Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.26 (GSK)
 6,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In ovarian carcinoma, acquisition of invasiveness is accompanied by the loss of the epithelial features and the gain of a mesenchymal phenotype, a process known as epithelial-mesenchymal transition (EMT). The endothelin A receptor (ET(A)R)/endothelin-1 (ET-1) axis is overexpressed in primary and metastatic ovarian carcinoma. In this tumor type, the ET-1/ET(A)R axis has a critical role in ovarian carcinoma progression by inducing proliferation, survival, neoangiogenesis, loss of intercellular communication and invasion. Recently, we demonstrated that the ET-1/ET(A)R autocrine pathway drives EMT in ovarian tumor cells by inducing an invasive phenotype through downregulation of E-cadherin, increased levels of beta-catenin, Snail and other mesenchymal markers, and suppression of E-cadherin promoter activity. Activation of ET(A)R by ET-1 triggers a phosphatidylinositol 3-kinase-dependent integrin-linked kinase (ILK)-mediated signaling pathway leading to glycogen synthase kinase-3beta (GSK-3beta) inhibition, Snail and beta-catenin stabilization and transcriptional programs that control EMT. Transfection of dominant negative ILK or exposure to an ILK inhibitor suppresses the ET-1-induced phosphorylation of GSK-3beta as well as Snail and beta-catenin protein stability, transcriptional activity and invasiveness, indicating that ET-1/ET(A)R-induced EMT depends on ILK activity. ET(A)R blockade by specific antagonists, or reduction by ET(A)R RNA interference, reverses EMT and cell invasion by inhibiting autocrine signaling pathways. In ovarian carcinoma xenografts, the specific ET(A)R antagonist ABT-627 suppresses EMT determinants and tumor growth. In human ovarian cancers, ET(A)R expression is associated with E-cadherin downregulation, N-cadherin expression and tumor grade. In conclusion, our findings demonstrate that ET(A)R activation by ET-1 is a key mechanism of the complex signaling network that promotes EMT as well as ovarian cancer cell invasion. The small molecule ET(A)R antagonist achieves concomitant suppression of tumor growth and EMT effectors, providing a new opportunity for therapeutic intervention in which targeting ILK pathway and the related Snail and beta-catenin signaling cascade via ET(A)R blockade may be advantageous in the treatment of ovarian cancer.
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PMID:Epithelial-mesenchymal transition in ovarian cancer progression: a crucial role for the endothelin axis. 1758 12

Beta-catenin/TCF4/p300 signalling loops play an important role in trans-differentiation towards the morular phenotype of endometrial carcinomas. Crosstalk between NF-kappaB and beta-catenin pathways has been proposed and we focused here on associations between these two pathways during trans-differentiation. In normal endometrium, nuclear phosphorylated p65 (pp65), the active form NF-kappaB subunit, was found to be significantly increased in the secretory phase, correlating positively with vimentin and E-cadherin and inversely with Snail mRNA expression. On transfection of p65, vimentin, E-cadherin, and Snail were transcriptionally altered, indicating possible roles in establishment and maintenance of the secretory phenotype. In endometrial carcinomas with morules, levels of nuclear pp65, Snail mRNA, vimentin, and cytoplasmic TNF-alpha were reduced during trans-differentiation, correlating inversely with nuclear beta-catenin. Nuclear accumulation of GSK-3beta, along with beta-catenin, was observed in morules. In cell lines, overexpression of p65 inhibited beta-catenin/TCF4-mediated transcription, while transfection of GSK-3beta resulted in repression of TNF-alpha-induced NF-kappaB activity. Moreover, nuclear GSK-3beta was increased by overexpression of beta-catenin, as well as induction of G1-cell cycle arrest. These findings provide evidence that a shift from NF-kappaB to beta-catenin signalling pathways through alterations in GSK-3beta expression may be essential for the induction of trans-differentiation of endometrial carcinoma cells, leading to a shut-down of mesenchymal markers.
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PMID:Crosstalk between NF-kappaB/p65 and beta-catenin/TCF4/p300 signalling pathways through alterations in GSK-3beta expression during trans-differentiation of endometrial carcinoma cells. 1760 67

Decrease in E-cadherin is considered a molecular event in dysfunction of the cell-cell adhesion system, triggering invasion and metastasis in many malignancies, including those of endocrine origin. In addition, alterations in the cadherin-catenin system may also be involved in tumorigenesis. E-cadherin and beta-catenin, components of the Wnt signal transduction pathway, may serve as a common switch in central processes that regulate cellular differentiation and growth. The purpose of this study was to examine if abnormalities of the Wnt signaling pathway, specifically, E-cadherin and beta-catenin, occur in pancreatic endocrine tumors (PETs) and correlate these with clinicopathologic parameters. Tissue microarrays were constructed from 57 cases with 4 to 14 cores measuring 1.0 mm from each case. Size of tumor, presence or absences of necrosis, gross invasiveness/demarcation, lymphovascular invasion, and lymph node involvement and liver metastasis were recorded. The mitotic count, expressed per 50 high power fields (HPF) and MIB-1 index of the entire tumor were assessed. All the tissue microarray blocks were stained with commercially available antibodies to E-cadherin (cytoplasmic and extracellular domains), beta-catenin, APC, and GSK-3beta. Twenty-seven were male patients and 30 female, ranging in age from 23 to 80 years (mean, 51.7 y). Six patients had MEN1 syndrome and 1 von Hippel Lindau disease. The tumors ranged in size from 0.8 to 9.8 cm with a mean of 3.4 cm. Sixteen patients had lymph node spread and 7 had liver metastasis. The Ki-67 labeling index ranged from 1% to 30% and the mitotic counts from 0 to 27 per 50 HPF. Thirty of 57 cases (52.6%) cases showed abnormal beta-catenin expression. Thirteen of the 16 cases with lymph node metastasis and all 7 cases with liver spread showed abnormalities of beta-catenin immunostaining. Only 2 cases showed nuclear beta-catenin. The average size of tumors with beta-catenin abnormalities was 4.8 cm. Thirty-four of the 57 (59.6%) cases showed loss of normal membranous immunoreactivity for both antibodies E-cadherin, including nuclear localization in 18 cases with the antibody that recognizes the cytoplasmic domain. E-cadherin decrease and/or loss was identical to beta-catenin with the same 13 cases showing nodal involvement and all 7 cases with liver metastasis displaying aberrant E-cadherin staining. Seven of the 18 cases with nuclear E-cadherin had lymph node spread and 3 liver metastases. The mean size of the 34 cases with abnormal E-cadherin expression was 4.4 cm, compared to the series mean of 3.4 cm. Interestingly, cases with nuclear E-cadherin had a mean size of 5.2 cm. beta-catenin and E-cadherin abnormalities did not correlate with other clinicopathological parameters. All 57 cases showed cytoplasmic immunoreactivity for APC, and cytoplasmic and nuclear positivity for GSK-3beta. APC and GSK-3beta did not show any correlation with beta-catenin or E-cadherin staining. Abnormalities of beta-catenin and E-cadherin immunoexpression are seen in the majority of PETs. Nuclear beta-catenin is rare in PET but nuclear E-cadherin, a previously unrecognized staining pattern in PETs was seen 18 of 57 cases with the antibody detecting the cytoplasmic fragment of E-cadherin. Aberrant expression of both beta-catenin and E-cadherin correlated strongly with lymph node spread and liver metastases.
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PMID:Loss of membrane localization and aberrant nuclear E-cadherin expression correlates with invasion in pancreatic endocrine tumors. 1830 Aug 9

Progressive organ damage due to tissue scarring and fibrosis is a paradigm shared by numerous human diseases including chronic kidney disease. The purpose of this study was to confirm the hypothesis that collecting duct (CD) epithelial cells can undergo mesenchymal transition (EMT) in vitro. The mechanism by which CDs undergo EMT is complex and involves both early and late cellular events. Early events include rapid insulin-like growth factor (IGF)-induced Akt and GSK-3beta phosphorylation, associated with early disruption of E-cadherin-beta-catenin membrane colocalization, with translocation of E-cadherin to endosomes, with translocation of beta-catenin to the nucleus, and with an increase in Snail expression. Transforming growth factor-beta1, on the other hand, induced early activation of Smad3 and its translocation to the nucleus, Erk1/2 phosphorylation, and early disruption of membrane E-cadherin localization. The late consequences of these events included a phenotypic transformation of the cells to a mesenchymal morphology with associated increase in vimentin and alpha-smooth muscle actin protein expression and a decrease in total cellular E-cadherin expression, detectable as early as 24 h after stimulation.
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PMID:Mesenchymal transition in kidney collecting duct epithelial cells. 1832 23

Disruption of cell-to-cell contacts, as observed in many pathophysiological conditions, prime hepatocytes for compensatory hyperplastic response that involves induction of several genes, including proto-oncogenes and other gene targets of beta-catenin signaling pathway. By using cultured hepatocytes and experimental models of adherens junction disruption we have investigated changes in beta-catenin subcellular localization and their relationships with inducible nitric oxide synthase (iNOS) expression. Two experimental models were employed: (a) rat hepatocytes obtained by collagenase liver perfusion within the first 48 h of culture; (b) 48-h old cultured hepatocytes, transiently transfected or not with a plasmid encoding for dominant/negative inhibitory kappa B-alpha, exposed to ethylene glycol-bis-(2-aminoethylether)-N,N,N',N'-tetraacetic acid/LiCl treatment. beta-Catenin signaling and cellular localization, iNOS expression and nuclear factor kappaB involvement, were investigated using morphological, cell and molecular biology techniques. E-cadherin-mediated disruption of cell-to-cell contacts induces early beta-catenin translocation from membrane to cytoplasm and nuclear compartments, events that are followed by up-regulation of c-myc, cyclin D1 and beta-transducin repeat-containing protein expression. This, in turn, resulted eventually in iNOS induction that was mechanistically related to nuclear factor kappaB activation, as unequivocally shown in cells expressing dominant negative inhibitory kappa B-alpha. Our data indicate that E-cadherin disassembly and concomitant inactivation of glycogen synthase kinase-3beta result in nuclear factor kappaB-dependent induction of iNOS in hepatocytes.
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PMID:Beta-catenin triggers nuclear factor kappaB-dependent up-regulation of hepatocyte inducible nitric oxide synthase. 1834 8

The molecular pathogenesis of diabetic nephropathy (DN), the leading cause of end-stage renal disease worldwide, is complex and not fully understood. Transforming growth factor-beta (TGF-beta1) plays a critical role in many fibrotic disorders, including DN. In this study, we report protein kinase B (PKB/Akt) activation as a downstream event contributing to the pathophysiology of DN. We investigated the potential of PKB/Akt to mediate the profibrotic bioactions of TGF-beta1 in kidney. Treatment of normal rat kidney epithelial cells (NRK52E) with TGF-beta1 resulted in activation of phosphatidylinositol 3-kinase (PI3K) and PKB/Akt as evidenced by increased Ser473 phosphorylation and GSK-3beta phosphorylation. TGF-beta1 also stimulated increased Smad3 phosphorylation in these cells, a response that was insensitive to inhibition of PI3K or PKB/Akt. NRK52E cells displayed a loss of zona occludins 1 and E-cadherin and a gain in vimentin and alpha-smooth muscle actin expression, consistent with the fibrotic actions of TGF-beta1. These effects were blocked with inhibitors of PI3K and PKB/Akt. Furthermore, overexpression of PTEN, the lipid phosphatase regulator of PKB/Akt activation, inhibited TGF-beta1-induced PKB/Akt activation. Interestingly, in the Goto-Kakizaki rat model of type 2 diabetes, we also detected increased phosphorylation of PKB/Akt and its downstream target, GSK-3beta, in the tubules, relative to that in control Wistar rats. Elevated Smad3 phosphorylation was also detected in kidney extracts from Goto-Kakizaki rats with chronic diabetes. Together, these data suggest that TGF-beta1-mediated PKB/Akt activation may be important in renal fibrosis during diabetic nephropathy.
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PMID:Protein kinase B/Akt activity is involved in renal TGF-beta1-driven epithelial-mesenchymal transition in vitro and in vivo. 1849 98

Beta-catenin functions both as an adherens junction adhesion protein and as an essential mediator of the canonical Wnt signaling pathway. Wnts stabilize beta-catenin and promote its accumulation in the nucleus, where it regulates transcription of the target genes. Here we show that Smad7 promotes cell-cell adhesion by stabilizing beta-catenin and consequently increases the beta-catenin-E-cadherin complex level at the plasma membrane. A Smad7-Axin interaction disassociates GSK-3beta and beta-catenin from Axin, as well as inhibits the recruitment of Smurf2, an E3 ligase, to beta-catenin, thus protecting beta-catenin from phosphorylation and degradation. Smad7 increases the stabilized beta-catenin to form a complex with E-cadherin and stabilizes the E-cadherin-beta-catenin complex. Thereby, rather than being translocated to the nucleus for regulating the target gene transcription, Smad7-stabilized-beta-catenin is shunted to the E-cadherin complex to modulate cell-cell adhesion.
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PMID:Smad7 stabilizes beta-catenin binding to E-cadherin complex and promotes cell-cell adhesion. 1859 13

Epithelial-mesenchymal transition (EMT) and hypoxia are considered as crucial events favouring invasion and metastasis of many cancer cells. In this study, different human neoplastic cell lines of epithelial origin were exposed to hypoxic conditions in order to investigate whether hypoxia per se may trigger EMT programme as well as to mechanistically elucidate signal transduction mechanisms involved. The following human cancer cell lines were used: HepG2 (from human hepatoblastoma), PANC-1 (from pancreatic carcinoma), HT-29 (from colon carcinoma) and MCF-7 (from breast carcinoma). Cancer cells were exposed to carefully controlled hypoxic conditions and investigated for EMT changes and signal transduction by using morphological, cell and molecular biology techniques. All cancer cells responded to hypoxia within 72 h by classic EMT changes (fibroblastoid phenotype, SNAIL and beta-catenin nuclear translocation and changes in E-cadherin) and by increased migration and invasiveness. This was involving very early inhibition of glycogen synthase kinase-3beta (GSK-3beta), early SNAIL translocation as well as later and long-lasting activation of Wnt/beta-catenin-signalling machinery. Experimental manipulation, including silencing of hypoxia-inducible factor (HIF)-1alpha and the specific inhibition of mitochondrial generation of reactive oxygen species (ROS), revealed that early EMT-related events induced by hypoxia (GSK-3beta inhibition and SNAIL translocation) were dependent on transient intracellular increased generation of ROS whereas late migration and invasiveness were sustained by HIF-1alpha- and vascular endothelial growth factor (VEGF)-dependent mechanisms. These findings indicate that in cancer cells, early redox mechanisms can switch on hypoxia-dependent EMT programme whereas increased invasiveness is sustained by late and HIF-1alpha-dependent release of VEGF.
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PMID:Redox mechanisms switch on hypoxia-dependent epithelial-mesenchymal transition in cancer cells. 1879 Nov 99

Metastasis is responsible for 90% of cancer patient deaths. More information is needed about the molecular basis for its potential detection and treatment. The activated AKT kinase is necessary for many events of the metastatic pathway including escape of cells from the tumor's environment, into and then out of the circulation, activation of proliferation, blockage of apoptosis, and activation of angiogenesis. A series of steps leading to metastatic properties can be initiated upon activation of AKT by phosphorylation on Ser-473. These findings lead to the question of how this activation is connected to metastasis. Activated AKT phosphorylates GSK-3beta causing its proteolytic removal. This increases stability of the negative transcription factor SNAIL, thereby decreasing transcription of the transmembrane protein E-cadherin that forms adhesions between adjacent cells, thereby permitting their detachment. How is AKT hyperactivated in metastatic cells? Increased PI3K or TORC2 kinase activity- or decreased PHLPP phosphatase could be responsible. Furthermore, a positive feedback mechanism is that the decrease of E-cadherin lowers PTEN and thereby increases PIP3, further activating AKT and metastasis.
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PMID:Metastasis and AKT activation. 1881 26

Down-regulation of E-cadherin plays an important role in epithelial-mesenchymal transition (EMT), which is critical in normal development and disease states such as tissue fibrosis and metastasis. Snail, a key transcription repressor of E-cadherin, is a labile protein with a short half-life and is regulated through phosphorylation, ubiquitination, and degradation. Previously, we showed that GSK-3beta phosphorylated two stretches of serine residues within the nuclear export signal and the destruction box of Snail, provoking its cytoplasmic export for ubiquitin-mediated proteasome degradation. However, the mechanism of Snail dephosphorylation and the identity of the Snail-specific phosphatase remain elusive. Using a functional genomic screening, we found that the small C-terminal domain phosphatase (SCP) is a specific phosphatase for Snail. SCP interacted and co-localized with Snail in the nucleus. We also found that SCP expression induced Snail dephosphorylation and stabilization in vitro and in vivo. However, a catalytically inactive mutant of SCP had no effect on Snail. Furthermore, we found that Snail stabilization induced by SCP enhanced snail activity in the suppression of E-cadherin and increased cell migration. Thus, our findings indicate that SCP functions as a Snail phosphatase to control its phosphorylation and stabilization, and our study provides novel insights for the regulation of Snail during EMT and cancer metastasis.
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PMID:Small C-terminal domain phosphatase enhances snail activity through dephosphorylation. 1900 23


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