UMLS:C0699790 - FACTA Search

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Query: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human colorectal carcinomas frequently express elevated levels of c-myc mRNA in the absence of a gross genetic change at the c-myc locus. To test the hypothesis that these tumors are defective in a gene function necessary for the regulation of c-myc expression, we fused an osteosarcoma cell line that exhibits normal c-myc regulation with two colon carcinoma cell lines that express deregulated levels of c-myc mRNA. The levels of c-myc transcripts in all of the hybrid clones examined were normal and were induced normally by a mitogenic stimulus. Since rates of c-myc mRNA turnover in the colon carcinoma cells were found to be comparable to those in normal cells, increased message stability cannot account for the increased steady-state levels of transcripts. Our findings suggest that loss of function of a trans-acting regulator is responsible for the deregulation of c-myc expression in a major fraction of colorectal carcinomas. Analysis of restriction fragment length polymorphisms in tumor/normal tissue pairs from patients with primary colorectal lesions indicated that deregulation of c-myc expression in the tumors is correlated with frequent loss of alleles of syntenic markers on chromosome 5q; allele loss on 5q could be detected in 9 of 19 tumors expressing deregulated levels of c-myc mRNA, but not in any of 8 tumors expressing normal levels of c-myc RNA. Chromosome 5q is the region known to contain the gene for familial adenomatous polyposis, an inherited predisposition to colon cancer. These findings, together with the earlier finding that the colonic distribution of tumors exhibiting deregulated c-myc expression is similar to that reported for familial polyposis, provide evidence that loss of function of the familial adenomatous polyposis gene is involved in a subset of colorectal cancers in which c-myc expression is deregulated.
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PMID:Evidence that the familial adenomatous polyposis gene is involved in a subset of colon cancers with a complementable defect in c-myc regulation. 254 67

A rat model of 5-azoxymethane induced colon cancer was studied in order to correlate histopathological changes and the differential distribution of the c-myc protein. Weanling Fisher 344 rats were injected with three, one week apart, subcutaneous injections of 5-azoxymethane (AOM) (15 mg kg-1) and the animals were divided into low and high fat diet groups. Nine colon tumors, of varying degrees of malignancy, that developed in the AOM-treated rats, and sections of normal colonic mucosa were examined. A rabbit polyclonal anti-c-myc antibody produced nuclear staining at 1:100 dilution in cryostat frozen sections of the normal rat colonic mucosa and the colon tumors when prepared with a Cryostat Frozen Sectioning Aid (CFSA). The tissue localization of the c-myc antibody staining revealed: (1) in normal mucosa, nuclei of the basal portion of the mucosa; (2) in adenomatous polyps, nuclei at all levels of the mucosa; and (3) in a carcinoma in situ, intense staining of glandular epithelial cell nuclei at all levels within the tumor. This procedure may provide a sensitive method for detecting abnormal cells in the colonic epithelium that have an altered proliferative capacity.
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PMID:Distribution of the c-myc oncoprotein in normal and neoplastic tissues of the rat colon. 257 72

Cell dysplasia in polyps and in ulcerative colitis are thought to be the pre-cancerous lesion leading to invasive colon cancer. Many polyps and dysplastic lesions in ulcerative colitis have phenotypic changes (blood group antigen, cytokeratins, CEA, TAG-72.3 antigen expression) and genetic changes (c-K-ras mutation, enhanced c-myc expression and pp60c-src activity) which are characteristic of invasive cancers. Thus, these early pre-cancerous lesions may be a late stage in the genetic evolution of colon cancer.
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PMID:Phenotypic and genetic alterations in pre-cancerous cells in the colon. 305 55

High levels of c-myc mRNA were observed in two human tumor cell lines, a giant cell carcinoma of the lung (C-Lu99) and a colon cancer (C1). The increased expression of c-myc in these cell lines, which was comparable with those in cell lines in which the c-myc gene is amplified, was not due to gene amplification. Run-on transcription revealed that the transcriptional rate of the c-myc gene was greatly increased in these cell lines.
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PMID:Increased expression of the c-myc gene without gene amplification in human lung cancer and colon cancer cell lines. 308 86

Six colon cancer cell lines, 13 colon tumors and ten normal colon tissues were analyzed for RNA expression using probes for c-myc, c-k-ras, c-myb, and c-fos and for the p53, TGF-alpha, and EGF receptor genes. No aberrant transcripts were detected. Levels of expression in tumors ranged from two-fold below that of normal tissue when the v-fos probe was used to 10 fold above the normal level when the c-myc probe was used. Enhanced c-myc expression was also observed in the cell lines. Southern and DNA dot blot analyses revealed c-myc amplification in three of the six cell lines.
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PMID:Oncogene expression in adenocarcinomas of the colon and in colon tumor-derived cell lines. 328 75

To determine the frequency and clinical significance of oncogene abnormalities in colon cancer, deoxyribonucleic acids from 45 colon carcinomas and 15 benign adenomas were hybridized with 14 different protooncogene probes. Abnormalities of oncogenes were found in 22% of cancers at the time of resection. Amplification of c-myc or c-erbB-2 and allelic deletion of c-ras-Ha or c-myb were the most frequent abnormalities. The presence of altered oncogenes did not correlate with Dukes' stage, tumor progression, or patient survival after resection. One adenoma had an allelic deletion of the c-myb oncogene which was not seen in either the normal colon or an adjacent carcinoma. These data indicate that the spectrum of altered protooncogenes in colon carcinoma is similar to that of other adenocarcinomas, and that unstable oncogenes can be found before overt malignancy develops.
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PMID:Protooncogene abnormalities in colon cancers and adenomatous polyps. 355 13

The expression of c-myb, c-myc, histone H3, and ornithine decarboxylase genes was examined by Northern blot analysis in the normal and neoplastic mucosa of ten subjects affected by colon cancer. The mRNA levels of c-myb protooncogene were detected at low levels in all normal samples but were increased in the neoplastic mucosa of six cases in comparison to the normal counterpart. In five of these six cases the mRNA levels of c-myc, histone H3, and ornithine decarboxylase mRNAs were also increased, suggesting that there is a relation between the high expression of c-myb and the fraction of cycling neoplastic cells.
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PMID:Expression of c-myb protooncogene and other cell cycle-related genes in normal and neoplastic human colonic mucosa. 365 34

Genetic changes involving the c-myc oncogene have been observed in human tumours. In particular, the c-myc gene is translocated in Burkitt's lymphoma and is amplified in the human promyelocytic leukaemia cell line, HL-60, which contains double minute chromosomes (DMs). More recently, an amplified c-myc gene has been positioned on a chromosomal homogeneous staining region (HSR) in a human colon cancer cell line, COLO 320, with neuroendocrine properties. Furthermore, c-myc is expressed in increased amounts in some human tumour lines, and in some cases, human small cell lung cancers (SCLC) contain DMs and HSRs. These findings prompted us to study the c-myc gene and its RNA expression in a series of human lung cancer cell lines. We now report amplification and expression of the c-myc oncogene in a system other than B-cell lymphomas, namely human lung cancer. Of 18 human lung cancer cell lines tested, 8 showed an amplified 12.5-kilobase (kb) EcoRI c-myc DNA band. Of particular interest are five SCLC lines with a high degree of c-myc DNA amplification (20-76-fold) and greatly increased levels of c-myc RNA. All five lines reside in the variant class of SCLC (SCLC-V) characterized by altered morphology, lack of expression of some SCLC-differentiated functions and more malignant behaviour than pure SCLC. Three of the five lines which have been karyotyped also contain DMs or HSRs. The finding of a greatly amplified c-myc gene in all cell lines of the SCLC-V class examined strongly suggests a role for the c-myc gene in the phenotypic conversion and malignant behaviour of human lung cancer.
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PMID:Amplification and expression of the c-myc oncogene in human lung cancer cell lines. 664 1

In the present study we used monoclonal antibodies to investigate the expression of phosphotyrosine, c-myc and c-Ha-ras proteins along the crypt continuum of normal and transformed rat colon tissue. Colon cancer was induced by administration of dimethylhydrazine. Particular attention was focused on the immunohistochemical pattern of murine colon mucosa during preneoplastic stages so as to permit the identification of putative changes in the expression/location of the oncoproteins prior to frank neoplasia. The immunohistochemical analysis of tyrosinephosphorylated proteins in the normal rat indicated that positive staining was mostly restricted to the lower colonic crypt zones. The carcinogenetic insult altered the magnitude and positional profile of phosphotyrosine along the colon crypt axis during the preneoplastic period. An intense positive reaction was observed in the upper crypt regions. Four weeks following the last DHM administration, viz. before tumor appearance, positive staining was evident in invasive adenocarcinoma tissue. In contrast to phosphotyrosine, the feeble c-myc immunohistochemical staining of normal rat colonic did not exhibit a focal topology. However, following DMH administration and prior to frank neoplasia, a substantial increase in the staining intensity for c-myc was noted, confined mostly to the supranuclear region of luminal cells. Invasive adenocarcinomas displayed intense cytoplasmic c-myc immunoreactivity. p21 c-Ha-ras expression and location along the colon crypt axis showed a different pattern when compared to p62 c-myc and phosphotyrosine. The p21 c-Ha-ras protein was prominently expressed in surface epithelium of normal and DMH-treated rats. Midcrypt colonocytes exhibited moderate p21 ras staining; in contrast, proliferating colonic cells resident in the lower crypt regions were consistently negative. These results suggest that c-Ha-ras gene product plays an important contributory role in determining the differentiated phenotype of the colonic cell.
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PMID:Phosphotyrosine, p62 c-myc and p21 c-Ha-ras proteins in colonic epithelium of normal and dimethylhydrazine-treated rats: an immunohistochemical analysis. 753 85

Antisense oligodeoxynucleotides (oligo) have been used to inhibit oncogene expression and have potential therapeutic applications. Using a 15-mer antisense phosphorothioate oligo (S-oligo), inhibition of c-myc oncogene expression and cellular proliferation is studied in two cell lines with c-myc overexpression: a colon cancer cell line (Colo 320 DM) and a promyelocytic leukemic cell line(HL-60). Quantitative analysis of c-myc mRNA transcript is performed by competitive reverse transcription-polymerase chain reaction (RT-PCR). This utilizes an RNA competitive reference standard (CRS RNA) template that is identical to the native c-myc mRNA except for a short segment deletion to allow for differentiation of the two by gel electrophoresis. A fixed quantity of test mRNA and a series of known concentrations of CRS RNA template placed in the same test tubes under identical conditions are reverse transcribed and amplified by PCR. Since the reaction is competitive, the ratio of the PCR products reflects the ratio of the initial concentrations of the two templates. After gel electrophoresis, the two PCR products are quantified densitometrically. Treating Colo 320 DM and HL-60 cells with c-myc antisense oligo and S-oligo results in a 20- to 100-fold decrease in c-myc mRNA transcripts, respectively. This inhibition is dose dependent and sequence specific (c-myc sense and missense oligo have no effects). The quantitative decrease in c-myc mRNA is associated with corresponding inhibition of c-myc oncoprotein synthesis as demonstrated by flow cytometry and Western blots. Furthermore, there is inhibition of cellular proliferation of the respective cell lines.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quantifying c-myc expression in c-myc antisense phosphorothioate oligodeoxynucleotide-treated leukemic and colon cancer cell lines. 756 22

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