Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:O76050 (neu)
 3,969 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomere shortening may contribute to the limited lifespan of somatic cells and telomerase, the enzyme that elongates telomeric DNA and maintains telomere length, may be essential for unlimited cell proliferation in vivo and in vitro. Telomerase is not expressed in most human somatic cells but is a nearly ubiquitous tumour marker, being activated in malignant cells from many cancers. Inhibition of telomerase may lead to telomere shortening and eventually limit the proliferative capacity of malignant cells and hence be of therapeutic value. With the intent of characterizing an animal model for inhibition studies, we investigated telomerase activity during mammary tumorigenesis in transgenic mice overexpressing the neu gene. We detected activity in primary mammary tumours and lung metastases but also in normal mammary glands and other organs. Activity was elevated in tumors versus normal tissues and was enhanced by short-term culturing of normal cells. Telomerase activity was also present in somatic tissues from the non-transgenic parental strain and the outbred Mus spretus strain. As we recently detected telomerase activity in normal human hemopoietic tissues, mouse models of tumorigenesis may provide useful experimental systems for assessing the outcome of in vivo inhibition of telomerase in both malignant and normal cells.
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PMID:Telomerase activity in normal and malignant murine tissues. 767 48

Inbred rodent strains with differing sensitivity to experimental tumor induction provide model systems for the detection of genes that either are responsible for cancer predisposition or modify the process of carcinogenesis. Rats of the inbred BD strains differ in their susceptibility to the induction of neural tumors by N-ethyl-N-nitrosourea (EtNU). Newborn BDIX rats that are exposed to EtNU (80 microg/g body weight; injected s.c.) develop malignant schwannomas predominantly of the trigeminal nerves with an incidence >85%, whereas BDIV rats are entirely resistant. A T:A-->A:T transversion mutation at nucleotide 2012 of the neu (erbB-2) gene on chromosome 10, presumably the initial event in EtNU-induced schwannoma development, is later followed by loss of the wild-type neu allele. Genetic crosses between BDIX and BDIV rats served: (a) to investigate the inheritance of susceptibility; (b) to obtain animals informative for the mapping of losses of heterozygosity (LOH) in tumors with polymorphic simple sequence length polymorphisms (SSLPs); and (c) to localize genes associated with schwannoma susceptibility by linkage analysis with SSLPs. Schwannoma development was strongly suppressed in F1 animals (20% incidence). All of the F1 schwannomas displayed LOH on chromosome 10, with a consensus region on the telomeric tip encompassing D10Rat3, D10Mgh16 and D10Rat2 but excluding neu. A strong bias toward losing the BDIV alleles suggests the involvement of a BDIV-specific tumor suppressor gene(s). Targeted linkage analysis with chromosome 10 SSLPs in F2 intercross and backcross animals localized schwannoma susceptibility to a region around D10Wox23, 30 cM centromeric to the tip. Ninety-four % of F1 tumors exhibited additional LOH at this region. Two distinct loci on chromosome 10 may thus be connected with susceptibility to the induction and development of schwannomas in rats exposed to EtNU.
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PMID:Ethylnitrosourea-induced development of malignant schwannomas in the rat: two distinct loci on chromosome of 10 involved in tumor susceptibility and oncogenesis. 1007 Sep 70

Rats of the inbred BD strains strongly differ in their susceptibility to the induction of tumors of the central (CNS) and peripheral nervous system (PNS) by N-ethyl-N-nitrosourea (EtNU). Malignant schwannomas induced in (BDIX x BDIV) and (BDIX x BDVI) rat hybrids were analyzed to identify genetic alterations associated with EtNU-induced tumorigenesis in the PNS. EtNU-induced schwannomas exclusively exhibit an A:T T:A transversion mutation of the neu/Erbb-2 gene located on chromosome 10, with subsequent loss of the wild-type neu/Erbb-2 allele at a post-initiation stage. Targeted allelic deletion mapping previously revealed losses of heterozygosity (LOH) at the distal end of chromosome 10 in a large majority of (BDIX x BDIV) schwannomas. The aims of the present study were (i) to scan the whole genome for further LOHs; (ii) to narrow down the consensus regions of frequently occurring allelic deletions using tumors from different crosses of BD rats; and (iii) to determine the sequence of genetic alterations during schwannoma development. A limited number of (BDIX x BDIV) F(1) tumors were initially screened for LOH and microsatellite instability (MI) by amplifying 58 microsatellite markers spanning the whole genome. LOHs on chromosome 5 were detected in 9/17 tumors, with random loss of the parental alleles. Ninety-two schwannomas from different BD rat-crosses were then analyzed to solidify these data and to determine the consensus region of frequent LOHs. The results indicate that LOHs on chromosomes 10 and 5 are required for the development of EtNU-induced malignant schwannomas from immature neu/Erbb-2 mutant glial cells, and that putative tumor suppressor genes are localized on chromosome 10q32.3, corresponding to human chromosome 17q25.3, and the telomeric region of mouse chromosome 11, and on the telomeric quarter of chromosome 5. MI was detected in <0.2% of cases.
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PMID:Loss of heterozygosity in malignant rat schwannomas chemically induced in hybrids of inbred rat strains with differential tumor susceptibility. 1208 26

Although HER2 gene status determines the eligibility of breast cancer patients to trastuzumab therapy, only a fraction of HER2 gene-amplified cancers are actually responsive, indicating that complex genotypical profiles might sustain HER2-targeted therapy responsiveness. To identify genetic factors modulating the response to HER2-targeted therapy, the numerical status of chromosome 17 was evaluated in HER2 gene-amplified tumor specimens from 43 patients who received trastuzumab-based treatment for advanced breast cancer, and in 60 unamplified breast carcinomas. Archival tumor specimens were analyzed by interphase fluorescence in situ hybridization (FISH) using a centromeric probe for chromosome 17 simultaneously with the HER2/neu human gene-specific probe. In the 43 patients who received trastuzumab-based treatment, response rate and time to progression (TTP) were compared between subgroups according to chromosome 17 status. Numerical aberrations of chromosome 17 were found in 65% of HER2-amplified tumors (single centromeric signal, 44%; >3 centromeric signals, 21%) and 60% of unamplified cancers (single centromeric signal, 43%; >3 centromeric, 17%). In the 43 treated metastatic breast cancer patients, trastuzumab was combined with docetaxel (35 patients), paclitaxel (2 patients), or vinorelbine (6 patients). Response rate was 92% in patients with >2 centromeric signals (chromosome 17 eusomy/polysomy), and 53% in patients whose tumor showed a single signal (chromosome 17 monosomy) (p=0.005). Chromosome 17 numerical status was not found to affect TTP. Multivariate logistic regression analysis confirmed that the effect of chromosome 17 monosomy on tumor response was independent of other potential clinical variables. Our findings suggest that 17 monosomy defines a subgroup of HER2 gene-amplified breast cancer characterized by reduced responsiveness to trastuzumab-based treatment. Further studies on the imbalance between the amplified HER2 gene and functionally antagonist gene(s) on chromosome 17 are warranted.
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PMID:HER2 gene-amplified breast cancers with monosomy of chromosome 17 are poorly responsive to trastuzumab-based treatment. 1564 16

Adenocarcinomas of the biliary tract and gallbladder are aggressive tumors with a poor prognosis. Standard chemotherapy often offers minimal benefit. Because epidermal growth factor receptor and HER-2/neu antagonists have been successfully used in adenocarcinomas from other sites, their use in cholangiocarcinoma can be potentially beneficial. This study examines the epidermal growth factor receptor and HER-2/neu expression and the epidermal growth factor receptor gene copy number in biliary tract adenocarcinomas. Fifty-one formalin-fixed, paraffin-embedded cases of adenocarcinomas (26 intrahepatic, 19 extrahepatic, 6 gallbladder) were stained with monoclonal antibodies against epidermal growth factor receptor and HER-2/neu. Fluorescence in situ hybridization analysis was performed in 37 cases using probes directed against epidermal growth factor receptor and centromeric region of chromosome 7. Epidermal growth factor receptor expression was present in 41 (80%) cases, with moderate or strong epidermal growth factor receptor staining in 30 (59%) cases. HER-2/neu was positive in 2 (4%) cases. Fluorescence in situ hybridization analysis showed gain in epidermal growth factor receptor gene copy number in 17 (46%) tumors. Of the latter, 1 showed gene amplification, whereas all others showed gain in chromosome 7, indicating balanced polysomy. Epidermal growth factor receptor overexpression by immunohistochemistry correlated significantly with epidermal growth factor receptor copy number by fluorescence in situ hybridization (P = .02). HER2/neu expression is uncommon in these tumors.
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PMID:Epidermal growth factor receptor and HER-2/neu status by immunohistochemistry and fluorescence in situ hybridization in adenocarcinomas of the biliary tree and gallbladder. 2004 Mar 92

Amplification for the ERBB2 oncogene encoding the HER2/neu protein (HER2) is of predictive and prognostic importance in breast carcinoma. Fluorescence in situ hybridization (FISH) is a widely accepted method for determining HER2 amplification status. A HER2-amplified tumor is defined as having a ratio of HER2 signals to chromosome 17 centromeric probe signals (HER2/CEP17 ratio) exceeding 2.2. However, the presence of scattered cells demonstrating HER2 amplification is of unclear significance. A 2009 panel guideline defined a tumor with 'genetic heterogeneity' as having at least 5% but fewer than 50% of (non-clustered) tumor nuclei with a ratio >2.2. The study objective was to examine the statistical distribution of breast tumors tested by FISH for HER2 amplification, after implementation of this 2009 guideline. We identified 2522 consecutive breast carcinoma cases (2009-2011) tested for HER2 amplification. All cases were tested by FISH using a standard clinical protocol, adhering to established guidelines. For each case, data on cell counts were retrieved electronically. Each tumor was compared with a theoretical normal distribution by quantile-quantile analysis. Of 2522 FISH tests for HER2, 1900 (75%) were non-amplified, 394 (16%) were amplified, and 228 (9%) were HER2-equivocal. A total of 666 (26%) had 'genetic heterogeneity.' Among these 'genetically heterogeneous' cases, the ratio was non-amplified in 430 (64.5%), amplified in 24 (4%), and equivocal in 212 (31.5%). The amplified subpopulation in 'genetically heterogeneous' tumors was larger if the overall ratio was close to 2.2. However, the percentage of nuclei >2.2 in a 'genetically heterogeneous' tumor was not informative of the underlying tumor-cell distribution. We conclude that the proportion of HER2-amplified nuclei within a tumor does not contribute information independent of the actual HER2/CEP17 ratio. Reassessment of the definition of 'genetic heterogeneity' in HER2 testing is warranted.
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PMID:'Genetic heterogeneity' in HER2/neu testing by fluorescence in situ hybridization: a study of 2,522 cases. 2228 6

Tumorigenesis is often described as a result of accumulated mutations that lead to growth advantage and clonal expansion of mutated cells. There is evidence in the literature that cancer cells are influenced by the microenvironment. Our previous studies demonstrated that the mouse mammary gland is capable of redirecting mouse cells of non-mammary origins as well as Mouse Mammary Tumor Virus (MMTV)-neu transformed cells toward normal mammary epithelial cell fate during gland regeneration. Interestingly, the malignant phenotype of MMTV-neu transformed cells was suppressed during serial transplantation experiments. Here, we discuss our studies that demonstrated the potential of the regenerating mouse mammary gland to redirect cancer cells of different species into a functional tumor-free mammary epithelial cell progeny. Immunochemistry for human specific CD133, mitochondria, cytokeratins as well as milk proteins and FISH for human specific probe identified human epithelial cell progeny in ducts, lobules, and secretory acini. Fluorescent In Situ Hybridization (FISH) for human centromeric DNA and FACS analysis of propidium iodine staining excluded the possibility of mouse-human cell fusion. To our knowledge this is the first evidence that human cancer cells of embryonic or somatic origins respond to developmental signals generated by the mouse mammary gland microenvironment during gland regeneration in vivo.
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PMID:Redirection of Human Cancer Cells upon the Interaction with the Regenerating Mouse Mammary Gland Microenvironment. 2470 43

The frequency of gene amplification and coamplification of HER2/neu, TOP2A and the centromeric region of chromosome 17 (CEP17) was examined in 265 breast cancer (BC) cases belonging to different molecular genetic subgroups. Luminal B breast cancer was found to be characterized by the increased probability of coamplifications (CEP17 and HER/neu, HER2/neu, and TOP2A) on chromosome 17. At the same time, the amplification of just three loci on one chromosome is a rare event and encountered in 17% of luminal B breast cancer cases (or 1.1% of all BC cases). That of HER2/neu in conjunction with elevated CEP17 count is statistically significantly more rarely accompanied by deletion of TOP2A rather than its amplification. The findings suggest that there are different amplification mechanisms in different BC molecular genetic subgroups.
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PMID:[Specific features of gene amplification on the long arm of chromosome 17 in different molecular genetic subtypes of breast cancer]. 2505 18