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)

The monoclonal antibody (MAb) 1BE12 has recently been reported to react with several human normal and abnormal tissues. In human endometrium, it reacts more strongly with carcinomas than with normal tissue. To investigate the effectiveness of MAb 1BE12 in identifying cell proliferation in human endometrial cancers, 1BE12 immunocytochemical assays (ICAs) were performed on frozen (n = 47) and paraffin (n = 100) sections with subsequent computer-assisted microcytophotometric (SAMBA) evaluation of immunoprecipitate distribution. MAb 1BE12 immunoreactivity was not impaired by tissue fixation and paraffin embedding. It reacted with normal proliferative endometrium but not with normal secretory endometrium, and immunoreactivity increased with the degree of cell proliferation and malignancy, the amount of immunostaining being greater in invasive carcinomas than in normal proliferative endometrium and endometrial hyperplasia. ICAs showed no correlation between MAb 1BE12 immunoreactivity and estrogen and progesterone receptor antigenic sites. On the other hand, MAb 1BE12 staining in frozen sections increased with Ki67, EGFR, pHER-2/neu, and cathepsin immunostaining. These findings suggest that ICAs on frozen and paraffin-embedded biopsy specimens using MAb 1BE12 along with other markers can be useful for early detection and grading of endometrial carcinoma. The relevance of MAb 1BE12 to the selection of patients for laser ablation of the endometrium rather than hysterectomy is also discussed.
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PMID:Monoclonal antibody 1BE12 immunoreactivity with human endometrium. Correlations with hormone receptors and proliferation cell markers. 177 9

Gene amplification and related alterations in gene dosage were analyzed in a series of 34 cell lines derived from different human head and neck squamous cell carcinomas (SCCHN). INT2 gene amplification was observed in 62%, MYC gene amplification in 24%, and EGFR gene amplification in 21% of the cell lines. There was a strong correlation between EGFR gene amplification and increased copies of the ERBB2 gene on chromosome 17, suggesting a synergistic selection for these two genes either during cancer progression or in culture. Two abnormalities showed a significant correlation with clinical course: MYC gene amplification showed an inverse correlation with tumor recurrence (r = -0.44, p = 0.01), and a small increase in MYCL gene copies on chromosome I correlated with the presence of metastases (r = 0.61, p = 0.001). This altered MYCL gene dosage might represent a chromosome translocation rather than true gene amplification. In addition to gene amplification, 79% of the cell lines had increased copies of chromosome 8. Comparison of the cell lines with several of the corresponding primary tumors demonstrated that most gene amplifications were already present in the primary tumors, although some appeared de novo in cell culture. These studies indicate that gene amplification, especially of INT2, is a prominent abnormality in head and neck squamous cell cancer. Aneuploidy and chromosomal lesions other than gene amplification were also found to alter the dosage of several oncogenes specifically.
Genes Chromosomes Cancer 1991 Nov
PMID:Gene amplification and gene dosage in cell lines derived from squamous cell carcinoma of the head and neck. 138 84

Oncogene dosage and expression were studied in 16 testicular neoplasms, 14 of germ cell and two of non-germ cell origin. In comparison with normal DNA, tumour DNA of a total of eight patients (seven with germ cell neoplasm and one with testicular lymphoma) showed increased dosages of KRAS2, PDGFA, EGFR, MET and PDGFB. The most frequent (occurring in six tumours) and prominent (up to 3-4-fold) increases were detected in the dosages of KRAS2 (on chromosome 12p) and PDGFA (chromosome 7p), relative to a reference locus from chromosome 2. Importantly, there was a similar increase in 12p dosage in general in these tumours, suggesting the presence of the characteristic isochromosome 12p marker. On the contrary, possible 7p polysomy (assessed by molecular methods) did not explain the PDGFA (or EGFR) changes in all cases. NRAS, MYCN, CSFIR, MYB, MYC, ABL, HRASI, TP53, and ERBB2 did not reveal any consistent alterations in tumour DNA. In RNA dot blot assays the expression of KRAS2, PDGFA, EGFR, or MYC was generally not increased in the tumour samples when compared to that in normal testicular tissue of the same patients although there was interindividual variation in mRNA levels. It thus appears that while oncogene dosage changes occur in a proportion of testis cancers, they are often part of changes in large chromosomal regions or whole arms and are seldom accompanied by altered expression.
Br J Cancer 1991 Jun
PMID:Oncogenes in human testicular cancer: DNA and RNA studies. 182 52

K-SAM gene was originally isolated as an amplified gene in a stomach cancer cell line by in-gel DNA renaturation method. K-SAM encodes a membrane receptor with tyrosine kinase and is often amplified in poorly differentiated type of stomach cancer, while c-ERBB-2 is often amplified in well differentiated type of stomach cancer. There are several forms of K-SAM mRNAs which are generated by alternative splicing, and two types of K-SAM protein without transmembrane region. The ligand of K-SAM is considered to be growth factor(s) belonging to fibroblast growth factor (FGF) or heparin binding growth factor (HBFG) family. We have also frequently found amplification of HST-1 or HSTF1 gene in esophageal cancer. HST-1 gene, originally found as a transforming gene, is located on human chromosome 11q13, and it locates 35 kbp apart from its related gene, INT-2. Neither of the genes was expressed even in cancer cells with the co-amplification. By cosmid walking, we have identified at least two genes, designated tentatively as EXP1 and EXP2, on the same amplicon as HST-1 and INT-2, and the mRNAs for EXP1 and EXP2 genes were increased in amounts proportional to the degree of amplification.
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PMID:Biological significance of gene amplification in carcinogenesis. 184 51

To refine the analysis of gene amplification in breast cancer, the authors have developed sensitive methods that can be used to screen nucleic acid prepared from a variety of sources. In their analysis, Southern hybridization and DNA dot-blot analysis were used to screen 49 breast cancer DNAs for Myc, Neu, and Int-2 gene amplification. The analysis detected minimal one extra gene copy) as well as expanded (two or more extra gene copies) gene amplifications, and in addition, distinguished between gene amplification and aneuploidy as the cause of extra gene copies. These quantitative methods were adapted to patient specimens routinely available in the anatomic pathology laboratory, including fresh tumor tissue, tumor nuclei discarded during estrogen receptor analysis, and paraffin blocks. One minimal gene amplification was found in three cases of intraductal cancer. Of 25 cases of nonmetastatic invasive cancer, 28% had at least one extra Myc gene, whereas 24% had Neu, and 21% had Int-2 gene amplification. Of 21 cases of metastatic invasive cancer, 43% had Myc, 43% had Neu, and 40% had Int-2 gene amplification. Among the nonmetastatic cancers, 47% had one, 12% had two, and 4% had three amplified genes. Within the metastatic cancers, 48% had one, 28% had two, and 5% had three amplified genes. Our data suggest relationships between tumor progression and both incidence and size of Myc, Neu, and Int-2 gene amplification.
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PMID:Oncogene amplification in breast cancer. 184 59

The mechanisms that control the biological behaviour of urothelial cancer are complex, and many regulative interactions are involved. So far, few aspects of these control mechanisms have been recognized and characterized. A precondition for better understanding is knowledge the interaction of this factors. Some markers (e.g., chromosomal aberrations, EGFR expression) are correlated with progression of tumour. Whether they are the cause or the result of the aggressive behaviour of growth remains unknown. Only a few markers, especially in flow cytometry, will have any benefit in clinical routine. Whether it is possible to find a marker with prognostic value remains uncertain.
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PMID:[Molecular biology studies of bladder cancer]. 187 35

A central issue in cancer research is how tumors evolve and acquire a more aggressive phenotype. It is a widely discussed hypothesis that tumor cell populations progress by evolutionary change as a result of the generation of a variant cell through genomic instability followed by selection of particular variant clones having a growth advantage within the particular tissue environment. Genetic instability appears to be characteristic of neoplastic cells, but no consistent increase in instability seems to accompany progression of the malignant phenotype of the tumor. It is reasonable to assume that quantitative or qualitative changes of cellular oncogenes contribute to the emergence of more malignant phenotypes. Although any one of the molecular changes of cellular oncogenes identified over the past years is a good candidate as an element in progression, amplification appears particularly frequently as a correlate to advanced tumor stage. The fact that amplification does not show up in all progressing tumors of a particular type, for instance in only 50% of advanced-stage neuroblastomas, is often construed as speaking against a role in progression. One should be aware, however, that it is the enhanced expression of a gene consequent to amplification and not amplification per se that affects the cellular phenotype. There are alternative molecular pathways by which expression of a particular gene may become deregulated. During the past decade much information has accrued about genetic alterations in tumor cells. The activation of the oncogenic potential of cellular genes can take different routes among which mutational alteration, translocation and amplification predominate. In particular, amplification has found its way to practical use due to its association with more aggressively growing types of human cancer. MYCN amplification in neuroblastoma is a paradigm for the prognostic significance of oncogene alteration, and at the same time has represented the clinical debut of oncogene research. The full significance of oncogene amplification as a predictor for poor prognosis became clear with the more recent identification of amplified ERBB2 in aggressively growing breast cancers. The state of the art is that amplified cellular oncogenes define cancer patients who have a poor prognosis and require a specific therapeutic regimen.
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PMID:Enhanced expression of the cellular oncogene MYCN and progression of human neuroblastoma. 187 94

In this study, we tested the influence of i.p. Bowman-Birk protease inhibitor (BBI) administration on oncogene expression in unirradiated and irradiated rat colonic mucosa. Total cellular RNA was collected from the colonic mucosa, and the levels of c-myc, c-fos, c-Ha-ras, c-EGFR, and c-actin mRNA were examined by standard dot and Northern blot analyses. The data demonstrate that BBI is capable of preventing radiation-induced overexpression of c-myc and c-fos without interfering with the constitutive expression of these 2 genes. It was also determined that BBI did not interfere with either radiation-induced overexpression of c-Ha-ras and c-EGFR or the constitutive expression of c-Ha-ras, c-EGFR, or c-actin. The data demonstrate that the anticarcinogenic BBI selectively inhibits the overexpression of c-myc and c-fos while not affecting crypt cell proliferation. These results suggest that a protease is involved in the pathway for enhanced c-myc and c-fos expression and that protease inhibitors such as BBI can interrupt this pathway.
Cancer Res 1991 Sep 01
PMID:Effect of the Bowman-Birk protease inhibitor on the expression of oncogenes in the irradiated rat colon. 190 49

Immunohistochemical assays have been employed to study the expression of ER, PgR, EGFR and Ki67 immunostaining in normal breast tissue (n = 76). The expression of ER and PgR was highly variable in both pre and postmenopausal women and was characterised by large numbers of apparently negative cells. This was most evident for ER-ICA staining in tissues removed from premenopausal women. PgR levels were highest in the ducts of premenopausal women, while EGFR expression was elevated in both ducts and lobules. Ki67 expression was observed in less than 10% of all normal cells and was suppressed by the menopause in lobular tissue. Tamoxifen therapy (40 mg d-1) did not influence the expression of PgR, EGFR or Ki67 immunostaining in cancer associated normal tissue (n = 17). A significant increase, however, was observed in the mean percentage ER positivity in ductal tissue. No effect of duration of tamoxifen therapy was observed on the expression of the antigens studied.
Br J Cancer 1991 Oct
PMID:Influence of the antioestrogen tamoxifen on normal breast tissue. 191 Dec 27

The human c-MET oncogene encodes a transmembrane tyrosine kinase (p190c-met) with structural and functional features of a growth-factor receptor. Monoclonal antibodies (MAbs) have been used to investigate the distribution of the c-Met protein in human normal and neoplastic tissues. By immunofluorescence microscopy homogeneous expression was detected in normal hepatocytes as well as in epithelial cells lining the stomach, the small and the large intestine. Positive staining was also found in epithelial cells of the endometrium and ovary, and in basal keratinocytes of esophagus and skin. By Northern blot analysis, high levels of c-met messenger RNA were detected in specimens of liver, gastro-intestinal tract and kidney. c-met-specific mRNA was also found in thyroid, pancreas and placenta, in which organs c-Met protein was barely detectable by immunofluorescence. The antibodies revealed expression of c-MET protein in hepatomas (11/14), carcinomas of colon and rectum (19/21), stomach (11/22), kidney (16/19), ovary (9/17) and skin (7/17). Carcinomas of the lung (13/20), thyroid (11/13) and pancreas (5/7) were also positive. In these last cases (lung, thyroid and pancreas) tumor cells were homogeneously stained by the antibodies, whereas in their normal counterparts staining was barely detectable. These data suggest that the receptor encoded by c-MET plays a physiological role in epithelial cell growth and that its expression is altered in human carcinomas.
Int J Cancer 1991 Sep 30
PMID:The receptor encoded by the human c-MET oncogene is expressed in hepatocytes, epithelial cells and solid tumors. 191 29


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