EC:2.7.10.1 - FACTA Search

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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)

The bek gene encodes a member of the high-affinity fibroblast growth factor receptor family. The BEK/FGFR-2 receptor is a membrane-spanning tyrosine kinase with the typical features of FGF receptors. We have cloned a murine bek cDNA and expressed it in receptor-negative Chinese hamster ovary cells and in 32D myeloid cells. The BEK receptor expressed in Chinese hamster ovary cells binds acidic FGF, basic FGF, and Kaposi FGF equally well but does not bind keratinocyte growth factor or FGF-5 appreciably. Upon treatment with basic FGF or Kaposi FGF, the BEK receptor is phosphorylated and a mitogenic response is achieved. Heparan sulfate proteoglycans have been shown to play an obligate role in basic FGF binding to the high-affinity FLG receptor. Unlike the BEK-expressing Chinese hamster ovary cells, 32D cells expressing the BEK receptor require the addition of exogenous heparin in order to grow in the presence of basic FGF or Kaposi FGF. We show that the addition of heparin greatly enhances the binding of radio-labeled basic FGF to the receptor. Thus the BEK receptor, like FLG, also requires an interaction with heparan sulfate proteoglycans to facilitate binding to its ligands.
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PMID:Characterization of the murine BEK fibroblast growth factor (FGF) receptor: activation by three members of the FGF family and requirement for heparin. 137 95

The BEK transmembrane protein tyrosine kinase is a receptor for both acidic and basic fibroblast growth factors. We identify several different transcripts which code for BEK-related proteins. These proteins differ from BEK in regions expected to control receptor activity. Thus, some of the proteins have altered extracellular, ligand-binding domains, and others an altered carboxy-terminal tail. Still other forms of BEK differ only in their juxtamembrane domains. Sequencing of parts of the BEK gene shows that alternative splicing of the premessenger can account for at least some of this diversity. In particular, an apparently tissue specific, mutually exclusive splicing of two internal exons permits both the previously described K-SAM mRNA and the BEK mRNA to be derived from the same premessenger.
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PMID:Multiple mRNAs code for proteins related to the BEK fibroblast growth factor receptor. 164 4

Tumor DNA samples from 387 breast carcinomas have been investigated for amplification of BEK and FLG genes, both of which have been shown to code for cell surface receptors to FGFs. BEK and FLG were found amplified in 11.5 and 12.7% of breast tumors respectively. Statistical analysis, performed on the subset of 297 primary cancers without presurgical therapy, showed for BEK a trend of preferential amplification in patients above 50 years (P = 0.055), whereas amplification of FLG could significantly be correlated with nodal involvement (P = 0.032) and seemed prevalent in steroid hormones receptor positive tumors. Since the same tumors were previously analysed for the amplification of MYC, ERBB2 and HST/INT2/BCL1 possible associations with BEK and FLG amplifications were looked for. BEK was found significantly correlated with MYC and FLG with HST/INT2/BLC1. The amplification of these two FGF receptor genes may therefore represent additional steps in the molecular phenotyping of breast cancer.
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PMID:BEK and FLG, two receptors to members of the FGF family, are amplified in subsets of human breast cancers. 185 51

Two alternative exons, BEK and K-SAM, code for part of the ligand binding site of fibroblast growth factor receptor 2. Splicing of these exons is mutually exclusive, and the choice between them is made in a tissue-specific manner. We identify here pre-mRNA sequences involved in controlling splicing of the K-SAM exon. The short K-SAM exon sequence 5'-TAGGGCAGGC-3' inhibits splicing of the exon. This inhibition can be overcome by mutating either the exon's 5' or 3' splice site to make it correspond more closely to the relevant consensus sequence. Two separate sequence elements in the intron immediately downstream of the K-SAM exon, one of which is a sequence rich in pyrimidines, are both needed for efficient K-SAM exon splicing. This is no longer the case if either the exon's 5' or 3' splice site is reinforced. Furthermore, if the exon inhibitory sequence is removed, the intron sequences are not required for splicing of the K-SAM exon in a cell line which normally splices this exon. At least three elements are thus involved in controlling splicing of the K-SAM exon: suboptimal 5' and 3' splice sites, an exon inhibitory sequence, and intron activating sequences.
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PMID:Exon and intron sequences, respectively, repress and activate splicing of a fibroblast growth factor receptor 2 alternative exon. 765

Several chromosomal regions are found to be consistently amplified in human breast cancers. For two of these regions, 8p12 and 10q26, we previously reported the amplification of genes encoding FGF receptors, FGFRI/FLG and FGFR2/BEK, in about 12% of breast tumors. The PLAT gene, encoding the tissue-type plasminogen activator, is also located close to or within the 8p12 region. In the present study, we show that both FGFRI and PLAT can be amplified in breast as well as ovarian carcinomas. FGFRI amplification was detected in 14.5% of breast and 7.8% of ovarian tumors, whereas PLAT was found to be amplified in 15.6% and 19.4% of the tumors, respectively. Each gene could be amplified independently of the other. These data raised the question of which gene is selected for amplification at 8p12. In most cases, the levels of expression of FGFRI and PLAT in breast tumors were comparable to their level of expression in normal mammary tissue. However, FGFRI was expressed above the normal level in a certain number of cases. This gene could be a good candidate as "driver" of the 8p12 amplification, but it cannot account for all complex molecular events taking place in this region.
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PMID:FGFRI and PLAT genes and DNA amplification at 8p12 in breast and ovarian cancers. 769 48

Malignant astrocytomas, which are highly invasive, vascular neoplasms, compose the majority of nervous system tumors in humans. Elevated expression of fibroblast growth factors (FGFs) in astrocytomas has implicated the FGF family of mitogens in the initiation and progression of astrocyte-derived tumors. In this study, we demonstrated that human astrocytomas undergo parallel changes in FGF-receptor (FGFR) expression during their progression from a benign to a malignant phenotype. FGFR type 2 (BEK) expression was abundant in normal white matter and in all low-grade astrocytomas but was not seen in malignant astrocytomas. Conversely, FGFR type 1 (FLG) expression was absent or barely detectable in normal white matter but was significantly elevated in malignant astrocytomas. Malignant astrocytomas also expressed an alternatively spliced form of FGFR-1 (FGFR-1 beta) containing two immunoglobulin-like disulfide loops, whereas normal human adult and fetal brains expressed a receptor form (FGFR-1 alpha) containing three immunoglobulin-like disulfide loops. Intermediate grades of astrocytic tumors exhibited a gradual loss of FGFR-2 and a shift in expression from FGFR-1 alpha to FGFR-1 beta as they progressed from benign to malignant phenotype. These results suggest that differential expression and alternative splicing of FGFRs may be critical in the malignant progression of astrocytic tumors.
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PMID:Differential expression of two fibroblast growth factor-receptor genes is associated with malignant progression in human astrocytomas. 829 May 51

The fibroblast growth factor receptor 2 gene pre-mRNA can be spliced by using either the K-SAM exon or the BEK exon. The exon chosen has a profound influence on the ligand-binding specificity of the receptor obtained. Cells make a choice between the two alternative exons by controlling use of both exons. Using fibroblast growth factor receptor 2 minigenes, we have shown that in cells normally using the K-SAM exon, the BEK exon is not used efficiently even in the absence of the K-SAM exon. This is because these cells apparently express a titratable repressor of BEK exon use. In cells normally using the BEK exon, the K-SAM exon is not used efficiently even in the absence of a functional BEK exon. Three purines in the K-SAM polypyrimidine tract are at least in part responsible for this, as their mutation to pyrimidines leads to efficient use of the K-SAM exon, while mutating the BEK polypyrimidine tract to include these purines stops BEK exon use.
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PMID:Control of BEK and K-SAM splice sites in alternative splicing of the fibroblast growth factor receptor 2 pre-mRNA. 835 93

We recently identified a genomic domain at chromosome 10q26 that is highly amplified in the gastric carcinoma cell lines KATO III and SNU-16 and contains the BEK/K-sam gene, which encodes several growth factor receptors. A contiguous segment of 200 kb spanning this gene was amplified in five of 139 (3.6%) primary gastric carcinomas, all of them classified as poorly differentiated tumors. There was no amplification of this genomic region in a variety of other solid tumors. The overall frequency of gene amplification among the gastric carcinomas rose to 19.4% when MYC, ERBB2, and INT2 were included in the analysis, with significant association with advanced tumor stage. Amplification of various genomic regions in solid tumors may be more frequent than previously estimated.
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PMID:DNA amplification in human gastric carcinomas. 845 95

Mutations have been reported for several craniosynostotic disorders in exon IIIa (exon U or 7) or IIIc (exon B or 9) of the fibroblast growth factor receptor 2 gene (FGFR2). Among the conditions with FGFR2 mutations are two autosomal dominant syndromes, Crouzon and Jackson-Weiss. In this study, 24 Crouzon and one Jackson-Weiss syndrome patients were screened for mutations in the two exons by direct sequencing, and mutations were detected in 28% (7/25) of all cases. Five different mutations were found including two novel (W290G, C342W) and two previously reported, recurrent mutations for Crouzon syndrome (A344A, S354C), and one new mutation for Jackson-Weiss syndrome (C342R). The W290G mutation was found in exon IIIa which is common to both alternatively spliced forms of FGFR2, BEK (expressed predominantly in primordial bones) and KGFR (expressed preferentially in epithelia). Atypical Crouzon syndrome features of epithelial-derived anal and/or external ear anomalies were present in the two affected family members with the mutation. This phenotype possibly reflects the expression of both mutant BEK and KGFR. In addition, the Jackson-Weiss syndrome mutation, C342R, in exon IIIc was observed previously in other craniosynostotic syndromes, Crouzon and Pfeiffer. These results underscore the allelic heterogeneity of these conditions and the complexity of the phenotypic consequences of FGFR2 mutations.
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PMID:Novel FGFR2 mutations in Crouzon and Jackson-Weiss syndromes show allelic heterogeneity and phenotypic variability. 852 14

The fibroblast growth factor receptor-2 gene contains a pair of alternative exons, K-SAM and BEK, which are spliced in a cell type specific manner. We have shown previously that a 10 nucleotide sequence within the K-SAM exon exerts a negative effect on K-SAM exon splicing independent of cell type. We demonstrate here that this sequence works autonomously, as it can repress splicing of a heterologous exon, the EIIIb alternative exon of the rat fibronectin gene. By introducing point mutations into the 10 nucleotide sequence, we have shown that the functional portion is limited to 4 nucleotides, TAGG, the dinucleotide AG of which is particularly important. This short sequence may participate in the control of splicing of exons carrying it, provided that they carry weak splice sites.
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PMID:The exon sequence TAGG can inhibit splicing. 866 31

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