UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Screening of a human breast epithelial cell cDNA library with the tyrosine-phosphorylated C terminus of the epidermal growth factor receptor identified a novel member of the GRB7 gene family, designated GRB14. In addition to a pleckstrin homology domain-containing central region homologous to the Caenorhabditis elegans protein F10E9.6/mig 10 and a C-terminal Src homology 2 (SH2) domain, a conserved N-terminal motif, P(S/A)IPNPFPEL, can now be included as a hallmark of this family. GRB14 mRNA was expressed at high levels in the liver, kidney, pancreas, testis, ovary, heart, and skeletal muscle. Anti-Grb14 antibodies recognized a protein of approximately 58 kDa in a restricted range of human cell lines. Among those of breast cancer origin, GRB14 expression strongly correlated with estrogen receptor positivity, and differential expression was also observed among human prostate cancer cell lines. A GST-Grb14 SH2 domain fusion protein exhibited strong binding to activated platelet-derived growth factor (PDGF) receptors (PDGFRs) in vitro, but association between Grb14 and beta-PDGFRs could not be detected in vivo. In serum-starved cells, Grb14 was phosphorylated on serine residues, which increased with PDGF, but not EGF, treatment. Grb14 is therefore a target for a PDGF-regulated serine kinase, an interaction that does not require PDGFR-Grb14 association.
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PMID:Cloning and characterization of GRB14, a novel member of the GRB7 gene family. 864 58

The c-ERBB-2 gene is frequently amplified in various cancers. During the course of studies on the structural characterization of the amplification units, we isolated four cDNA clones, A39, GRB7, C51 and CAB1 with corresponding genes localized on the c-ERBB-2 locus. A tentative gene, C51, was located at about 12 kb upstream of the c-ERBB-2 gene. By molecular cloning of a full-length cDNA clone of C51 and the reverse transcription PCR (RT-PCR) method, we identified a novel transcript of c-ERBB-2 containing new 5' sequences including the C51 sequence, demonstrating that the c-ERBB-2 gene has a novel promoter and new exons. The structural organization of the novel promoter and exons of c-ERBB-2 was revealed by complete sequence analysis of a total size of about 20 kb of genomic DNA clones containing the 5'-flanking region of the previously described c-ERBB-2 gene. Transient expression of the newly identified promoter-reporter gene constructs in breast cancer cell line MCF-7 showed that the elements responsible for promoter activity were contained in a 697 bp region upstream of the transcriptional start site. The new transcript may encode a protein different in the portion of the extracellular domain. Although the presence of the predicted protein product was not examined, this report is important in that it provides a new aspect of the c-ERBB-2 protooncogene products.
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PMID:Identification of a novel promoter and exons of the c-ERBB-2 gene. 1032 15

Amplification of the ERBB2 oncogene at 17q12 has been well documented in breast cancer and has been shown to contribute to a poor clinical outcome. However, systematic surveys of copy number and expression levels of all genes within the 17q12 region have not been performed. Here, we used cDNA and comparative genomic hybridization microarray technologies to undertake a broad survey of genes involved in the 17q12 amplification in breast cancer. A chromosomal region-specific cDNA microarray containing 217 expressed sequence tag (EST) clones from 17q12 was constructed and used for parallel analysis of gene copy numbers and expression levels in seven breast cancer cell lines allowing direct identification of genes whose expression is elevated because of an increase in copy number in this chromosomal region. The copy number and expression survey identified 12 transcripts that showed a consistent pattern of increased copy number and expression in three or more of the 17q12-amplified cell lines. As expected, these included ERBB2 as well as the GRB7 and MLN64 genes previously shown to be coamplified with ERBB2. In addition, five other known genes and four uncharacterized ESTs were also found to be consistently activated by amplification in these breast cancer cell lines. Amplicon mapping by fluorescence in situ hybridization revealed a minimal common region of amplification containing four highly expressed genes, ERBB2, GRB7, MLN64, and an uncharacterized EST 48582. Furthermore, several other genes, although not located in the minimal common region of amplification, showed a correlated pattern of amplification and expression indicating that they might play a role in breast cancers with the 17q12 amplification. In conclusion, parallel analysis of gene copy number and expression levels by cDNA microarray can be used to directly identify candidate target genes involved in amplifications. Our results show that the 17q12 amplification in breast cancer leads to the simultaneous elevation of expression levels of several genes.
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PMID:New amplified and highly expressed genes discovered in the ERBB2 amplicon in breast cancer by cDNA microarrays. 1171 55

PP1R1B-ERBB2-GRB7 locus on human chromo-some 17q12 is frequently amplified in gastric and breast cancer. Because recombination hot spot or fragile site is located around the terminus of amplified region (amplicon), we searched for a novel gene closely linked to the teromeric end of the ERBB2 amplicon. Here, we identified and characterized the ZPBP-like (ZPBPL) gene by using bioinformatics. ZPBPL gene, corresponding to BC043152 cDNA, was found to consist of seven exons. ZPBPL (316 aa) and ZPBP (351 aa) proteins, showing 34.8% total amino-acid identity, shared the zona pellucida binding protein homologous (ZPBH) domain with conserved 15 cysteine residues. ZPBPL was a secreted-type glycoprotein with the ZPBH domain, while ZPBP was a type 2 transmembrane protein with the extracellular ZPBH domain. ZPBPL mRNA was co-expressed with ZPBP mRNA in testis, germ cell tumor, and brain medulla. ZPBPL might be implicated in the gamete interaction during fertilization just like ZPBP. The MGC9753-ERBB2-MGC14832-GRB7-ZNFN1A3-ZPBPL-PRO2521-ORMDL3-GSDM locus on human chromosome 17q12-q21 and the ZPBP-ZNFN1A1-FIGNL1-DDC-GRB10-COBL-SEC61G-EGFR-LANCL2 locus on human chromosome 7p12-p11 were next compared. Comparative genomics revealed that ZPBPL-ZNFN1A3-GRB7-ERBB2 and ZPBP-ZNFN1A1-GRB10-EGFR loci were paralogous regions within the human genome. This is the first report on identification and characterization of the ZPBPL gene.
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PMID:Identification and characterization of human ZPBP-like gene in silico. 1288 58

LASP1 (also known as MLN50) gene, located centromeric to the PPP1R1B-ERBB2-GRB7 locus on human chromosome 17q12, is amplified and over-expressed in breast cancer. Here, we identified and characterized a novel LASP1-related gene, LASP2, by using bioinformatics. Nucleotide sequence of human LASP2 cDNA was determined in silico by assembling EST BF699808 and 5'-truncated FLJ39221 cDNA. Nucleotide sequence of mouse Lasp2 cDNA was derived from 1200007O21Rik cDNA. Human LASP2 (270 aa) showed 97.4% and 63.7% total-amino-acid identity with mouse Lasp2 and human LASP1, respectively. LASP2 and LASP1 were the LASP family proteins consisting of LIM domain, Nebulin repeat, and SH3 domain. LASP2 and NEBL mRNAs were transcribed from the LASP2/NEBL gene on human chromosome 10p12 due to alternative splicing. LASP2 mRNA consists of exons 1a-4a, 24, 27, and 28 of the LASP2/NEBL gene, while NEBL mRNA consists of exons 1-28. Exon 1a-4a of the LASP2/NEBL gene were more homologous to exon 1-4 of the LASP1 gene on human chromosome 17q12, while exon 1-28 of the LASP2/NEBL gene were more homologous to exons of NEB gene on human chromosome 2q23. Some part of the LASP2/ NEBL-TEM7L-ARL8-CACNB2 locus on 10p12 was paralogous to the LASP1-TEM7-CACNB1 locus on 17q12, while the other part of the LASP2/NEBL-TEM7L-ARL8-CACNB2 locus was paralogous to the NEB-ARL5-CACNB4 locus on 2q23. These facts indicate that the LASP2/NEBL-TEM7L-ARL8-CACNB2 is a chimeric locus, which might be generated through the homologous recombination between the ancestral lasp2-tem7l-cacnb2 locus and the ancestral nebl-arl8 locus. Therefore, gene fusion during evolution is one of the mechanisms to generate alternative splicing.
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PMID:Identification and characterization of LASP2 gene in silico. 1288 59

The PPP1R1B-STARD3-TCAP-PNMT-MGC9753-ERBB2-MGC14832-GRB7 locus on human chromosome 17q12 is frequently amplified in human gastric and breast cancer. We have recently identified and characterized human MGC9753 (also known as wild-type CAB2) and mouse Mgc9753. Here, we identified and characterized mouse Erbb2 gene by using bioinformatics. BLAST programs revealed that mouse AK031099 cDNA was derived from mouse Erbb2 gene. Because AK031099 cDNA showed 806 C-->A nucleotide substitution compared with mouse genome draft sequences and mouse Erbb2 ESTs, the nucleotide sequence of mouse Erbb2 cDNA was determined in silico by correcting 806 A of AK031099 cDNA to C. Nucleotide position 48-3818 of mouse Erbb2 cDNA was the coding region. Mouse Erbb2 gene, consisting of 27 exons, was located within the Ppp1r1b-Grb7 locus on the mouse chromosome 11. Mouse Erbb2 protein (1256 aa) showed 87.5% total-amino-acid identity with human ERBB2 protein, and 95.2% total-amino-acid identity with rat Erbb2 protein. Mouse Ppp1r1b-Grb7 locus and human Ppp1r1b-Grb7 locus were evolutionarily conserved in the order and the orientation of genes therein. Nucleotide and amino-acid substitution rates of Neurod2 located centromeric to the Ppp1r1b-Grb7 locus were significantly lower than others within the Ppp1r1b-Grb7 locus. This is the first report on the complete coding sequence of mouse Erbb2 gene as well as on the comprehensive comparison of Ppp1r1b-Grb7 locus within the human and mouse genomes.
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PMID:Identification and characterization of mouse Erbb2 gene in silico. 1288 24

PPP1R1B-STARD3-TCAP-PNMT-PERLD1-ERBB2-MGC14832-GRB7 locus at human chromosome 17q12 is frequently amplified in human gastric cancer and breast cancer. Here, we compared human GSDML-GSDM locus with rodent genomes by using bioinformatics. Rodent ortholog of human GSDML was not identified. Rat Gsdm gene was identified within rat genome clone CH230-28N16 (AC119462.4), and was mapped to rat chromosome 10q31. Rat Gsdm gene, consisting of 12 exons, encoded a 446-amino-acid protein, which showed 86.3% and 32.3% total-amino-acid identities with human GSDM and GSDML, respectively. Mouse Gsdm-like 1 (Gsdml1) and Gsdml2 genes were identified within mouse genome clone RP23-438D7 (AL591125.20). Gsdml1 and Gsdml2 genes were found to encode 456- and 443-amino-acid proteins, respectively. Mouse 2200001G21Rik cDNA (AK008613.1) was a partial cDNA derived from mouse Gsdml2 gene. Mouse Gsdml1 and Gsdml2 were also more homologous to human GSDM than to human GSDML. Mouse Gsdml1, Gsdml2 and Gsdm genes, existing in the tandem homologous gene cluster, was mapped to mouse chromosome 11D. Mouse Gsdml1-Gsdml2-Gsdm gene cluster was predicted to be generated due to triplication of mouse Gsdm gene, while GSDML gene was predicted to be generated due to duplication of GSDM gene. Evolutionary recombination hotspot around the GSDML-GSDM locus was closely linked to the oncogenomic recombination hotspot around the PPP1R1B-ERBB2-GRB7 amplicon. The evolutionary recombination hotspot and oncogenomic recombination hotspot might be clustered around the fragile sites within the human genome.
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PMID:Evolutionary recombination hotspot around GSDML-GSDM locus is closely linked to the oncogenomic recombination hotspot around the PPP1R1B-ERBB2-GRB7 amplicon. 1501 Aug 12

Intratumoral levels of E1 (oestrone), E1S (oestrone sulphate) and E2 (oestradiol) are significantly reduced by treatment with the aromatase inhibitor anastrozole regardless of treatment response. The purpose of the present pilot study was to look for additional markers of biochemical response to aromatase inhibitors on mRNA expression level. Whole genome expression was studied using microarray analysis of breast cancer tissue from 12 patients with locally advanced tumors, both before and following 15 weeks of treatment with the aromatase inhibitor anastrozole (Arimidex). Intratumoral mRNA levels for a subset of genes coding for steroid metabolizing enzymes, hormone receptors and some growth mediators involved in cell cycle control were analysed by quantitative RT-PCR. There was a correlation between the two methods for some but not all genes. The mRNA expression levels of the different genes were correlated to each other and to the intratumoral levels of E1, E2 and E1S, before and after the treatment. Notably, a correlation of the E1/E2 metabolic ratio to the mRNA levels of CYP19A1 was observed before treatment (r=0.745, p<0.005). Whole genome expression analysis of these 12 breast cancer patients revealed similar tumor classification to previously published larger studies. Tumors with no or low expression of ESR1 (oestrogen receptor) clustered together and were characterized by a strong basal-like signature highly expressing keratins 5/17, cadherin 3, frizzled and apolipoprotein D, among others. The luminal epithelial tumor cluster, on the other hand, highly expressed ESR1, GATA binding protein 3 and N-acetyl transferase. An evident ERBB2 cluster was observed due to the marked over-expression of the ERBB2 gene and GRB7 and PPARBP in this patient material). Using significance analysis of microarrays (SAM), we identified 298 genes significantly differently expressed between the partial response and progressive disease groups.
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PMID:Effects of anastrozole on the intratumoral gene expression in locally advanced breast cancer. 1602 38

DNA amplification is a frequent occurrence in cancer genomes. While tumor amplicons may harbor known oncogenes "driving" amplification, amplicons rarely comprise only single genes. The potential functional contribution of coamplified genes remains largely unexplored. In breast cancer, 20-30% of tumors exhibit amplification within chromosome band 17q12, containing the ERBB2 oncogene. Analysis of array-based comparative genomic hybridization and expression profiling data indicate that the minimum region of recurrent amplification (i.e., the amplicon "core") at 17q12 includes two other genes, GRB7 and STARD3, which exhibit elevated expression when amplified. Western blot analysis confirms overexpression of each at the protein level in breast cancer cell lines SKBR3 and BT474 harboring amplification. In these cell lines (but not in control MCF7 breast cancer cells lacking 17q12 amplification), targeted knockdown of ERBB2 expression using RNA interference (RNAi) methods results in decreased cell proliferation, decreased cell-cycle progression, and increased apoptosis. Notably, targeted knockdown of either GRB7 or STARD3 also leads to decreased cell proliferation and cell-cycle progression, albeit to a lesser extent compared with ERBB2 knockdown. We conclude that the amplification and resultant overexpression of genes coamplified with ERBB2 at 17q12 can contribute to proliferation levels of breast cancer cells. Our findings validate the utility of RNAi in the functional interrogation of tumor amplicons, and provide evidence for a contribution of coamplified genes to tumor phenotypes.
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PMID:RNA interference-based functional dissection of the 17q12 amplicon in breast cancer reveals contribution of coamplified genes. 1670 53

We apply a new Bayesian data analysis technique (latent process decomposition) to four recent microarray datasets for breast cancer. Compared to hierarchical cluster analysis, for example, this technique has advantages such as objective assessment of the optimal number of sample or gene clusters in the data, penalization of overcomplex models fitting to noise in the data and a common latent space of explanatory variables for samples and genes. Our analysis provides a clearer insight into these datasets, enabling assignment of patients to one of four principal processes, each with a distinct clinical outcome. One process is indolent and associated with under-expression across a number of genes associated with tumour growth. One process is associated with over expression of GRB7 and ERBB2. The most aggressive process is associated with abnormal expression of transcription factor genes, including members of the FOX family of transcription factor genes.
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PMID:Identification of prognostic signatures in breast cancer microarray data using Bayesian techniques. 1684 66

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