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: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Invasion of common colorectal adenocarcinomas is coupled with a transient loss of epithelial differentiation of tumor cells. Previously, we have shown that dedifferentiated tumor cells at the invasive front (IF) accumulate the transcriptional activator beta-catenin in the nucleus, in contrast to cells of the tumor center. To characterize the cells of these two morphogenic tumor areas, gene expression profiling was performed. Our study demonstrates that intratumorous heterogeneity in colorectal cancer correlates with differential expression of 510 genes between the central tumor region (TC) and the IF. Many genes differentially expressed at the IF are involved in cellular invasion processes like cell motility, cell adhesion and extracellular matrix interaction. This in vivo analysis shows overexpression of known Wnt/beta-catenin target genes either in the entire tumor tissue (compared to normal mucosa) or specifically at the IF. Thus, even though all tumor cells overexpress beta-catenin, the existence of at least 2 groups of Wnt/beta-catenin target genes selectively activated in different tumor regions is suggested. The concomitant high expression of inflammation- and tissue repair-related genes at the IF supports the hypothesis that an inflammation-activated microenvironment may trigger selective Wnt/beta-catenin target gene expression and contribute to the malignant progression of colorectal cancer.
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PMID:Heterogeneous expression of Wnt/beta-catenin target genes within colorectal cancer. 1763 41

Beta-catenin is the key transcriptional activator of the Wnt pathway important for development and tissue homeostasis of multicellular organisms. Its deregulation contributes to many human cancers. The beta-catenin transcriptional activator complex continues to be defined, but already contains several proteins with chromatin remodeling activity. Here we show that two members of histone acetyltransferase complexes without enzymatic activity, hADA2a and hADA3, are required for full activity of beta-catenin. hADA2a and hADA3 physically interact with beta-catenin, and the interaction is mediated through Armadillo repeats 6 through 12 and the C-terminal transactivation domain of beta-catenin. Both hADA2a and hADA3 reside with beta-catenin at the enhancer for the Wnt target gene c-Myc. RNA interference-mediated reduction of hADA2a and hADA3 results in reduced beta-catenin acetylation, reduced activity in reporter gene assays and reduced activation of endogenous beta-catenin target genes. Overall, loss of hADA2a and hADA3 negatively impacts beta-catenin-mediated proliferation. Our studies identify hADA2a and hADA3 as crucial cofactors of beta-catenin that are likely involved in the assembly of transactivation-competent beta-catenin complexes at Wnt target genes.
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PMID:hADA2a and hADA3 are required for acetylation, transcriptional activity and proliferative effects of beta-catenin. 1834 24

Invasion by colorectal carcinomas is characterized by an epithelial-mesenchymal transition (EMT)-like de-differentiation of the tumor cells. However a re-differentiation towards an epithelial phenotype, resembling a mesenchymal-epithelial transition (MET) is detectable in metastases. This indicates that malignant progression is based on dynamic processes, which can not be explained solely by irreversible genetic alterations, but must be additionally regulated by the tumor environment. The main oncoprotein in colorectal cancer is the Wnt-pathway effector beta-catenin, which is overexpressed due to mutations in the APC tumor suppressor in most cases. EMT of the tumor cells is associated with a nuclear accumulation of the transcriptional activator beta-catenin, which is reversed in metastases. Nuclear beta-catenin is involved in two fundamental processes in embryonic development: EMT and stem cell formation. Accumulating data demonstrate that aberrant nuclear expression of beta-catenin can confere these two abilites also to tumor cells. The unusual combination of EMT with stem cell competence might result in a migrating tumor stem cell, which drives tumor invasion and metastasis.
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PMID:Epithelial-mesenchymal and mesenchymal-epithelial transitions during cancer progression. 1831 92

We have previously reported that specific dopamine agonists mediate protection against apoptosis induced by oxidative stress by activating the D2 receptor-coupled phosphoinositide 3-kinase (PI-3K)/Akt pathway. In the present study we examined the downstream effectors of PI-3K/Akt signaling and their role in cell death after oxidative stress and protection provided by ropinirole, a D2 receptor agonist in PC12 cells and primary cultures of dopamine neurons. Ropinirole treatment was associated with rapid translocation and phosphorylation of the PI-3K substrate Akt and phosphorylation of Akt substrates. One of these Akt downstream substrates was identified as the pro-apoptotic factor glycogen synthase kinase-3beta (GSK-3beta). Ropinirole-induced protection was associated with phosphorylation of GSK-3beta (inactivation). In contrast, inhibition of PI-3K blocked the phosphorylation of Akt and GSK-3beta (activation) and prevented the protection mediated by ropinirole. Suppression of Akt with specific short hairpin RNA in normal PC12 cells caused cell death, which was associated with reduced phosphorylation of GSK-3beta and reduced levels of beta-catenin, a transcriptional activator that is regulated by GSK-3beta. Knock-out of GSK-3beta expression with a short hairpin RNA alone was itself sufficient to cause cell death. We further demonstrated that oxidative stress induced by hydrogen peroxide (H2O2) dephosphorylates Akt and GSK-3beta, increases GSK-3beta activity, and promotes an interaction with beta-catenin and its degradation. Inhibition of GSK-3beta activity by inhibitor VIII protects cells from H2O2 similar to ropinirole. These results indicate that GSK-3beta downstream of Akt plays a critical role in cell death and survival in these models.
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PMID:Differential modulation of Akt/glycogen synthase kinase-3beta pathway regulates apoptotic and cytoprotective signaling responses. 1838 57

Melanoma represents one of the most rapidly metastasizing, hence deadly tumors due to its high proliferation rate and invasiveness, characteristics of undifferentiated embryonic tissues. Given the absence of effective therapy for metastatic melanoma, understanding more fully the molecular mechanisms underlying melanocyte differentiation may provide opportunities for novel therapeutic intervention. Here we show that in mouse melanoma S91 cells activation of the peroxisome proliferator activated receptor (PPAR) gamma induces events resembling differentiation, such as growth arrest accompanied by apoptosis, spindle morphology and enhanced tyrosinase expression. These events are preceded by an initial transient increase in expression from the Microphthalmia-associated transcription factor gene, (MITF) promoter, whereas exposure to a PPAR gamma ligand- ciglitazone that exceeds 8 h, causes a gradual decrease of MITF, until by 48 h MITF expression is substantially reduced. Beta-catenin, an MITF transcriptional activator, shows a similar pattern of decline during ciglitazone treatment, consistent with previous reports that activated PPAR gamma inhibits the Wnt/beta-catenin pathway through induction of beta-catenin proteasomal degradation. We suggest that the PPAR gamma-mediated beta-catenin down-regulation is likely to be responsible for changes in MITF levels. The data suggest that PPAR gamma, besides its well-established role in mesenchymal cell differentiation towards adipocytes, might regulate differentiation in the melanocytic lineage.
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PMID:PPAR gamma regulates MITF and beta-catenin expression and promotes a differentiated phenotype in mouse melanoma S91. 1844 64

The bipartite transcription factor beta-catenin/TCF (cat/TCF) has been recognized as the major effector of the Wnt signaling pathway for more than a decade, and its over-activation has been associated with malignancy such as colon and breast cancer. Extensive examination in different cell lineages has shown that the activity of cat/TCF can be stimulated by mechanisms other than via the Wnt glycoproteins, including the stimulation of beta-cat nuclear translocation and enhanced binding of cat/TCF to the Wnt target gene promoters by insulin and insulin-like growth factor-1 (IGF-1). In addition, the heterotrimeric G proteins of the G(12) subfamily can interact with the cytoplasmic domain of cadherins, resulting in the release of the transcriptional activator beta-cat. Furthermore, certain peptide hormones may stimulate cat/TCF-mediated gene transcription via activation of their corresponding G-protein coupled receptors. Recently, the serine/threonine kinase GSK-3 has been recognized to coordinate with AMP activated protein kinase (AMPK) in phosphorylation and activation of TSC2, the major component of the tumor suppressor complex TSC1/2. Thus, Wnt activation can stimulate protein translation via GSK-3 and TSC1/2 inactivation, followed by mTOR activation. Finally, beta-cat also functions as a pivotal molecule in defense against oxidative stress via serving as a partner of forkhead box O (FOXO) transcription factors. Thus, FOXO proteins, which mainly mediate aging and stress signaling, and TCF factors, which mainly mediate developmental and proliferation signaling, compete for a limited pool of free beta-cat. Insulin and growth factors, on the other hand, control the balance between TCF- and FOXO-mediated gene transcription via phosphorylation and nuclear exclusion of FOXO proteins. These observations provide new insight to understand how Wnt, insulin/growth factors, and FOXOs are involved in versatile physiological events and the development and progression of various human diseases.
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PMID:Wnt and beyond Wnt: multiple mechanisms control the transcriptional property of beta-catenin. 1855 64

Secreted proteins in the Wnt family regulate gene expression in target cells by causing the accumulation of the transcriptional activator beta-catenin. In the absence of Wnt, a protein complex assembled around the scaffold protein Axin targets beta-catenin for destruction, thereby preventing it from transducing inappropriate signals. Loss of Axin or its binding partners APC and GSK3 results in aberrant activation of the Wnt signaling response. We have analyzed the effects of mutant forms of Drosophila Axin with large internal deletions when expressed at physiological levels in vivo, either in the presence or absence of wild type Axin. Surprisingly, even deletions that completely remove the binding sites for fly APC, GSK3 or beta-catenin, though they fail to rescue to viability, these mutant forms of Axin cause only mild developmental defects, indicating largely retained Axin function. Furthermore, two lethal Axin deletion constructs, AxinDeltaRGS and AxinDeltabeta cat(DeltaArm), can complement each other and restore viability. Our findings support a model in which the Axin complex is assembled through cooperative tripartite interactions among the binding partners, making the assembly of functional complexes surprisingly robust.
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PMID:Unexpectedly robust assembly of the Axin destruction complex regulates Wnt/Wg signaling in Drosophila as revealed by analysis in vivo. 1856 9

Loss of alpha-catenin is one of the characteristics of prostate cancer. The catenins (alpha and beta) associated with E-cadherin play a critical role in the regulation of cell-cell adhesion. Tyrosine phosphorylation of beta-catenin dissociates it from E-cadherin and facilitates its entry into the nucleus, where beta-catenin acts as a transcriptional activator inducing genes involved in cell proliferation. Thus, beta-catenin regulates cell-cell adhesion and cell proliferation. Mechanisms controlling the balance between these functions of beta-catenin invariably are altered in cancer. Although a wealth of information is available about beta-catenin deregulation during oncogenesis, much less is known about how or whether alpha-catenin regulates beta-catenin functions. In this study, we show that alpha-catenin acts as a switch regulating the cell-cell adhesion and proliferation functions of beta-catenin. In alpha-catenin-null prostate cancer cells, reexpression of alpha-catenin increased cell-cell adhesion and decreased beta-catenin transcriptional activity, cyclin D1 levels, and cell proliferation. Further, Src-mediated tyrosine phosphorylation of beta-catenin is a major mechanism for decreased beta-catenin interaction with E-cadherin in alpha-catenin-null cells. alpha-Catenin attenuated the effect of Src phosphorylation by increasing beta-catenin association with E-cadherin. We also show that alpha-catenin increases the sensitivity of prostate cancer cells to a Src inhibitor in suppressing cell proliferation. This study reveals for the first time that alpha-catenin is a key regulator of beta-catenin transcriptional activity and that the status of alpha-catenin expression in tumor tissues might have prognostic value for Src targeted therapy.
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PMID:alpha-Catenin overrides Src-dependent activation of beta-catenin oncogenic signaling. 1856 11

Recent studies implicate Wnt/beta-catenin signaling in lens differentiation (Stump, R. J., et al., 2003. A role for Wnt/beta-catenin signaling in lens epithelial differentiation. Dev Biol;259:48-61). Beta-catenin is a component of adherens junctions and functions as a transcriptional activator in canonical Wnt signaling. We investigated the effects of Cre/LoxP-mediated deletion of beta-catenin during lens development using two Cre lines that specifically deleted beta-catenin in whole lens or only in differentiated fibers, from E13.5. We found that beta-catenin was required in lens epithelium and during early fiber differentiation but appeared to be redundant in differentiated fiber cells. Complete loss of beta-catenin resulted in an abnormal and deficient epithelial layer with loss of E-cadherin and Pax6 expression as well as abnormal expression of c-Maf and p57(kip2) but not Prox1. There was also disrupted fiber cell differentiation, characterized by poor cell elongation, decreased beta-crystallin expression, epithelial cell cycle arrest at G(1)-S transition and premature cell cycle exit. Despite cell cycle arrest there was no induction of apoptosis. Mutant fiber cells displayed altered apical-basal polarity as evidenced by altered distribution of the tight junction protein, ZO1, disruption of apical actin filaments and abnormal deposition of extracellular matrix, resulting in a deficient lens capsule. Loss of beta-catenin also affected the formation of adhesion junctions as evidenced by dissociation of N-cadherin and F-actin localization in differentiating fiber cells. However, loss of beta-catenin from terminally differentiating fibers had no apparent effects on adhesion junctions between adjacent embryonic fibers. These data indicate that beta-catenin plays distinct functions during lens fiber differentiation and is involved in both Wnt signaling and adhesion-related mechanisms that regulate lens epithelium and early fiber differentiation.
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PMID:Differential requirement for beta-catenin in epithelial and fiber cells during lens development. 1865 17

In mammals, Sry is the master regulator of male sex determination, although how it functions is still unclear. By contrast, female sex determination depends on the action of Rspo1 and Wnt4, the regulators of Wnt/beta-catenin signaling. To seek a possible interaction between male and female sex determination mechanisms, we examined whether Sry affects Wnt/beta-catenin signaling. Using the TOPFLASH reporter system to measure Lef/Tcf-dependent transcriptional activity, we showed that ectopic expression of mouse Sry strongly suppressed Wnt/beta-catenin signaling in mouse embryonal carcinoma and human embryonic kidney cell lines. This inhibition occurred downstream of beta-catenin but upstream of Lef/Tcf, and depended on both the HMG-box and the C-terminal transcriptional activation domain. By contrast, TOPFLASH was not inhibited by human SRY, which apparently lacks a transcriptional activation domain. However, a fusion construct consisting of human SRY attached to the C-terminal domain of mouse Sry was able to inhibit TOPFLASH effectively. Furthermore, Sry constructs carrying point mutations equivalent to those in human sex reversal mutations were less effective in inhibiting Wnt/beta-catenin signaling. Also, we showed that the action of Sry as a transcriptional activator was both necessary and sufficient to inhibit Wnt/beta-catenin signaling, suggesting that the transcriptional targets of Sry are responsible for the inhibition of signaling. Sox9 is a potential transcriptional target of Sry, although quantitative RT-PCR analysis indicates that the expression of Sox9 was not up-regulated by the ectopic expression of mouse Sry in mouse embryonal carcinoma cells. While the present study demonstrates an impact of mouse Sry on Wnt/beta-catenin signaling at an in vitro level, it requires further investigations to assess whether such action also takes place in vivo to regulate male sex determination.
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PMID:Ectopic expression of mouse Sry interferes with Wnt/beta-catenin signaling in mouse embryonal carcinoma cell lines. 1867 18


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