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 adenomatous polyposis coli (APC) tumour-suppressor protein controls the Wnt signalling pathway by forming a complex with glycogen synthase kinase 3beta (GSK-3beta), axin/conductin and betacatenin. Complex formation induces the rapid degradation of betacatenin. In colon carcinoma cells, loss of APC leads to the accumulation of betacatenin in the nucleus, where it binds to and activates the Tcf-4 transcription factor (reviewed in [1] [2]). Here, we report the identification and genomic structure of APC homologues. Mammalian APC2, which closely resembles APC in overall domain structure, was functionally analyzed and shown to contain two SAMP domains, both of which are required for binding to conductin. Like APC, APC2 regulates the formation of active betacatenin-Tcf complexes, as demonstrated using transient transcriptional activation assays in APC -/- colon carcinoma cells. Human APC2 maps to chromosome 19p13.3. APC and APC2 may therefore have comparable functions in development and cancer.
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PMID:Identification of APC2, a homologue of the adenomatous polyposis coli tumour suppressor. 1002 69

Radicicol, a macrocyclic antifungal antibiotic, has been shown to bind to the heat shock protein 90 (Hsp90) chaperone, interfering with its function. Hsp90 family chaperones have been shown to associate with several signaling molecules and play an essential role in signal transduction, which is important for tumor cell growth. Because radicicol lacks antitumor activity in vivo in experimental animal models, we examined the antitumor activity of a novel radicicol oxime derivative, radicicol 6-oxime (KF25706), on human tumor cell growth both in vitro and in vivo. KF25706 showed potent antiproliferative activities against various human tumor cell lines in vitro and inhibited v-src- and K-ras-activated signaling as well as radicicol. In addition, Hsp90 family chaperone-associated proteins, such as p185erbB2, Raf-1, cyclin-dependent kinase 4, and mutant p53, were depleted by KF25706 at a dose comparable to that required for antiproliferative activity. KF25706 was also shown to compete with geldanamycin for binding to Hsp90. KF29163, which is an inactive derivative of radicicol, was less potent both in p185erbB2 depletion and Hsp90 binding. More importantly, KF25706 showed significant growth-inhibitory activity against human breast carcinoma MX-1 cells transplanted into nude mice at a dose of 100 mg/kg twice daily for five consecutive i.v. injections. KF25706 was also shown to possess antitumor activity against human breast carcinoma MCF-7, colon carcinoma DLD-1, and vulval carcinoma A431 cell lines in vivo in an animal model. Finally, we confirmed the depletion of Hsp90-associated signaling molecules (Raf-1 and cyclin-dependent kinase 4) with ex vivo Western blotting analysis using MX-1 xenografts. In agreement with in vivo antitumor activity, KF25706 depleted Hsp90-associated molecules in vivo, whereas KF29163 and radicicol did not show this activity in vivo. Taken together, these results suggest that antitumor activity of KF25706 may be mediated, at least in part, by binding to Hsp90 family proteins and destabilization of Hsp90-associated signaling molecules.
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PMID:KF25706, a novel oxime derivative of radicicol, exhibits in vivo antitumor activity via selective depletion of Hsp90 binding signaling molecules. 1038 57

Expression of selected genes coding for proteins with defined cellular functions was analysed in human cell lines derived from normal colonic mucosa, non-mucinous colonic carcinomas and mucinous colonic carcinomas. Altered expression of 10 genes in colon carcinoma cells was found by using a cDNA array; 6 of these alterations (60%) were confirmed by Northern blotting or semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR). Among these 6 genes, 3 transcription factors as well as the topoisomerase II alpha and the mitosis inhibitor WEE1Hu gene were significantly suppressed in the tumour cell lines. In addition, the gene coding for the cell cycle inhibitor p21 was overexpressed only in cell lines derived from mucinous carcinomas. The significant suppression of the kinase WEE1Hu gene in carcinoma cells of both phenotypes and the tendency of the mucinous phenotype to overexpress p21 protein were confirmed in human colon carcinoma tissues. Our data show that the cDNA array method permits a correct identification of changes in gene expression with a relatively high accuracy. The different expression of the p21 gene in the non-mucinous and mucinous carcinoma cells supports the hypothesis that these phenotypes may develop along different genetic pathways. The detection of WEE1Hu gene suppression in colon carcinoma cells and tissues suggests its potential role in tumourigenesis.
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PMID:Differential gene expression in colon carcinoma cells and tissues detected with a cDNA array. 1044 55

Overexpression of cAMP-dependent protein kinase (PKA) type I isozyme is associated with cell proliferation and neoplastic transformation. The presence of PKA on the external surface of LS-174T human colon carcinoma cells has been shown. Here, we show that cancer cells of various cell types excrete PKA into the conditioned medium. This extracellular PKA (ECPKA) is present in active, free catalytic subunit (C subunit) form, and its activity is specifically inhibited by PKA inhibitory protein, PKI. Overexpression of the Calpha or RIalpha subunit gene of PKA in an expression vector, which up-regulates intracellular PKA type I, markedly up-regulates ECPKA expression. In contrast, overexpression of the RIIbeta subunit, which eliminates PKA type I, up-regulates PKA type II, and reverts the transformed phenotype, down-regulates ECPKA. A mutation in the Calpha gene that prevents myristylation allows the intracellular PKA up-regulation but blocks the ECPKA increase, suggesting that the NH(2)-terminal myristyl group of Calpha is required for the ECPKA expression. In serum of cancer patients, the ECPKA expression is up-regulated 10-fold as compared with normal serum. These results indicate that the ECPKA expression is an ordered cellular response of a living cell to actively exclude excess intracellular PKA molecules from the cell. This phenomenon is up-regulated in tumor cells and has an inverse relationship with the hormone dependency of breast cancer. Thus, the extracellular PKA may serve as a potential diagnostic and prognostic marker for cancer.
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PMID:Extracellular protein kinase A as a cancer biomarker: its expression by tumor cells and reversal by a myristate-lacking Calpha and RIIbeta subunit overexpression. 1063 66

Clone A colon carcinoma cells develop fan-shaped lamellae and exhibit random migration when plated on laminin, processes that depend on the ligation of the alpha6beta4 integrin. Here, we report that expression of a dominant negative RhoA (N19RhoA) in clone A cells inhibited alpha6beta4-dependent membrane ruffling, lamellae formation, and migration. In contrast, expression of a dominant negative Rac (N17Rac1) had no effect on these processes. Using the Rhotekin binding assay to assess RhoA activation, we observed that engagement of alpha6beta4 by either antibody-mediated clustering or laminin attachment resulted in a two- to threefold increase in RhoA activation, compared with cells maintained in suspension or plated on collagen. Antibody-mediated clustering of beta1 integrins, however, actually suppressed Rho A activation. The alpha6beta4-mediated interaction of clone A cells with laminin promoted the translocation of RhoA from the cytosol to membrane ruffles at the edges of lamellae and promoted its colocalization with beta1 integrins, as assessed by immunofluorescence microscopy. In addition, RhoA translocation was blocked by inhibiting phosphodiesterase activity and enhanced by inhibiting the activity of cAMP-dependent protein kinase. Together, these results establish a specific integrin-mediated pathway of RhoA activation that is regulated by cAMP and that functions in lamellae formation and migration.
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PMID:RhoA function in lamellae formation and migration is regulated by the alpha6beta4 integrin and cAMP metabolism. 1064 58

We have cloned a novel gene mirk (minibrain-related kinase) encoding a protein kinase that enables colon carcinoma cells to survive under certain stress conditions. Mirk is a mitogen-activated protein kinase substrate but is down-regulated by activated extracellular signal-regulated kinases (erks) in vivo. Mirk contains a PEST region characteristic of rapidly turned over proteins and is broken down to a Mr 57,000 form only in the nucleus. In each of three colon carcinoma cell lines, mirk levels were increased 20-fold when erk activation was blocked by the MEK inhibitor PD98059 in serum-free medium. Addition of IGF-I to activate erks blocked this increase. Mirk was stably overexpressed in two colon carcinoma cell lines to attain levels seen in colon cancers. Each of five mirk transfectants proliferated when switched to serum-free medium and regained rapid growth when serum was restored, whereas five vector control transfectants and three kinase-dead mutant mirk transfectants did not. mirk mRNA levels were elevated in several types of carcinomas, and mirk protein was detected in each of seven colon carcinoma cell lines. mirk was expressed at a higher protein level in Western blots from three of eight colon cancers compared with paired normal colon tissue, suggesting that mirk plays a role in the evolution of a subset of colon cancers. mirk is not mutated in colon carcinomas. Mirk may mediate tumor cell survival in mitogen-poor environments or early in colon cancer development before many autocrine growth factors have been induced.
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PMID:Mirk protein kinase is a mitogen-activated protein kinase substrate that mediates survival of colon cancer cells. 1091 78

The cyclic AMP-dependent protein kinase (PKA) exists in two isoforms, PKA-I (type I) and PKA-II (type II), that contain an identical catalytic (C) subunit but distinct regulatory (R) subunits, RI and RII, respectively. Increased expression of RIalpha/PKA-I has been shown in human cancer cell lines, in primary tumors, in cells after transformation, and in cells upon stimulation of growth. We have shown previously that a single-injection RI, antisense treatment results in a reduction in RIalpha and PKA-I expression and sustained inhibition of human colon carcinoma growth in athymic mice (M. Nesterova and Y. S. Cho-Chung, Nat. Med., 1: 528-533, 1995). Growth inhibition accompanied reduction in RIalpha/PKA-I expression and compensatory increases in RIIbeta protein and PKA-IIbeta, the RIIbeta-containing holoenzyme. Here, we report that these in vivo findings are consistent with observations made in cancer cells in culture. We demonstrate that the antisense depletion of RIalpha in cancer cells results in increased RIIbeta protein without increasing the rate of RIIbeta synthesis or RIIbeta mRNA levels. Pulse-chase experiments revealed a 3-6-fold increase in the half-life of RIIbeta protein in antisense-treated colon and prostate carcinoma cells with little or no change in the half-lives of RIalpha, RIIalpha, and Calpha proteins. Compensation by RIIbeta stabilization may represent a novel biochemical adaptation mechanism of the cell in response to sequence-specific loss of RIalpha expression, which leads to sustained down-regulation of PKA-I activity and inhibition of tumor growth.
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PMID:Compensatory stabilization of RIIbeta protein, cell cycle deregulation, and growth arrest in colon and prostate carcinoma cells by antisense-directed down-regulation of protein kinase A RIalpha protein. 1099 26

In this work, we used colon carcinoma cell-line HCT116 to study the involvement of the 86-kDa subunit (Ku86) of DNA-protein kinase (DNA-PK) in human tumoural cell proliferation. We transfected these cells with a 639-bp cDNA encoding a Ku86 portion inserted into pcDNA3.1 vector in the antisense orientation. After selection by neomycin, we obtained more than 300 resistant colonies. In the Y'A5 colony that we chose as total population, we showed by PCR and RT-PCR that pcDNA3/Ku86 antisense was integrated in genomic DNA and that transcript was present. After cloning, we selected two clones, A20 and A23, which contained significatively reduced level of Ku86 protein. These two clones displayed a reduced DNA-PK activity from 44% to 71% and a slower growth than control cells. These results suggest that the HCT116 cell-line is a useful tool to investigate the role of Ku86 in the regulation of human tumoural cell growth.
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PMID:Human colon carcinoma cell-line HCT116 transfected by antisense cDNA as a tool to study the Ku86 involvement in cell proliferation. 1115 60

The primary mediator of cAMP action in mammalian cells is cAMP-dependent protein kinase (PKA). There are two types of PKA, type I (PKA-I) and type II (PKA-II), which share a common catalytic subunit but contain distinct regulatory subunits, RI and RII, respectively. Evidence suggests that increased expression of RIalpha/PKA-I correlates with neoplastic cell growth. Here, we show that sequence-specific oligonucleotide inhibition of RIalpha expression results in inhibition of growth and modulation of cAMP signaling in cancer cells. The antisense promoted growth inhibition in a time-dependent, concentration-dependent, and sequence-dependent manner in human cancer cells in monolayer culture, and it inhibited colony formation in soft agar and tumor growth in nude mice. Among the cancer cells are LS-174T, HCT-15, and Colo-205 colon carcinoma cells; A-549 lung carcinoma cells; LNCaP prostate adenocarcinoma cells; Molt-4 leukemia cells; and Jurkat T lymphoma cells. Northern blot and immunoprecipitation analyses revealed that the growth inhibitory effect of the antisense correlated with a decrease in RIalpha expression at both the mRNA and protein levels. Pulse-chase experiments revealed that the antisense-directed inhibition of RIalpha expression resulted in compensatory changes in expression of the isoforms of R and C subunits and cAMP signaling in a cell type-specific manner. These results demonstrate that cAMP is ubiquitous in the regulation of cell growth and that the antisense oligonucleotide, which inhibits the synthesis of the RIalpha subunit of PKA, can be targeted to a single gene for treatment of cancer in a variety of cell types.
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PMID:Oligonucleotide sequence-specific inhibition of gene expression, tumor growth inhibition, and modulation of cAMP signaling by an RNA-DNA hybrid antisense targeted to protein kinase A RIalpha subunit. 1119 26

Beta-adrenoceptors are highly expressed on SW 480 colon carcinoma cells as was assessed by flow cytometry. We investigated the influence of norepinephrine on the migration of these cells using time-lapse videomicroscopy. Norepinephrine-treatment increased the locomotor activity within the population from 25% spontaneously locomoting cells to 65% locomoting cells. The beta1/2-blocker propranolol but not the beta1-blocker atenolol inhibited this increase. The intracellular signaling solely of norepinephrine-induced locomotion involved protein tyrosine kinase activity, whereas both spontaneous and norepinephrine-induced migration were reduced by inhibiting phospholipase Cgamma and protein kinase Calpha activity. In summary, norepinephrine-induced locomotion of SW 480 cells is beta2-adrenoceptor mediated and distinct from spontaneous locomotion concerning the PTK involvement.
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PMID:Norepinephrine-induced migration of SW 480 colon carcinoma cells is inhibited by beta-blockers. 1130 60

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