Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.26 (GSK)
6,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Celecoxib, a cyclooxygenase-2 (COX-2) selective nonsteroidal anti-inflammatory drug, is a new anticarcinogenic agent. Its antitumor effects depend on the one hand on its COX-2-inhibiting potency, but on the other hand on COX-2-independent mechanisms, which until now have not been fully understood. Here, we investigated whether celecoxib has an impact on the APC/beta-catenin pathway, which has been shown to play a pivotal role in the development of various cancers, especially of the colon. After only 2 h of treatment of human Caco-2 colon carcinoma cells with 100 muM celecoxib, we observed a rapid translocation of beta-catenin from its predominant membrane localization to the cytoplasm. Inhibition of the glycogen-synthase-kinase-3beta (GSK-3beta) by LiCl prevented this celecoxib-induced translocation, suggesting that phosphorylation of beta-catenin by the GSK-3beta kinase was essential for this release. Furthermore, the cytosolic accumulation was accompanied by a rapid increase of beta-catenin in the nuclei, starting already 30 min after celecoxib treatment. The DNA binding activity of beta-catenin time dependently decreased 2 h after celecoxib treatment. After this cellular reorganization, we observed a caspase- and proteasome-dependent degradation of beta-catenin after 8 h of drug incubation. Celecoxib-induced beta-catenin degradation was also observed in various other tumor cell lines (HCT-116, MCF-7, and LNCAP) but was not seen after treatment of Caco-2 cells with either the anticarcinogenic nonsteroidal anti-inflammatory drug R-flurbiprofen or the highly COX-2-selective inhibitor rofecoxib. These findings indicate that the anticarcinogenic effects of celecoxib can be explained, at least partly, by an extensive degradation of beta-catenin in human colon carcinoma cells.
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PMID:Targeting the beta-catenin/APC pathway: a novel mechanism to explain the cyclooxygenase-2-independent anticarcinogenic effects of celecoxib in human colon carcinoma cells. 1594 92

Chondroitin sulfate proteoglycans (CSPGs) and myelin-based inhibitors are the most studied inhibitory molecules in the adult central nervous system. Unlike myelin-based inhibitors, few studies have reported ways to overcome the inhibitory effect of CSPGs. Here, by using regenerating adult dorsal root ganglion (DRG) neurons, we show that chondroitin sulfate proteoglycans inhibit axon assembly by a different mechanism from myelin-based inhibitors. Furthermore, we show that neither Rho inhibition nor cAMP elevation rescues extracellular factor-induced axon assembly inhibited by CSPGs. Instead, our data suggest that CSPGs block axon assembly by interfering with integrin signaling. Surprisingly, we find that nerve growth factor (NGF) promotes robust axon growth of regenerating DRG neurons over CSPGs. We have found that, unlike naive neurons that require simultaneous activation of neurotrophin and integrin pathways for axon assembly, either neurotrophin or integrin signaling alone is sufficient to induce axon assembly of regenerating neurons. Thus, our results suggest that the ability of NGF to overcome CSPG inhibition in regenerating neurons is probably due to the ability of regenerating neurons to assemble axons using an integrin-independent pathway. Finally, our data show that the GSK-3beta-APC pathway, previously shown to mediate developing axon growth, is also necessary for axon regeneration.
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PMID:Neurotrophins support regenerative axon assembly over CSPGs by an ECM-integrin-independent mechanism. 1677 33

The NSAID activated gene (NAG-1), a member of the TGF-beta superfamily, is involved in tumor progression and development. The over-expression of NAG-1 in cancer cells results in growth arrest and increase in apoptosis, suggesting that NAG-1 has anti-tumorigenic activity. This conclusion is further supported by results of experiments with transgenic mice that ubiquitously express human NAG-1. These transgenic mice are resistant to the development of intestinal tumors following treatment with azoxymethane or by introduction of a mutant APC gene. In contrast, other data suggest a pro-tumorigenic role for NAG-1, for example, high expression of NAG-1 is frequently observed in tumors. NAG-1 may be like other members of the TGF-beta superfamily, acting as a tumor suppressor in the early stages, but acting pro-tumorigenic at the later stages of tumor progression. The expression of NAG-1 can be increased by treatment with drugs and chemicals documented to prevent tumor formation and development. Most notable is the increase in NAG-1 expression by the inhibitors of cyclooxygenases that prevent human colorectal cancer development. The regulation of NAG-1 is complex, but these agents act through either p53 or EGR-1 related pathways. In addition, an increase in NAG-1 is observed in inhibition of the AKT/GSK-3beta pathway, suggesting NAG-1 alters cell survival. Thus, NAG-1 expression is regulated by tumor suppressor pathways and appears to modulate tumor progression.
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PMID:NSAID activated gene (NAG-1), a modulator of tumorigenesis. 1712 98

Members of the Casein Kinase 1 (CK1) family are implicated in the regulation of a variety of physiological processes like development and circadian rhythm, as well as in diseases like cancer and Alzheimer's disease. From that perspective, CK1 family members are interesting targets for potential chemotherapy. We describe here a rapid and efficient method for the purification of CK1 by affinity chromatography on an immobilised fragment of axin. Axin is a scaffolding protein that interacts with a multitude of proteins, amongst them APC, GSK-3, beta-catenin, CK1alpha, delta, and epsilon, and PP2A. A GST-tagged axin peptide (residues 495-684) was produced in Escherichia coli and either immobilised on glutathione agarose beads or purified and immobilised on CNBr-activated sepharose 4B. These "GST-axin" matrices were found to selectively bind native CK1alpha and CK1epsilon from porcine brain. The affinity-purified enzymes displayed high kinase activity. This single step purification method provides a convenient tool to efficiently purify large amounts of active native CK1 for screening purposes. This single step purification method also provides a convenient tool to follow the status of the axin-binding CK1 isoforms alpha, delta, and epsilon (protein levels, composition of isoforms, kinase activity) under different physiological settings.
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PMID:Purification of CK1 by affinity chromatography on immobilised axin. 1743 49

Increased glycogen synthase kinase-3 (GSK-3) activity is believed to contribute to the etiology of chronic disorders like Alzheimer's disease and diabetes, thus supporting therapeutic potential of GSK-3 inhibitors. However, sustained GSK-3 inhibition might induce tumorigenesis through beta-catenin-APC dysregulation. Besides, sustained in vivo inhibition by genetic means (constitutive knock-out mice) revealed unexpected embryonic lethality due to massive hepatocyte apoptosis. Here, we have generated transgenic mice with conditional (tetracycline system) expression of dominant-negative-GSK-3 as an alternative genetic approach to predict the outcome of chronic GSK-3 inhibition, either per se, or in combination with mouse models of disease. By choosing a postnatal neuron-specific promoter, here we specifically address the neurological consequences. Tet/DN-GSK-3 mice showed increased neuronal apoptosis and impaired motor coordination. Interestingly, DN-GSK-3 expression shut-down restored normal GSK-3 activity and re-established normal incidence of apoptosis and motor coordination. These results reveal the importance of intact GSK-3 activity for adult neuron viability and physiology and warn of potential neurological toxicity of GSK-3 pharmacological inhibition beyond physiological levels. Interestingly, the reversibility data also suggest that unwanted side effects are likely to revert if excessive GSK-3 inhibition is halted.
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PMID:Neuronal apoptosis and reversible motor deficit in dominant-negative GSK-3 conditional transgenic mice. 1751 Jun 31

Osteopontin is a secreted phosphoprotein that has been implicated as an important mediator of tumor metastasis and has been investigated for use as a biomarker for advanced disease and as a potential therapeutic target in the regulation of cancer metastasis. The OPN DNA sequence is highly conserved and the protein contains several important functional domains including alpha(v)beta integrin and CD44 binding sites. High levels of OPN expression correlate with tumor invasion, progression or metastasis in multiple cancer. Studies demonstrate that osteopontin mediates the molecular mechanisms which determine metastatic spread, such as prevention of apoptosis, extracellular matrix proteolysis and remodeling, cell migration, evasion of host-immune cells and neovascularization. Transcriptional regulation of OPN is complex and involves multiple pathways, including AP-1, Myc, v-Src, Runx/CBF, TGF-B/BMPs/Smad/Hox, and Wnt/ss-catenin/APC/GSK-3ss/Tcf-4. The current state of knowledge of OPN biology suggests that it is an attractive target for therapeutic modulation of metastatic disease.
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PMID:Osteopontin: regulation in tumor metastasis. 1804 63

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

Securin is a chaperone protein with bifunctional properties. It binds to separase to inhibit premature sister chromatid separation until the onset of anaphase, and it also takes part in cell-cycle arrest after UV irradiation. At metaphase-to-anaphase transition, securin is targeted for proteasomal destruction by the anaphase-promoting complex or cyclosome (APC/C), allowing activation of separase. However, although securin is reported to undergo proteasome-dependent degradation after UV irradiation, the ubiquitin ligase responsible for securin ubiquitylation has not been well characterized. In this study, we show that UV radiation induced a marked reduction of securin in both the nucleus and cytoplasm. Moreover, we show that GSK-3beta inhibitors prevent securin degradation, and that CUL1 and betaTrCP are involved in this depletion. We also confirmed that SKP1-CUL1-betaTrCP (SCF(betaTrCP)) ubiquitylates securin in vivo, and identified a conserved and unconventional betaTrCP recognition motif (DDAYPE) in the securin primary amino acid sequence of humans, nonhuman primates and rodents. Furthermore, downregulation of betaTrCP caused an accumulation of securin in non-irradiated cells. We conclude that SCF(betaTrCP) is the E3 ubiquitin ligase responsible for securin degradation after UV irradiation, and that it is involved in securin turnover in nonstressed cells.
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PMID:UV-induced degradation of securin is mediated by SKP1-CUL1-beta TrCP E3 ubiquitin ligase. 1846 May 83

Utilizing the Citrobacter rodentium (CR)-induced transmissible murine colonic hyperplasia (TMCH) model, we provide mechanistic basis of changes in beta-catenin/APC/CKIepsilon leading to progression and/or regression of hyperplasia in vivo. In response to CR-induced TMCH, crypt lengths increased significantly between days 6-27 post-infection, followed by a steep decline by day 34. beta-Cat(45)/total beta-catenin were elevated on day 1 post-infection, preceding changes in crypt length, and persisted for 27 days before declining by day 34. Importantly, cellular CKIepsilon and beta-catenin co-immunoprecipitated and exhibited remarkable parallel changes in kinetics during hyperplasia/regression phases. beta-catenin, phosphorylated at Ser33,37 and Thr41 (beta-cat(33,37/41)), was low till day 12, followed by gradual increase until day 27 before declining by day 34. GSK-3beta exhibited significant Ser(9)-phosphorylation/inactivation at days 6-12 with partial recovery at days 27-34. Wild type (wt) APC (p312) levels increased at day 6 with transient proteolysis/truncation to p130 form between days 12 and 15; p312 reappeared by day 19 and returned to baseline by day 34. The kinetics of beta-Cat(45)/beta-catenin nuclear accumulation and acetylation (Ac-beta-Cat(Lys49)) from days 6 to 27, followed by loss of phosphorylation/acetylation by day 34 was almost identical; Tcf-4 co-immunoprecipitated with beta-Cat(45)/beta-catenin and localized immunohistochemically to beta-Cat(41/45)-positive regions leading to elevated cyclin D1 expression, during the hyperproliferative, but not regression phases of TMCH. CKIepsilon mediated phosphorylation of beta-Cat(45), resulting in stabilization/nuclear translocation of beta-Cat(45) may be critical for maintaining proliferation at days 6-27. Reversal of GSK-3beta phosphorylation and APC changes may be equally critical during the regression phase from days 27 to 34.
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PMID:beta-Catenin stabilization imparts crypt progenitor phenotype to hyperproliferating colonic epithelia. 1899 69

Wnt signalling pathways have extremely diverse functions in animals, including induction of cell fates or tumours, guidance of cell movements during gastrulation, and the induction of cell polarity. Wnt can induce polar changes in cellular morphology by a remodelling of the cytoskeleton. However, how activation of the Frizzled receptor induces cytoskeleton rearrangement is not well understood. We show, by an in depth 4-D microscopy analysis, that the Caenorhabditis elegans Wnt pathway signals to CED-10/Rac via two separate branches to regulate modulation of the cytoskeleton in different cellular situations. Apoptotic cell clearance and migration of the distal tip cell require the MOM-5/Fz receptor, GSK-3 kinase, and APC/APR-1, which activate the CED-2/5/12 branch of the engulfment machinery. MOM-5 (Frizzled) thus can function as an engulfment receptor in C. elegans. Our epistatic analyses also suggest that the two partially redundant signalling pathways defined earlier for engulfment may act in a single pathway in early embryos. By contrast, rearrangement of mitotic spindles requires the MOM-5/Fz receptor, GSK-3 kinase, and beta-catenins, but not the downstream factors LIT-1/NLK or POP-1/Tcf. Taken together, our results indicate that in multiple developmental processes, CED-10/Rac can link polar signals mediated by the Wnt pathway to rearrangements of the cytoskeleton.
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PMID:The Wnt pathway controls cell death engulfment, spindle orientation, and migration through CED-10/Rac. 2012 85


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