UMLS:C0007097 - FACTA Search

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Query: UMLS:C0007097 (carcinoma)
152,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Androgen receptors were quantified in nuclei from human prostate tissue and in nuclear fractions derived by exhaustive digestion with micrococcal nuclease. In nuclei from benign hypertrophic prostate (BPH), the population of androgen receptors solubilized during nucleolysis predominated whereas in carcinoma nuclei the nuclease-resistant population was in excess. This phenomenon was restricted to intranuclear deployment and could not be attributed to recompartmentalization within the cell. Receptor content could not be correlated to the expression of the cellular protooncogenes myc, H-ras, K-ras or sis, in either BPH or carcinoma. However, in both BPH and carcinoma, significant correlation was observed between nuclear androgen receptor content and expression of c-fos. Expression of c-fos was not elevated in carcinoma compared to BPH, whereas expression of c-myc was elevated in carcinoma specimens of all grades of glandular differentiation, and expression of H-ras became increasingly elevated as differentiation was lost.
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PMID:Intranuclear androgen receptor deployment and protooncogene expression in human diseased prostate. 244 4

Human papillomaviruses (HPV) are known etiological agents of benign proliferation of the skin and mucosa (papillomas and warts). They have also been implicated in the development of cervical dysplasia and anogenital carcinoma. The close association of HPV type 16 DNA with the majority of cervical carcinomas suggests the involvement of the virus in this type of cancer. We have developed an in vitro multistep model for human epithelial cell carcinogenesis. Primary human epidermal keratinocytes acquired an indefinite lifespan in response to transfection with HPV 16 DNA but did not undergo malignant conversion. Addition of Kirsten murine sarcoma virus (Ki-MSV), which contains an activated K-ras oncogene, to these cells induced morphological alterations associated with the acquisition of neoplastic properties. The frequency of transformation by Ki-MSV was markedly enhanced by the inclusion of glucocorticoid. At optimal conditions, a 125-fold stimulation was observed. These findings demonstrate the malignant conversion of human primary epithelial cells in culture by the cooperation of HPV type 16 and an activated ras oncogene and support a multistep process for neoplastic conversion. The availability of a human epithelial cell transformation model should facilitate studies of the interaction between HPV and human epithelial cells.
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PMID:Glucocorticoid-enhanced neoplastic transformation of human keratinocytes by human papillomavirus type 16 and an activated ras oncogene. 255 55

Using an in vitro amplification step (polymerase chain reaction) followed by oligonucleotide dot blot analysis, DNA samples from 29 familial polyposis coli patients (75 polyp-derived and 26 'normal' colon samples with no epithelial atypia) were screened for the presence of K-, N-, and H-ras mutations. Only 5 polyps contained ras mutations (7%)--all in K-ras codon 12. In each case 'normal' colon DNA was available and found to be negative in this assay. We also report the detection of K-ras codon 12 mutations in a stably non-tumorigenic immortal adenoma-derived cell line, PC/AA, and in a tumorigenic colorectal carcinoma cell line, PC/JW. Both epithelial cell lines were derived from different FPC patients. An activated K-ras gene was also found in cell line S/AN, isolated from a sporadic villous adenoma. These results provide further evidence that there are common molecular events involved in sporadic and hereditary colorectal carcinogenesis and that K-ras mutations can precede the development of malignancy. To our knowledge PC/AA is the first reported example of a human cell line bearing a mutant ras gene that is not tumorigenic and shows that the presence of an activated ras gene even in an immortal human cell line is insufficient for malignancy.
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PMID:A study of ras gene mutations in colonic adenomas from familial polyposis coli patients. 257 69

Fischer 344/Ncr rats of both sexes were subjected to partial hepatectomy and then initiated 21-24 h later by a single injection of methyl(acetoxymethyl)nitrosamine at 0.1 mmol/kg body weight via the portal vein. Beginning 3 weeks later, development of hepatocellular neoplasms in initiated rats was promoted by feeding 0.05% phenobarbital (PB) in the diet. Not only intrahepatic lesions but also a variety of extrahepatic tumors were induced. High-molecular-weight DNAs were prepared from 67 samples of grossly normal liver containing multiple preneoplastic foci/areas of microscopic dimensions, 137 hepatocellular adenomas (nodules), 93 hepatocellular carcinomas (HCC), 10 cholangiomas, and 25 extrahepatic tumors in 95 rats and tested for transforming activity in the NIH 3T3 transfection assay. DNA preparations from 7 of 93 HCCs, 2 of 10 cholangiomas, 2 of 137 nodules, 1 histiocytic sarcoma, and 1 thyroid carcinoma were positive in the transfection assay. Southern blot analysis showed that NIH 3T3 transformants induced by DNA from 5 HCCs, 1 hepatocellular adenoma, 1 cholangioma, 1 histiocytic sarcoma, and 1 thyroid carcinoma contained an activated K-ras gene of rat origin. Rat-derived H-ras was identified in transformants from 2 additional HCCs and rat c-raf from 1 hepatocellular adenoma. The transforming gene from one cholangioma showed no sequence homology to the ras genes, neu, or c-raf. Immunoprecipitation analysis of ras Mr 21,000 protein in 11 transformants indicated that, based upon protein electrophoretic mobilities, activation of the ras genes consistently resulted from mutations in codon 12 of these genes. Selective oligonucleotide analysis revealed that a G----A transition in the second base of codon 12 of K-ras was present in the 9 K-ras-positive transformants and also in DNAs prepared from the original tumors. In contrast, oligonucleotide hybridization experiments with DNAs from 35 hepatocellular tumors that were negative in transfection assays revealed the presence of mutant K-ras in 1 of 15 HCCs; no mutation could be detected in 20 transfection-negative adenomas. The infrequency of detection of a specific oncogene, more frequent detection of oncogenes in malignant tumors, and failure to observe activated oncogenes in preneoplastic lesions suggest that activation of ras oncogenes may occur as a late and infrequent event in the evolution of some rat hepatocellular neoplasms and that mutation of a specific ras locus is not an obligatory early event in the genesis of these neoplasms.
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PMID:Infrequent activation of K-ras, H-ras, and other oncogenes in hepatocellular neoplasms initiated by methyl(acetoxymethyl)nitrosamine, a methylating agent, and promoted by phenobarbital in F344 rats. 264 46

To define the role of cellular oncogenes in human cancers, we studied the prevalence of mutational activation of ras oncogenes in untreated non-small-cell lung cancer. Genomic DNA was extracted from 39 tumor specimens obtained by thoracotomy and was examined for activating point mutations in codons 12, 13, and 61 of the H-ras, K-ras, and N-ras genes. A novel, highly sensitive assay based on oligonucleotide hybridization following an in vitro amplification step was employed. The K-ras gene was found to be activated by point mutations in codon 12 in 5 of 10 adenocarcinomas. Two of these tumors were less than 2 cm in size and had not metastasized. No ras gene mutations were observed in 15 squamous-cell carcinomas, 10 large-cell carcinomas, 1 carcinoid, 2 metastatic adenocarcinomas from primary tumors outside the lung, and 1 small-cell carcinoma. An approximately 20-fold amplification of the unmutated K-ras gene was observed in a tumor that proved to be a solitary lung metastasis of a rectal carcinoma. We conclude that mutational K-ras activation may be an important early event in the pathogenesis of adenocarcinoma of the lung but that amplification of ras genes or mutational activation of H-ras or N-ras does not play a major part in non-small-cell lung cancer.
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PMID:Mutational activation of the K-ras oncogene. A possible pathogenetic factor in adenocarcinoma of the lung. 304 Dec 18

It has been well established that specific alterations in members of the ras gene family, H-ras, K-ras and N-ras, can convert them into active oncogenes. These alterations are either point mutations occurring in either codon 12, 13 or 61 or, alternatively, a 5- to 50-fold amplification of the wild-type gene. Activated ras oncogenes have been found in a significant proportion of all tumors but the incidence varies considerably with the tumor type: it is relatively frequent (20-40%) in colorectal cancer and acute myeloid leukemia, but absent or present only rarely in, for example, breast tumors and stomach cancer. No correlation has been found, yet, between the presence of absence of an activated ras gene and the clinical or biological features of the malignancy. The activation of ras oncogenes is only one step in the multistep process of tumor formation. The presence of mutated ras genes in benign polyps of the colon indicates that activation can be an early event, possibly even the initiating event. However, it can also occur later in the course of carcinogenesis to initiate for instance the transition of a benign polyp of the colon into a malignant carcinoma or to convert a primary melanoma into a metastatic tumor. Apparently, the activation of ras genes is not an obligatory event but when it occurs it can contribute to both early and advanced stages of human carcinogenesis.
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PMID:The ras gene family and human carcinogenesis. 328 42

To establish well-characterized cellular reagents for the study of colon carcinoma, we have examined 19 human colorectal carcinoma cell lines with regard to morphology, ultrastructure, expression of tumor-associated antigens, proliferative capacity in vitro, anchorage-independent growth, oncogene expression, tumorigenicity and malignant potential. Cell lines examined were cultured under identical conditions, and in vitro and in vivo analyses were performed in parallel on replicate cultures. Three classes of colorectal cell lines were defined according to their tumorigenicity in nude mice. Class-1 lines formed rapidly progressing tumors in nearly all mice at an inoculum of 10(6) cells. Cell lines belonging to class-2 were less tumorigenic, producing tumors later and at a slower growth rate. Class-3 lines were non-tumorigenic under all experimental conditions tested. By Northern analysis, the oncogenes c-myc, H-ras, K-ras, N-ras, myb, fos and p53 were expressed in nearly all cell lines examined. In contrast, transcripts for abl, src and ros were not detected. The best in vitro predictor of tumorigenicity was colony formation in soft agar. There was no detectable correlation between tumorigenicity and metastatic potential, doubling time in vitro, production of tumor-associated markers, xenograft histology or expression of specific oncogenes.
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PMID:Biological characterization and oncogene expression in human colorectal carcinoma cell lines. 333 74

The human H-ras protooncogene was shown to be expressed in 16 of 22 invasive ductal carcinomas of the breast. The K- and N-ras protooncogenes were either not expressed or expressed at low levels. No amplification or rearrangement of the three ras genes was detected among the 104 breast carcinoma DNAs tested. These results indicate that the overexpression of H-ras in human breast tumors is not correlated with alteration of the protooncogene. In addition, we did not find any point mutation at the codon 12 of the H-ras or K-ras protooncogenes in 32 and 64, respectively, tumor DNAs examined. However, in tumor DNAs from 14 of 51 patients, heterozygous for H-ras-1 related BamHI restriction fragments, one allele was lost. This allele loss did not alter ras Mr 21,000 protein expression. Correlation with clinicopathological data showed, however, that the loss of one H-ras-1 allele in breast carcinoma DNAs is significantly linked to histological Grade III tumors, the lack of estrogen and/or progesterone receptors, and the subsequent occurrence of distal metastasis. Our results thus indicate that the loss of one H-ras-1 allele correlates with the most aggressive primary carcinomas of the breast.
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PMID:Loss of a c-H-ras-1 allele and aggressive human primary breast carcinomas. 352 19

After looking back upon the progress in both basic and clinical lung cancer researches in the past twenty-some years, what is to come in the future was anticipated. In the diagnostic field, interpretation of chest X-ray films became more accurate, scraping cytology for peripheral carcinoma was developed, and then fiberoptic bronchoscope was devised, all of which contributed to more accurate diagnosis of lung cancer. In lung cancer therapy, extended surgery and bronchoplasty were introduced, resulting in an increase in the 5 year survival rate. Chemotherapy for small cell carcinoma was much improved. Pathologically, adenocarcinoma and squamous cell carcinoma of the peripheral type appear to have increased in incidence. In the field of basic research, both K-ras and myc-oncogenes were found to be amplified in a case of giant cell carcinoma. Several human monoclonal antibodies were produced, each of which has some interesting characteristics. In the future, the results of basic researches will be applied to prevention, diagnosis and therapy, hopefully reducing the morbidity and mortality of lung cancer.
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PMID:[Progress and prospect in basic and clinical lung cancer researches]. 632 98

Three distinct transforming genes present in human tumor cell lines are all related to the viral oncogenes of Harvey and Kirsten murine sarcoma viruses, designated v-H-ras and v-K-ras, respectively. The transforming gene of a bladder carcinoma cell line has been shown to be a human homolog to v-H-ras [Parada, L. F., Tabin, C. J., Shih, C. & Weinberg, R. A. (1982) Nature (London) 297, 474-478; Santos, E., Tronick, S. R., Aaronson, S. A., Pulciani, S. & Barbacid, M. (1982) Nature (London) 298, 343-347]. The transforming gene common to one colon (SK-CO-1) and two lung carcinoma (SK-LU-1 and Calu-1) cell lines is the same human homolog of v-K-ras as is the transforming gene previously identified in a lung carcinoma cell line Lx-1 [Der, C. J., Krontiris, T. G. & Cooper, G. M. (1982) Proc. Natl. Acad. Sci. USA 79, 3637-3640]. The transforming gene of SK-N-SH neuroblastoma cells is weakly homologous to both v-H-ras and v-K-ras. NIH 3T3 cells transformed with the SK-N-SH transforming gene contain increased levels of a protein serologically and structurally related to the protein products of the v-H-ras and v-K-ras genes. Therefore, it represents a third member of the ras gene family, which we have called N-ras. Based on the homology with the v-ras genes, we have established the orientation of transcription and approximate coding regions of the cloned human K-ras and N-ras genes.
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PMID:Three human transforming genes are related to the viral ras oncogenes. 657 64

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