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:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Spermatogenesis in the seminiferous epithelium of the mammalian testis is a dynamic cellular event. It involves extensive restructuring at the Sertoli-germ cell interface, permitting germ cells to traverse the epithelium from basal to adluminal compartment. As such, Sertoli-germ cell actin-based adherens junctions (AJ), such as ectoplasmic specializations (ES), must disassemble and reassemble to facilitate this event. Recent studies have shown that AJ dynamics are regulated by intricate interactions between AJ integral membrane proteins (e.g., cadherins, alpha6beta1 integrins and nectins), phosphatases, kinases, adaptors, and the underlying cytoskeleton network. For instance, the myotubularin (MTM) phosphoinositide (PI) phosphatases, such as MTM related protein 2 (MTMR2), can form a functional complex with c-Src (a non-receptor protein tyrosine kinase). In turn, this phosphatase/kinase complex associates with beta-catenin, a constituent of the N-cadherin/beta-catenin functional unit at the AJ site. This MTMR2-c-Src-beta-catenin complex apparently regulates the phosphorylation status of beta-catenin, which determines cell adhesive function conferred by the cadherin-catenin protein complex in the seminiferous epithelium. In this review, we discuss the current status of research on selected phosphatases and kinases, and how these proteins potentially interact with adaptors at AJ in the seminiferous epithelium to regulate cell adhesion in the testis. Specific research areas that are open for further investigation are also highlighted.
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PMID:Myotubularin phosphoinositide phosphatases, protein phosphatases, and kinases: their roles in junction dynamics and spermatogenesis. 1569 Mar 93

Peroxisome proliferator-activated receptor gamma (PPARgamma) is a nuclear receptor regulating an array of diverse functions in a variety of cell types including regulation of genes associated with growth and differentiation. Its most notable function is to regulate development of adipose tissue, which involves coordinating expression of many hundreds of genes responsible for establishment of the mature adipocyte phenotype. Our recent studies have demonstrated a role for MEK/ERK signaling and CCAAT/enhancer binding proteins (C/EBP)beta in regulating expression of PPARgamma during adipogenesis. Furthermore, we have shown that cAMP-dependent signaling along with C/EBPbeta leads to the stimulation of PPARgamma activity by mechanisms that probably involve production of PPARgamma ligands. Additionally, we have recently demonstrated that phosphorylation of C/EBPbeta at a consensus ERK/GSK3 site is required for the PPARgamma-associated expression of adiponectin during the terminal stages of adipogenesis. GSK3beta also influences PPARgamma activity by regulating the turnover and subcellular localization of beta-catenin, a potent transcriptional activator of Wnt signaling. In fact, we have recently shown a crosstalk between PPARgamma and beta-catenin signaling. Specifically, activation of PPARgamma induces the degradation of beta-catenin during preadipocyte differentiation by mechanisms that require GSK3beta and the proteasome. In contrast, expression of a GSK3beta-phosphorylation-defective beta-catenin renders beta-catenin resistant to the degradatory action of PPARgamma. Interestingly, expression of the mutant beta-catenin blocks expression of adiponectin and C/EBPalpha in response to the activation of PPARgamma.
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PMID:Regulation of PPARgamma activity during adipogenesis. 1571 76

WNT family ligands transduce signals through FZD1, FZD2, FZD3, FZD4, FZD5, FZD6, FZD7, FZD8, FZD9, FZD10, LRP5, LRP6, ROR1, ROR2 and RYK. WNT1, WNT2, WNT2B, WNT3, WNT3A, WNT8A, WNT8B, WNT10A and WNT10B are canonical WNTs to activate WNT - beta-catenin pathway. Human WNT8A mRNA is expressed in NT2 cells with neuronal differentiation potential, while human WNT8B mRNA in diffuse type gastric cancer. Here, we identified and characterized the rat Wnt8a and Wnt8b genes by using bioinformatics. The rat Wnt8a gene, consisting of six exons, was located within AC134361.2 genome sequence. The rat Wnt8b gene, consisting of six exons, was located within AC105487.6 and AC103018.7 genome sequences. The rat Wnt8a (355 aa) and Wnt8b (350 aa) with 60.0% total-amino-acid identity were secreted-type proteins with 22 conserved Cys residues and two Asn-linked glycosylation sites. Wnt8b orthologs were more conserved than Wnt8a orthologs. GATA-binding site was located within conserved region of rat Wnt8b and human WNT8B promoters. GATA6 ESTs were expressed in diffuse type gastric cancer, and FGFR2 gene is reported preferentially amplified in diffuse type gastric cancer. KGF-FGFR2-PI3K-GATA6-WNT8B signaling cascade is predicted to play important roles in diffuse type gastric cancer. This is the first report on the rat Wnt8a and Wnt8b genes as well as on the conserved GATA-binding site within rat Wnt8b and human WNT8B promoters.
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PMID:Comparative genomics on Wnt8a and Wnt8b genes. 1575 11

alpha-crystallin (alphaA and alphaB) is a major lens protein, which belongs to the small heat-shock family of proteins and binds to various cytoskeletal proteins including actin, vimentin and desmin. In this study, we investigated the cellular localization of alphaA and alphaB-crystallins in migrating epithelial cells isolated from porcine lens. Immunofluorescence localization and confocal imaging of alphaB-crystallin in confluent and in migrating subconfluent cell cultures revealed a distinct pattern of subcellular distribution. While alphaB-crystallin localization was predominantly cytoplasmic in confluent cultures, it was strongly localized to the leading edges of cell membrane or the lamellipodia in migrating cells. In accordance with this pattern, we found abundant levels of alphaB-crystallin in membrane fractions compared to cytosolic and nuclear fractions in migrating lens epithelial cells. alphaA-crystallin, which has 60% sequence identity to alphaB-crystallin, also exhibited a distribution profile localizing to the leading edge of the cell membrane in migrating lens epithelial cells. Localization of alphaB-crystallin to the lamellipodia appears to be dependent on phosphorylation of residue serine-59. An inhibitor of p38 MAP kinase (SB202190), but not the ERK kinase inhibitor PD98059, was found to diminish localization of alphaB-crystallin to the lamellipodia, and this effect was found to be associated with reduced levels of Serine-59 phosphorylated alphaB-crystallin in SB202190-treated migrating lens epithelial cells. alphaB-crystallin localization to the lamellipodia was also altered by the treatment with RGD (Arg-Ala-Asp) peptide, dominant negative N17 Rac1 GTPase, cytochalasin D and Src kinase inhibitor (PP2), but not by the Rho kinase inhibitor Y-27632 or the myosin II inhibitor, blebbistatin. Additionally, in migrating lens epithelial cells, alphaB-crystallin exhibited a clear co-localization with the actin meshwork, beta-catenin, WAVE-1, a promoter of actin nucleation, Abi-2, a component of WAVE-1 protein complex and Arp3, a protein of the actin nucleation complex, suggesting potential interactions between alphaB-crystallin and regulatory proteins involved in actin dynamics and cell adhesion. This is the first report demonstrating specific localization of alphaA and alphaB-crystallins to the lamellipodia in migrating lens epithelial cells and our findings indicate a potential role for alpha-crystallin in actin dynamics during cell migration.
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PMID:alpha-Crystallin localizes to the leading edges of migrating lens epithelial cells. 1587 45

Twisted gastrulation (Tsg) is a secreted glycoprotein that binds bone morphogenetic protein-2 (BMP-2) and BMP-4 and can display both BMP agonist and antagonist functions. Tsg acts as a BMP agonist in chondrocytes, but its expression and actions on the differentiation of cells of the osteoblastic lineage are not known. We investigated the effects of Tsg overexpression by transducing murine ST-2 stromal and MC3T3 cells with a retroviral vector where Tsg is under control of the cytomegalovirus promoter and compared them to cells transduced with the parental vector alone. ST-2 cells were cultured in osteoblastic differentiating conditions in the presence or absence of BMP-2. Tsg overexpression precluded the appearance of mineralized nodules induced by BMP-2, led to a delay in the expression of osteoblastic gene markers, and decreased the responsiveness of ST-2 differentiating cells to PTH. BMP-2 induced the phosphorylation of signaling mothers against decapentaplegic-1/5/8, but not ERK, c-Jun N-terminal kinase, and p38. ST-2 cells overexpressing Tsg displayed an inhibition of BMP/signaling mother against decapentaplegic signaling. Tsg action was specific to BMP, because Tsg overexpression did not affect TGF-beta or Wnt/beta-catenin signaling pathways. Tsg also opposed MC3T3 cell differentiation and the expression of a mature osteoblast phenotype. In conclusion, Tsg overexpression inhibits BMP action in stromal and preosteoblastic cells and, accordingly, arrests their differentiation toward the osteoblastic pathway.
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PMID:Overexpression of twisted gastrulation inhibits bone morphogenetic protein action and prevents osteoblast cell differentiation in vitro. 1591 55

The proto-oncogene pp60(c-Src) (c-Src) is activated in many types of cancer and contributes to the transformed phenotype of the tumor, although its role is not yet fully understood. Here we report that active Src elevates the levels of beta-catenin by enhancing cap-dependent translation. Src induces phosphorylation of the eukaryotic initiation factor 4E via the Ras/Raf/ERK pathway and the phosphorylation of its inhibitor 4E-BP1 via the PI3K/mTOR pathway. Activated Src enhances the accumulation of nuclear beta-catenin and enhances its transcriptional activity, elevating target genes such as cyclin D1. This novel activation of the Wnt pathway by Src most probably contributes to the oncogenic phenotype of cancer cells.
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PMID:Active Src elevates the expression of beta-catenin by enhancement of cap-dependent translation. 1592 20

WNT family proteins bind to transmembrane proteins FZD1, FZD2, FZD3, FZD4, FZD5, FZD6, FZD7, FZD8, FZD9, FZD10, LRP5, LRP6, ROR1, ROR2, RYK, and also secreted proteins SFRP1, SFRP2, SFRP3, SFRP4, SFRP5, and DAND4 (CER1). DKK family members antagonize WNT binding to LRPs, while SFRP family members antagonize WNT binding to FZDs. Here, we identified and characterized rat Dkk1 gene and cow Dkk1 gene by using bioinformatics. Rat and cow Dkk1 genes, consisting of four exons, were located within AC095296.4 and AC157142.1 genome sequences, respectively. Dkk1 gene at rat chromosome 1q52 was found to encode a 270-aa protein, showing 94.1, 81.5, 78.9, 53.7 and 48.1% total-amino-acid identity with mouse Dkk1, human DKK1, cow Dkk1, Xenopus dkk1 and zebrafish dkk1, respectively. Vertebrate Dkk1 orthologs were secreted proteins with two Cys rich regions, each containing ten conserved Cys residues. The C-terminal Cys rich region was well conserved among vertebrate Dkk1 orthologs. Nucleotide position 148898-147860 of AC009986.10 human genome sequence was identified as evolutionarily conserved human DKK1 promoter, and nucleotide position 55266-56301 of AC095296.4 rat genome sequence as evolutionarily conserved rat Dkk1 promoter. Human DKK1 promoter and rat Dkk1 promoter, showing 66.2% total nucleotide identity, were well conserved. TCF/LEF, CP2, POU2F1 (OCT1), HNF1 and FOXJ2-binding sites and TATA-box were conserved among human DKK1, rat Dkk1, mouse Dkk1, and cow Dkk1 promoters. Double TCF/LEF-binding sites within the proximal promoter region of mammalian Dkk1 orthologs are implicated in the negative feed back mechanism of WNT/beta-catenin signaling pathway.
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PMID:Comparative genomics on Dkk1 orthologs. 1594 69

Immunohistochemical analysis of E-cadherin has changed the way lobular neoplasia is perceived. It has helped to classify difficult cases of carcinoma in situ with indeterminate features and led to the identification of new variants of lobular carcinoma. Pleomorphic lobular carcinoma (PLC) and pleomorphic lobular carcinoma in situ (PLCIS), recently described variants of invasive and in situ classic lobular carcinoma, are reported to be associated with more aggressive clinical behaviour. Although PLC/PLCIS show morphological features of classic lobular neoplasia and lack E-cadherin expression, it is still unclear whether these lesions evolve through the same genetic pathway as lobular carcinomas or are high-grade ductal neoplasms that have lost E-cadherin. Here we have analysed a case of extensive PLCIS and invasive PLC associated with areas of E-cadherin-negative carcinoma in situ with indeterminate features, using immunohistochemistry, chromogenic in situ hybridization, high-resolution comparative genomic hybridization (CGH) and array-based CGH. We observed that all lesions lacked E-cadherin and beta-catenin and showed gain of 1q and loss of 16q, features that are typical of lobular carcinomas but are not seen in high-grade ductal lesions. In addition, amplifications of c-myc and HER2 were detected in the pleomorphic components, which may account for the high-grade features in this case and the reported aggressive clinical behaviour of these lesions. Taken together, these data suggest that at least some PLCs may evolve from the same precursor or through the same genetic pathway as classic lobular carcinomas.
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PMID:Pleomorphic lobular carcinoma of the breast: role of comprehensive molecular pathology in characterization of an entity. 1595 52

The beta-catenin pathway has been conclusively demonstrated to regulate differentiation and patterning in multiple model systems. In thyroid cancer, alterations are often seen in proteins that regulate beta-catenin, including those of the RAS, PI3K/AKT, and peroxisome proliferation activated receptor-gamma (PPARgamma) pathways, and evidence from the literature suggests that beta-catenin may play a direct role in the dedifferentiation commonly observed in late-stage disease. RET/PTC rearrangements are frequent in thyroid cancer and appear to be exclusive from mutational events in RAS and BRAF. Activation of AKT by phosphatidylinositide-3 kinase (PI3K), a RAS effector, results in GSK3beta phosphorylation and deactivation and subsequent beta-catenin upregulation in thyroid cancer. Activating mutations in beta-catenin, which have been demonstrated in late-stage thyroid tumors, correlate with beta-catenin nuclear localization and poor prognosis. We hypothesize that activation of the RAS, PI3K/AKT, and PPARgamma pathways ultimately impinges upon beta-catenin. We further propose that if mutations in BRAF, RAS, and RET/PTC rearrangements are mutually exclusive in certain thyroid tumors or tumor types, as has already been shown for papillary thyroid cancer, then these interconnected pathways may cooperate in the initiation and promotion of the disease. We believe that clinical benefit for thyroid cancer patients could be derived from disrupting the middle or distal pathway effectors of these pathways, such as AKT or beta-catenin.
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PMID:Multiple signaling pathways converge on beta-catenin in thyroid cancer. 1602 21

Beta-catenin is upregulated in many human cancers and considered to be an oncogene. Hepatocellular carcinoma (HCC) is one of the most prevalent human malignancies, and individuals who are chronic hepatitis B virus (HBV) carriers have a greater than 100-fold increased relative risk of developing HCC. Here we report a mechanism by which HBV-X protein (HBX) upregulates beta-catenin. Erk, which is activated by HBX, associates with GSK-3beta through a docking motif ((291)FKFP) of GSK-3beta and phosphorylates GSK-3beta at the (43)Thr residue, which primes GSK-3beta for its subsequent phosphorylation at Ser9 by p90RSK, resulting in inactivation of GSK-3beta and upregulation of beta-catenin. This pathway is a general signal, as it was also observed in cell lines in which Erk-primed inactivation of GSK-3beta was regulated by IGF-1, TGF-beta, and receptor tyrosine kinase HER2, and is further supported by immunohistochemical staining in different human tumors, including cancers of the liver, breast, kidney, and stomach.
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PMID:Erk associates with and primes GSK-3beta for its inactivation resulting in upregulation of beta-catenin. 1603 86


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