EC:2.7.10.2 - FACTA Search

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gastrin-releasing peptide (GRP) and its receptor (GRPR) are not normally expressed by epithelial cells lining the adult human colon. However post malignant transformation both GRP and its receptor are aberrantly expressed in the colon where we have previously shown they act to retard metastasis by enhancing tumor cell attachment to the extracellular matrix. In the present study, we show that GRP signaling via its cognate receptor when both are aberrantly expressed in human colon cancer cells causes heat shock protein 72 (Hsp72) to be expressed. We show that GRP/GRPR induces expression of Hsp72 by signaling via focal adhesion kinase. When expressed, Hsp72 promotes the binding of CD16+ and CD94+ natural killer cells, resulting in tumor cell cytolysis. These findings demonstrate the presence of a novel mechanism whereby aberrantly expressed GRP/GRPR in human colorectal cancer attenuates tumor progression and may promote a favorable outcome.
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PMID:GRP-induced up-regulation of Hsp72 promotes CD16+/94+ natural killer cell binding to colon cancer cells causing tumor cell cytolysis. 1835 Feb 54

Physical forces can activate colon cancer cell adhesion, critical for metastasis. Paxillin is phosphorylated by FAK and required for pressure-stimulated adhesion. However, whether paxillin acts as an inert scaffolding protein or whether paxillin phosphorylation is required is unknown. Transfection with paxillin point-phosphorylation mutants demonstrated that phosphorylation at tyrosines 31 and 118 together is necessary for pressure-stimulated adhesion. We further evaluated potential paxillin partners. Reducing the adaptor protein Crk or the focal adhesion protein p130Cas blocked pressure-stimulated adhesion. Furthermore, Crk and p130Cas both displayed increased co-immunoprecipitation with paxillin in response to increased pressure, except in cells transfected with a Y31Y118 paxillin mutant. Inhibiting the small GTPase Rac1 also abolished pressure-stimulated adhesion, and reducing paxillin by siRNA blocked Rac1 phosphorylation by pressure. Thus, paxillin phosphorylation at tyrosines 31 and 118 together is necessary for pressure-induced adhesion. Paxillin, Crk and Cas form a trimeric complex that activates Rac1 and mediates this effect.
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PMID:Pressure activates colon cancer cell adhesion via paxillin phosphorylation, Crk, Cas, and Rac1. 1839 56

Overexpression of active Src induces invadopodia formation and associated matrix degradation in KM12C colon cancer cells. FAK is present with active Src at sites of matrix-degrading activity (invadopodia), specifically residing in rings surrounding the cortactin-containing invadopodia cores. Since FAK is a key effector protein in many aspects of Src function, we addressed whether FAK is necessary for Src-induced invadopodia formation and matrix degradation in KM12C colon cancer cells. We found that efficient knockdown of FAK expression by siRNA had no effect on invadopodia formation or matrix degradation. However, overexpression of FAK could actually suppress invadopodia formation and matrix degradation. FAK phosphorylation on the putative auto-phosphorylation tyrosine 397 and the Src-specific sites are all required for overexpressed FAK to inhibit invadopodia formation, while the kinase activity of exogenous FAK is apparently not required. These data imply that kinase activities other than FAK auto-phosphorylation may contribute to the phosphorylation of FAK tyrosine 397 in some contexts to promote an activity of FAK that can counteract invadopodia formation. Further work is required to determine how the strength of signalling through FAK suppresses invadopodia, but we propose that FAK controls the balance of adhesion types in cells, and that this is one of the determinants of whether a cancer cell can make stable matrix-degrading invadopodia.
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PMID:Focal adhesion kinase is not required for Src-induced formation of invadopodia in KM12C colon cancer cells and can interfere with their assembly. 1856 41

Iatrogenic tumor cell implantation within surgical wounds can compromise curative cancer surgery. Adhesion of cancer cells, in particular colon cancer cells, is stimulated by exposure to increased extracellular pressure through a cytoskeleton-dependent signaling mechanism requiring FAK, Src, Akt, and paxillin. Mechanical stimuli during tumor resection may therefore negatively impact patient outcome. We hypothesized that perioperative administration of colchicine, which prevents microtubule polymerization, could disrupt pressure-stimulated tumor cell adhesion to surgical wounds and enhance tumor-free survival. Ex vivo treatment of Co26 and Co51 colon cancer cells with colchicine inhibited pressure-stimulated cell adhesion to murine surgical wounds and blocked pressure-induced FAK and Akt phosphorylation. Surgical wound contamination with pressure-activated Co26 and Co51 cells significantly reduced tumor-free survival compared with contamination with tumor cells under ambient pressure. Mice treated with pressure-activated Co26 and Co51 cells from tumors preoperatively treated with colchicine in vivo displayed reduced surgical site implantation and significantly increased tumor-free survival compared with mice exposed to pressure-activated cells from tumors not pretreated with colchicine. Our data suggest that pressure activation of malignant cells promotes tumor development and impairs tumor-free survival and that perioperative colchicine administration or similar interventions may inhibit this effect.
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PMID:Colchicine inhibits pressure-induced tumor cell implantation within surgical wounds and enhances tumor-free survival in mice. 1870 96

Leptin serum levels are about 5 times higher in obese people than in normal individuals. We aimed at investigating the signaling pathways induced by leptin in the human colonic cell lines LS174T and HM7. Both cells expressed the leptin transmembrane Ob-receptor. Leptin activated the mitogen-activated protein kinase pathway, induced invasion of colonic cells and concomitantly increased the formation of lamellipodial structures. A direct and novel dose- and time-dependent activation of RhoA, Cdc42 and Rac1 by leptin is demonstrated in these aggressive colon cancer cells. The activation of the Rho family of GTPases was amenable to specific inhibition: Wortmannin inhibited leptin-induced Rac1 and Cdc42 activation but did not affect RhoA activation, and inhibited the formation of leptin-induced lamellipodia and cell invasion. The Rac1 inhibitor NSC23766 inhibited only leptin-induced Rac1 activation and concomitantly, lamellipodium formation and cell invasion. The Src kinase inhibitor II (SrcKI-II) exerted a positive effect on RhoA activation, inhibited tyrosine phosphorylation of p190RhoGAP and inhibited leptin-induced Cdc42 activation and leptin-induced lamellopodium formation and cell invasion. The specific JAK2 inhibitor AG490 exerted a positive effect on Rac1 and Cdc42 activation by leptin and concomitantly inhibited RhoA activation. AG490 did not inhibit leptin-induced lamellopodium formation or cell invasion. Our findings clearly indicate that leptin activates PI3K and Src kinase pathways in the metastatic colon cancer cells LS174T and HM7. These signaling pathways induce the activation of Rac1 and Cdc42, lamellopodium formation and concomitantly enhanced cell invasion, but leptin activation of RhoA is not associated with enhanced cell locomotion and invasion. Understanding in-depth the pathways involved in leptin-associated enhanced cell locomotion and invasion may contribute with the design of novel therapeutics to treat obesity-associated advanced colorectal cancer.
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PMID:Leptin promotes motility and invasiveness in human colon cancer cells by activating multiple signal-transduction pathways. 1876 36

Integrin-dependent interaction of epithelial tumor cells with extracellular matrix (ECM) is critical for their migration, but also for hematogenous dissemination. Elevated expression and activity of Src family kinases (SFKs) in colon cancer cells is often required in the disease progression. In this work, we highlighted how focal adhesion kinase (FAK) and SFKs interacted and we analyzed how PI3K/Akt and MAPK/Erk1/2 signaling pathways were activated in early stages of colon cancer cell adhesion. During the first hour, integrin engagement triggered FAK-Y397 phosphorylation and a fraction of FAK was located in lipid rafts/caveolae domains where it interacted with Fyn. The FAK-Y861 and/or -Y925 phosphorylations led to a subsequently FAK translocation out of lipid domains. In parallel, a PI3K/Akt pathway dependent of lipid microdomain integrity was activated. In contrast, the MAPK/Erk1/2 signaling triggered by adhesion increased during at least 4 h and was independent of cholesterol disturbing. Thus, FAK/Fyn interaction in lipid microdomains and a Akt-1 activation occurred at the same time during early contact with ECM suggesting a specific signaling dependent of lipid rafts/caveolae domains.
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PMID:Early adhesion induces interaction of FAK and Fyn in lipid domains and activates raft-dependent Akt signaling in SW480 colon cancer cells. 1880 44

Rho/ROCK signaling and caveolin-1 (Cav1) are implicated in tumor cell migration and metastasis; however, the underlying molecular mechanisms remain poorly defined. Cav1 was found here to be an independent predictor of decreased survival in breast and rectal cancer and significantly associated with the presence of distant metastasis for colon cancer patients. Rho/ROCK signaling promotes tumor cell migration by regulating focal adhesion (FA) dynamics through tyrosine (Y14) phosphorylation of Cav1. Phosphorylated Cav1 is localized to protrusive domains of tumor cells and Cav1 tyrosine phosphorylation is dependent on Src kinase and Rho/ROCK signaling. Increased levels of phosphorylated Cav1 were associated with elevated GTP-RhoA levels in metastatic tumor cells of various tissue origins. Stable expression and knockdown studies of Cav1 in tumor cells showed that phosphorylated Cav1 expression stimulates Rho activation, stabilizes FAK association with FAs, and promotes cell migration and invasion in a ROCK-dependent and Src-dependent manner. Tyrosine-phosphorylated Cav1, therefore, functions as an effector of Rho/ROCK signaling in the regulation of FA turnover and, thereby, tumor cell migration and invasion. These studies define a feedback loop between Rho/ROCK, Src, and phosphorylated Cav1 in tumor cell protrusions, identifying a novel function for Cav1 in tumor metastasis that may contribute to the poor prognosis of some Cav1-expressing tumors.
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PMID:Phosphorylated caveolin-1 regulates Rho/ROCK-dependent focal adhesion dynamics and tumor cell migration and invasion. 1892 92

We previously found an inverse relationship between sialidase Neu1 expression and metastatic potential of murine cancer cells. To elucidate the mechanism underlying the cellular events, the human sialidase gene NEU1 was overexpressed or silenced in colon cancer HT-29 cells. When NEU1-overexpressing cells were injected transsplenically into mice, in vivo liver metastasis was significantly reduced. NEU1 suppressed cell migration, invasion and adhesion in vitro, whereas the silencing resulted in the opposite. One of the major molecular changes by NEU1 was decreased sialylation of integrin beta4, assessed by PNA- and MAL-II-lectin blotting of immunoprecipitates with anti-integrin beta4 antibody. The desialylation was accompanied by decreased phosphorylation of the integrin followed by attenuation of focal adhesion kinase and Erk1/2 pathway. Moreover, NEU1 caused downregulation of matrix metalloproteinase-7, overexpression of which is associated with cancer metastasis. Treatment of the cells with GalNAc-alpha-O-benzyl, an inhibitor of O-glycosylation, showed increased PNA-positive integrin beta4 with its decreased phosphorylation, indicating that sialic acid removal from the integrin O-glycans results in the decreased phosphorylation. Biotinylation and immunofluorescence staining exhibited some NEU1 molecules to be at the cell surface accessible to the integrin. These results suggest that NEU1 is important in regulation of integrin beta4-mediated signaling, leading to suppression of metastasis.
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PMID:Contribution of sialidase NEU1 to suppression of metastasis of human colon cancer cells through desialylation of integrin beta4. 1915 52

Hepatocyte growth factor (HGF) plays a definitive role in invasive, angiogenic, and metastatic activities of tumor cells by binding to the c-Met receptor. NK4, a competitive antagonist for HGF and the c-Met receptor, prevents tumor cell growth and metastasis via its bifunctional properties to act as an HGF antagonist and angiogenesis inhibitor. In the present study, we investigated the inhibitory effectiveness of NK4 on hematogenous pulmonary metastasis of the CT26 murine colon cancer cell line, focusing on tumor cell adhesion to endothelial cells. In an in vitro adhesion assay, HGF facilitated adhesion of CT26 cells to a murine endothelial cell line (F-2) in a dose-dependent manner. Furthermore, the enhancing effect of HGF on CT26-F-2 cell interaction was blocked by NK4 as well as by anti-HGF antibody. Similarly, HGF-induced phosphorylation of focal adhesion kinase (FAK), downstream of integrin signaling, was reduced by NK4 and by anti-HGF antibody. However, distinct integrin expression on the surface of CT26 cells was not altered by HGF. In an in vivo experimental pulmonary metastasis assay, stable NK4 expression potently decreased the number of pulmonary metastatic foci. The NK4-induced suppression of pulmonary metastasis was partially reversed when HGF was intraperitoneally administered in an adhesive phase. These results suggest that NK4 could act on tumor cells to inhibit CT26 adhesion to endothelial cells by reducing FAK phosphorylation, which is regulated by inside-out HGF/c-Met signaling, and thereby suppress hematogenous pulmonary metastasis.
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PMID:NK4, an HGF antagonist, prevents hematogenous pulmonary metastasis by inhibiting adhesion of CT26 cells to endothelial cells. 1923 48

Crosstalk between integrins is involved in the regulation of various cell functions including cell migration. Here we identify the interplay between the integrins alphavbeta5/beta6 and alpha2beta1 during cell migration toward type I collagen. Human colon cancer cell lines HT29-D4 and SW480 were used as cell models. To improve our understanding of the consequences of alphavbeta5/beta6 function on alpha2beta1, we decreased the expression of alphav integrins by either siRNA or lysosomal targeting strategies or inhibited their function using, as antagonists, blocking antibodies or disintegrins. In all cases, we observed a greatly enhanced alpha2beta1 integrin-dependent cell migration associated with focal adhesion rearrangements and increased outside-in signaling as demonstrated by elevated phosphorylation of focal adhesion kinase and MAPKinase (ERK1 and ERK2). The alphavbeta5/beta6-dependent limitation of alpha2beta1 function could be overridden by TS2/16, an activating anti-beta1 antibody. Interestingly, compared to control cells, the pharmacological inhibition of PI3Kinase or the siRNA-mediated knockdown of AKT had little effect on the high alpha2beta1-mediated cell migration observed in the absence of alphav integrins or following activation of alpha2beta1 integrins by the TS2/16. These results suggest that integrins alphavbeta5/beta6 repress alpha2beta1 possibly by interfering with their activation process and thereby modify the cell signaling regulation of alpha2beta1-mediated migration.
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PMID:alphavbeta5/beta6 integrin suppression leads to a stimulation of alpha2beta1 dependent cell migration resistant to PI3K/Akt inhibition. 1932 97

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