EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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Genetic alterations of multiple loci that serve as markers for the induction and progression of disease have been identified in several adenocarcinomas, but not in adenocarcinoma of the prostate. To determine if similar genetic alterations occur in prostate carcinoma and could serve as markers for the extent of clinical disease, we have examined 23 predominantly moderately-differentiated, localized prostate carcinomas and one prostatic dysplasia for changes in the structure and copy number of ten selected genes. These genes include 1) those important to androgen metabolism in the prostate, the androgen receptor and steroid 5 alpha reductase genes; 2) those that map to the 10q (PLAU) and 7q (MET) chromosomal regions found deleted in some prostate carcinomas, and 3) proto-oncogenes (ERBB2, INT2, and MYC) and tumor suppressor gene loci (RB1, TP53 and D17S5) found altered in adenocarcinomas of the breast, colon and lung. Gene alterations were detected in one specimen, a lymph node metastasis from a poorly differentiated tumor. This specimen exhibited loss of heterozygosity for two loci putatively active in tumor suppression, TP53 and D17S5, on the short arm of chromosome 17. This study indicates that gross genetic alterations were not evident and could not be used as markers of tumor development in well- or moderately-differentiated, localized lesions, but that loss of the 17p region may be a useful marker for advanced carcinomas in the prostate.
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PMID:Loss of the 17p chromosomal region in a metastatic carcinoma of the prostate. 155 12

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.
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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.
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PMID:Oncogenes in human testicular cancer: DNA and RNA studies. 182 52

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

Based on the high incidence of loss of heterozygosity for loci on chromosome 17p in the vicinity of the p53 locus in human breast tumors, we investigated the frequency and effects of mutations in the p53 tumor suppressor gene in mammary neoplasia. We examined the p53 gene in 20 breast cancer cell lines and 59 primary breast tumors. Northern blot analysis, immunoprecipitation, and nucleotide sequencing analysis revealed aberrant mRNA expression, over-expression of protein, and point mutations in the p53 gene in 50% of the cell lines tested. A multiplex PCR assay was developed to search for deletions in the p53 genomic locus. Multiplex PCR of genomic DNA showed that up to 36% of primary tumors contained aberrations in the p53 locus. Mutations in exons 5-9 of the p53 gene were found in 10 out of 59 (17%) of the primary tumors studies by single-stranded conformation polymorphism analysis. We conclude that, compared to amplification of HER2/NEU, MYC, or INT2 oncogene loci, p53 gene mutations and deletions are the most frequently observed genetic change in breast cancer related to a single gene. Correlated to disease status, p53 gene mutations could prove to be a valuable marker for diagnosis and/or prognosis of breast neoplasia.
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PMID:Mutations in p53 as potential molecular markers for human breast cancer. 196 33

Cytogenetic studies on fresh human breast cancers revealed that homogeneously staining regions (HSRs), which are assumed to represent DNA amplification, are observed in almost half of the cases. To search for a possible relationship between HSRs and proto-oncogene amplification, 16 proto-oncogenes, including ERBB2, were studied by Southern blot analysis in four tumors with two or three HSRs, and in three tumors without HSRs. Only four proto-oncogenes were found to be amplified in at least one tumor each: HST and INT2 (x3), MYC (x2-3), and FES (x greater than 10). The large sizes of the HSRs, which each corresponded to several percent of the haploid genome, were hardly compatible with the low rate of amplification, except for FES and then only if a large adjacent segment was co-amplified. This incomplete correlation was demonstrated by in situ hybridization, using biotinylated probes, which showed fluorescent spots on only one HSR for FES in one tumor and for INT2 in another one. Our results indicate that most of the large amplifications corresponding to HSRs do not involve the proto-oncogenes usually studied in breast cancer. The large amplification of FES, detected in one tumor, may be coincidental.
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PMID:Proto-oncogene amplification and homogeneously staining regions in human breast carcinomas. 217 39

Several proto-oncogenes have been reported to be expressed in normal and malignant hematopoietic cells. Since these studies have been done almost exclusively by Northern and dot-blot analyses using mixed populations of cells, any conclusions concerning quantitative changes in gene expression are difficult to document. We have developed a rapid and sensitive RNA-in situ hybridization technique permitting detection of as few as 5 copies of mRNA per individual cell. Using this technique we have studied the expression levels of several oncogenes including MYC, SIS, FMS, p53, FOS and RAF in both normal hematopoietic cells and bone marrow (BM) cells obtained from acute myelogenous leukemia (AML) patients at presentation, at relapse and in complete remission (CR). Two of these oncogenes, MYC and SIS, are expressed at levels at least 2-5-fold higher in hematopoietic cells obtained from leukemia patients than in any normal hematopoietic cell examined, including cells obtained from regenerating bone marrow. The proportion of abnormal cells correlated well with the percentage of blast cells determined by morphological examination. In 7 out of 10 AML patients in morphological remission, a subpopulation of cells is detectable with abnormally high levels of MYC and/or SIS mRNA. These high levels of MYC expression are similar to those found in BM cells obtained from AML patients at presentation or relapse, but the percentage of cells with this abnormality is generally much lower. Continued follow-up of these patients has shown that 5 of them relapsed within 8 months. At this time, none of the 3 patients which were negative for MYC overexpression has relapsed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of minimal residual disease in acute myelogenous leukemia by RNA-in situ hybridization. 265 88

Oncogene amplification has been observed in various primary tumors and tumor-derived cell lines. In several types of cancer, amplification of specific oncogenes is correlated with the stage of tumor progression. To estimate the frequency of gene amplification in other tumor types and to determine whether the ability to grow in vivo is associated with gene amplification in tumor cell lines, we have developed a modified version of the in-gel renaturation assay that detects human DNA sequences of unknown nature amplified as little as 7- to 8-fold. This assay was used to screen 16 cell lines derived from various solid tumors and leukemias. Amplified DNA sequences were detected in only one cell line, Calu-3 lung adenocarcinoma. This cell line was found to contain coamplified NGL (formerly termed neu) and ERBA1 oncogenes. However, when one of the amplification-negative cell lines, PC-3 prostatic carcinoma, was selected for in vivo growth in nude mice, amplified DNA sequences became detectable in these cells. The amplified sequences included the MYC oncogene, which showed no amplification in the parental cell line but was amplified 10- to 12-fold in the in vivo-selected cells. MYC amplification may, therefore, provide tumor cells with a selective advantage specific for in vivo growth.
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PMID:Analysis of gene amplification in human tumor cell lines. 341 26

In order to better understand the role of transcription in cellular processing of damage in specific DNA sequences, we have used an in vitro differentiation system to modulate the activity of the MYC gene. When human HL60 promyelocytic cells differentiate in vitro, the transcriptional activity of the MYC gene is down-regulated. We have shown that in the expressed MYC gene, 56% of UV-induced cyclobutane pyrimidine dimers (CPDs) are removed within 18 h and the transcribed strand is selectively repaired. However, late in differentiation, when the MYC gene is maximally down-regulated, only 15% of the CPDs are removed within the same period. During early differentiation, the MYC gene is regulated by a block to transcription elongation at the 5' end of the first intron. Our results reveal no significant difference in the rate of CPD removal between the restriction fragments upstream and downstream of this elongation block. Furthermore, both strands of each fragment exhibit similar repair characteristics. In contrast, the constitutively expressed FMS gene exhibits proficient removal of CPD in both the differentiated and undifferentiated cells. Furthermore, the repair appears to be more proficient at the 5' end (exon 1) than in the 3' end of the gene about 35 kilobases downstream from exon 1. Since efficient repair of the active FMS gene is maintained in the differentiated cells the loss of repair competence seen in MYC is more likely associated with its reduced transcriptional activity than with a decrease in the overall repair capacity of the terminally differentiated cells.
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PMID:DNA repair in the MYC and FMS proto-oncogenes in ultraviolet light-irradiated human HL60 promyelocytic cells during differentiation. 752 33

Breast cancer can relapse both locally and at distant metastatic sites. The mechanism of local recurrence is unknown, but seems to be due not only to the number of residual cancer cells (inadequate irradiation or surgery), but also to their genetically determined malignant potential. To identify genetic alterations associated with local recurrence risk in breast carcinoma, we analyzed 28 local recurrences and 173 primary breast tumors for the ten most frequently altered genetic regions in breast carcinomas, i.e., loss of heterozygosity on chromosomal arms 1p, 3p, 7q, 11p, 17p, 17q, and 18q, and amplification of the MYC and ERBB2 protooncogenes and of genes in 11q13. Only INT2/FGF3 and CCNDI, located in 11q13, were more frequently amplified in local recurrences than in primary tumors (39% vs. 17%; P < 0.01). Moreover, recurrence-free survival was shorter when the 11q13 region was amplified. These results suggest that one or more genes located in 11q13 play an important role in local relapses of breast cancer.
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PMID:11q13 amplification in local recurrence of human primary breast cancer. 753 85

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