Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
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Query: UNIPROT:O76050 (
neu
)
3,969
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lung cancer arises after a series of morphological changes, which take several years to progress from normal epithelium to invasive cancer. The morphological changes progress from hyperplasia, to metaplasia, to dysplasia, to carcinoma in situ, to invasive cancer and finally to metastatic cancer. Multiple molecular changes have been documented in lung cancers, both small cell (
SCLC
) and non-small cell (NSCLC) types. The number of changes has been estimated to be in double digits. These changes include activation of dominant oncogenes myc family, (K-ras and
neu
genes), as well as loss of recessive growth regulatory genes or anti-oncogenes (p53, and RB as well as unidentified gene or genes on chromosome 3). However, cytogenetic and molecular genetic studies indicate that multiple other specific sites of actual or potential DNA loss may be present in lung cancers. Other changes may include development of drug resistance, and production of growth factors and their receptors. It is tempting to associate specific molecular changes with specific morphological changes, as has been attempted in the colon. However, because of the difficulties in serially sampling the respiratory tract, such studies have not been performed to date. Documentation of molecular changes in premalignant lesions and prospective studies of their prognostic effects will be necessary for the design of rational chemoprevention trials.
...
PMID:The molecular biology of lung cancer. 130 9
Lung cancer arises after a series of morphological changes, which take several years to progress from normal epithelium to invasive cancer. The morphological changes progress from hyperplasia, to metaplasia, to dysplasia, to carcinoma in situ, to invasive cancer and finally to metastatic cancer. Multiple molecular changes have been documented in lung cancers, both small cell (
SCLC
) and non-small cell (NSCLC) types. The number of changes has been estimated to be in double digits. How can so many changes develop in one cell? One possible explanation is the "field cancerization" theory, that states that all or much of the aerodigestive tract epithelium has been mutagenized, perhaps as the result of exposure to tobacco products or other carcinogens. The molecular changes include activation of dominant oncogenes (myc family, K-ras and HER/2/
neu
genes), as well as loss of recessive growth regulatory genes or anti-oncogenes (p53, and rb as well as unidentified gene or genes on chromosome 3). However, cytogenetic and molecular genetic studies indicate that multiple other specific sites of actual or potential DNA loss may be present in lung cancers. Many of the well characterized molecular changes may function as negative prognostic factors for survival in subsets of lung cancers. Other changes may include development of drug resistance, and production of growth factors and their receptors. It is tempting to associate specific molecular changes with specific morphological changes, as has been attempted in the colon. However, because of the difficulties in serially sampling the respiratory tract, only a modest amount of data has been collected to date. It appears that deletions of chromosome 3p, hyperproliferation and aneuploidy are early changes, while p53 mutations appear later in the preneoplastic cascade. Documentation of intermediate markers for lung cancer and prospective studies of their prognostic effects will be necessary for the design of rational chemoprevention trials.
...
PMID:The molecular and cellular basis of human lung cancer. 816 65
The role of oncogenes and antioncogenes in lung tumorigenesis is discussed in this review, with particular emphasis on their prognostic significance. Mutations in the ras family of oncogenes, overexpression of the myc and
neu
families of oncogenes, and mutations of p53, the recessive tumor suppressor gene, occur with differing frequencies in
small cell lung cancer
and non-small cell lung cancer, and are usually associated with a poor prognosis. Loss of heterozygosity, notably on chromosomes 3p, 5q, 9p, 13q, and 17p, is a common feature in lung carcinomas and its importance is also discussed.
...
PMID:Oncogenes and antioncogenes in lung tumorigenesis. 863 91
Overexpression of the Her-2/
neu
oncogene and receptor protein was reported in approximately 20% of breast cancers and was associated with a poor prognosis. Her-2/
neu
expression was a predictor for response to trastuzumab, a monoclonal antibody that recognizes the Her-2/
neu
cell surface receptor. Data regarding the expression of Her-2/
neu
in lung cancer are far more limited, and there is little information regarding the influence of Her-2/
neu
expression and response to trastuzumab alone or in combination with chemotherapeutic agents. In this report we evaluated Her-2/
neu
gene expression by fluorescence in situ hybridization (FISH) and the cell surface expression of the Her-2/
neu
receptor by immunohistochemistry using the HercepTest and by FACS analysis in 31 lung cancer cell lines with 5 breast cancer cell lines as controls. By FACS, we found Her-2/
neu
overexpression (mean fluorescence intensity >8) in 2 of the 22 non-small cell lung cancer (NSCLC) cell lines (9%), none of 11
small cell lung cancer
(
SCLC
) cell lines, and 4 of 5 breast cancer cell lines. A positive HercepTest (2+ or 3+) was found in 6 of 19 NSCLC cell lines (26%, 2+; 5%, 3+), 1 of 3
SCLC
cell lines (33%), and 4 of 5 breast cancer cell lines (80%). One of 6 NSCLC cell lines examined (17%) had gene amplification with >32 copies of Her-2/
neu
/cell and had homogeneous staining regions. One NSCLC cell line had a maximum of 14 copies of Her-2/
neu
/cell, and 3 had modest increases in Her-2/
neu
gene copy number without gene amplification (maximum 5-8 copies/cell). None of the
SCLC
cell lines had more than a maximum of 4 copies/cell, whereas the 2 breast cancer cell lines had maximum Her-2/
neu
copy numbers of 80 and 5, respectively. Aneusomy rather than true amplification was the major cause of increased Her-2/
neu
expression in most of the NSCLC cell lines. There was a strong correlation when the results of fluorescence-activated cell sorter, HercepTest results, and FISH were compared in pairs. Furthermore, Trastuzumab produced a G(1) cell cycle arrest and growth inhibition only in cell lines expressing Her-2/
neu
. The IC(50) for growth inhibition was correlated with cell surface Her-2/
neu
expression. The combination of trastuzumab and chemotherapeutic agents produced more than additive growth inhibition in cell lines expressing Her-2/
neu
, but the level of additivity was not related to the amount of Her-2/
neu
expression. These data indicate that trastuzumab alone and in combination with chemotherapeutic agents should be tested in NSCLC patients and that Her-2/
neu
should be assessed by both immunohistochemistry and FISH methods in these studies to determine which test is the best predictor of outcome.
...
PMID:Expression of Her-2/neu in human lung cancer cell lines by immunohistochemistry and fluorescence in situ hybridization and its relationship to in vitro cytotoxicity by trastuzumab and chemotherapeutic agents. 1159 20
Despite intensive treatment efforts, the prognosis for lung cancer is very poor; less than 15% of patients survive 5 years. Trastuzumab, a monoclonal antibody targeting the HER2/
neu
protein receptor, is effective in the treatment of metastatic breast cancer and may be useful in the treatment of non-small cell lung cancer (NSCLC). Using the HercepTest (Dako; Carpenteria, CA), 25% of NSCLC show 2+ or greater HER2/
neu
expression, but only 6% to 8% of NSCLC tumors have 3+ overexpression. Positive HER2/
neu
expression is most often seen in adenocarcinomas compared with squamous cell carcinomas or large cell carcinomas, and is rarely seen in
small cell lung cancer
. As determined by fluorescence in situ hybridization analysis, the high degree of HER2/
neu
gene expression and gene amplification seen in breast cancer is lower in NSCLC. Polysomy is the cause of increased HER2/
neu
expression in most NSCLC. Prospective clinical studies with trastuzumab in lung cancer are ongoing. Future studies in NSCLC need to include immunohistochemistry and fluorescence in situ hybridization analysis to determine the method of choice for evaluating clinically relevant HER2/
neu
-positive tumors.
...
PMID:HER2/neu expression in malignant lung tumors. 1189 14
On the basis of data of the Human Genome Project, it was embraced the newest information about the gene content of the human genome, the disease genes, the parasitic DNA, the single nucleotide polymorphisms, the repeat sequences, the cytoskeletons, the regulation of cell proliferation, and their medical consequences. The applicability of the acquaintance with the human genome in pathology is presented with a few examples of our own. The significance of the single nucleotide polymorphisms in susceptibility to, or protection from, a host of disease is illustrated by the example of the allele variation of Apo-E gene. The copy number of the N-myc gene in neuroblastomas and HER2/
neu
gene in breast carcinomas was determined with quantitative PCR techniques. The monoclonally increased abnormal p53 protein expression was found in
small cell lung cancer
(in 90% frequency), in oro-pharyngeal carcinomas (82%), in esophageal squamous cell carcinomas (59%) in stomach cancer (33%), in colon carcinomas (27%) and in soft tissue sarcomas (13%). These data advert to the fact that the mutation of the p53 gene is much more frequent in those tumors in which the basic tissue is directly exposed to with the environmental carcinogens. It is now known, that near the repetitive sequences, gene rearrangement can more easily be evolve. Finally, we have determined the conditions of the accomplishment of the molecular pathological diagnosis: (1) It is applicable, when the classic morphology does not eventuate a conclusive result. (2) Well known and validated gene alterations are admissible to diagnostic purpose. (3) Only standard methods are applicable along with positive and negative controls. (4) The result has to correlate with the morphological picture, the immunohistochemical profile and the clinical data. (5) It is necessary to be able to appropriately interpret the molecular biological result, which is then incorporated in the pathological report. (6) The ethical, legal and social consequences must be considered.
...
PMID:[Effect of learning about the human genome on the development of pathology]. 1497 56
The epidermal growth factor receptor (EGFR) tyrosine kinase inhibitor, gefitinib ("Iressa", ZD1839) has demonstrated anti-tumor activity in non-small cell lung cancer (NSCLC) and has been approved in over 20 countries. NSCLC has been reported to express high levels of EGFR. However, gefitinib appears to be more effective against adenocarcinoma than squamous cell carcinoma, the latter expressing more EGFR. In the present study, we evaluated the effect of gefitinib against the
small cell lung cancer
(
SCLC
) cell lines NCI-H82, NCI-H209, NCI-H510, NCI-H526 and NCI-H660.
SCLC
has been reported to express a low to undetectable level of EGFR. We compared the effects of gefitinib between cell lines with detectable and undetectable EGFR expression. First, we evaluated expression levels of EGFR and HER2/
neu
by Western blotting and immunoprecipitation respectively; EGFR protein was detected in two of the five
SCLC
cell lines, whereas HER2/
neu
was not detected in any. Next, we analyzed expression levels of phosphorylated ERK1/2 and compared these results with EGFR (HER-1/ErbB1) and HER2/
neu
(ErbB2) expression levels, as EGFR conducts signals through Ras-Raf-MAPK pathway; gefitinib inhibited phosphorylation of ERK1/2 by EGF addition in cell lines with detectable and undetectable EGFR expression. These data suggest that gefitinib is potentially effective against cancers with low EGFR expression such as
SCLC
.
...
PMID:Small cell lung cancer cells express EGFR and tyrosine phosphorylation of EGFR is inhibited by gefitinib ("Iressa", ZD1839). 1549 92
