulator TBX2 is genetically amplified in several cancers and has, in addition, important roles in development. In carcinogenesis, TBX2 regulates the cell cycle by suppressing the expression of cyclin-dependent kinase (CDK) inhibitors and destabilizes p53 by suppressing expression of ARF. In embryogenesis, however, TBX2 appears to act independently of the cell cycle or p53 and is regulated by growth factors. Tumorigenic functions of TBX2 that are independent of p53 or cell cycle regulation remain poorly understood. Here we used SW13 carcinoma cells which express inactive p53 and have no detectable p16 or p21 CDK-inhibitors as a model to study these functions. Expression of TBX2 in SW13 cells had no effect on the cell cycle but promoted anchorage-independence and increased resistance to apoptotic stimuli including UV-irradiation, the cytotoxic drug doxorubicin and lethal endoplasmic-reticulum stress. This is a cell type-dependent effect as TBX2 overexpression in PANC1 pancreatic cancer cells which are p53-negative has no effect on colony formation or survival after irradiation. Mechanistically, in SW13 cells, TBX2 overexpression strongly reduced the activation of caspase 3, 8 and 9 following UV-irradiation but without altering the expression of the corresponding procaspases. There were, however, dramatic and specific decreases in the expression of procaspases 1 and 4. The expression of the inhibitor of apoptosis, cIAP2/BIRC3, increased in TBX2-overexpressing cells. TBX2 was upregulated in a PI3K-dependent manner by growth factors that are tumorigenic for SW13. Inhibition of Akt phosphorylation abrogates upregulation of TBX2 by FGF-4. Our findings identify TBX2 as a cell type-dependent survival factor under a p53-negative background, and are indicative of a potentially wider role for TBX2 in carcinogenesis than hitherto described.
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PMID:Expression of TBX2 promotes anchorage-independent growth and survival in the p53-negative SW13 adrenocortical carcinoma. 1921 23

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