UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the relationship between the activation of the c-myc and c-K-ras proto-oncogenes and the acquisition of metastatic potential in a methylcholanthrene-induced BALB/c fibrosarcoma. The murine fibrosarcoma GR9 was originally induced in BALB/c mice following exposure to the carcinogenic chemical 3-methylcholanthrene. To induce spontaneous metastasis, we used two tumor cell clones (B9 and G2) known to differ in their metastatic potential, local tumor growth, H-2 class I expression and sensitivity to natural killer (NK) cells. The metastatic nodes were obtained from the lung, liver and kidney. The results showed: (1) amplification of the c-myc proto-oncogene in original tumor clones as well as in all metastatic nodes; (2) mRNA overexpression without amplification of the K-ras proto-oncogene in the metastatic cells, regardless of their anatomical location; (3) no c-K-ras point mutations at codons 12 and 61, and (4) in general, a statistically significantly reduced in vitro sensitivity of metastatic tumor cells to NK cells as compared with the tumor clones used to induce them (p<0.05). These results therefore suggest that overexpressed c-K-ras mRNA is important during tumor progression, perhaps rendering metastatic tumor cells more resistant to lysis by NK cells.
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PMID:c-K-ras overexpression is characteristic for metastases derived from a methylcholanthrene-induced fibrosarcoma. 1072 71

Mucin-producing tumors (MPTs) of the pancreas accompanied by carcinomas usually include various grades of dysplasia in the ductal epithelium, and invasive areas are histologically similar to those of common invasive ductal carcinomas, suggesting that MPTs provide a good tool to investigate early stages of pancreatic carcinogenesis. Thus, to clarify genetic alterations in the early stage of pancreatic carcinogenesis, we analyzed K-ras gene mutations and loss of heterozygosity (LOH) at the p53 gene locus using 37 cases of MPTs harboring dysplastic epithelium. Further, we conducted an extended, multifocal microdissection analysis focusing on the histological features of ductal epithelium and the distribution of genetic alterations for 3 cases of MPT positive for LOH of the p53 gene to determine the relation to tumor progression. K-ras gene mutations were detected with high frequency in 50% or more cases of the adenomas (14 of 19), borderline tumors (4 of 7), and carcinomas (8 of 11), whereas LOH of the p53 gene was limited to carcinomas (3 of 5 informative cases, 60%) and always accompanied by K-ras gene mutation. Investigation of a total of 126 microdissection sites from 3 cases showed the presence of K-ras gene mutations in mild dysplasia and all (100%) regions of moderate or more marked dysplasia, whereas LOH of the p53 gene showed more gradual tendency to increase with grade from moderate dysplasia. In addition, the multifocal genetic analysis showed K-ras gene mutations to be widely distributed throughout tumors, whereas LOH of the p53 gene was localized to 1 or a few areas. Further, topographically delimited areas with the same histology in the same tumor did not always show the same genetic alteration. In conclusion, we could confirm that both the K-ras and p53 gene alterations occur in the intraductal stage of MPT, and the latter is superimposed on the former during the course of tumor progression. However, the pattern of association of histological features with genetic alteration differs from tumor to tumor.
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PMID:K-ras gene mutations and loss of heterozygosity at the p53 gene locus relative to histological characteristics of mucin-producing tumors of the pancreas. 1092 15

Mutations of K-ras gene play an important role in neoplastic progression. The capillary electrophoresis-single strand conformation polymorphism (CE-SSCP) technique is available for the detection of gene mutations. Using an automated capillary electrophoresis with short-chain linear polyacrylamide, after denaturation of PCR products, injections were performed at reverse polarity of 5 kV for 15 s and the separations were carried out under a constant voltage of 8 kV. Of 16 specimens of lung cancer tissue, two specimens were found to have abnormal peaks in the electrophoretogram. CE-SSCP is rapid, automated, and has high performance.
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PMID:Single strand conformation polymorphism analysis of K-ras gene mutations by capillary electrophoresis with laser-induced fluorescence (LIF) detector. 1102 Apr 74

The t(4;14) translocation occurs frequently in multiple myeloma (MM) and results in the simultaneous dysregulated expression of 2 potential oncogenes, FGFR3 (fibroblast growth factor receptor 3) from der(14) and multiple myeloma SET domain protein/Wolf-Hirschhorn syndrome candidate gene 1 from der(4). It is now shown that myeloma cells carrying a t(4;14) translocation express a functional FGFR3 that in some cases is constitutively activated by the same mutations that cause thanatophoric dysplasia. As with activating mutations of K-ras and N-ras, which are reported in approximately 40% of patients with MM, activating mutations of FGFR3 occur during tumor progression. However, the constitutive activation of ras and FGFR3 does not occur in the same myeloma cells. Thus the activated forms of these proteins appear to share an overlapping role in tumor progression, suggesting that they also share the signaling cascade. Consistent with this prediction, it is shown that activated FGFR3-when expressed at levels similar to those seen in t(4;14) myeloma-is an oncogene that acts through the MAP kinase pathway to transform NIH 3T3 cells, which can then generate tumors in nude mice. Thus, FGFR3, when overexpressed in MM, may be not only oncogenic when stimulated by FGF ligands in the bone marrow microenvironment, but is also a target for activating mutations that enable FGFR3 to play a ras-like role in tumor progression.
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PMID:Activated fibroblast growth factor receptor 3 is an oncogene that contributes to tumor progression in multiple myeloma. 1151 Apr 69

Pancreatic ductal adenocarcinoma is a result of accumulated genetic alterations, including oncogenes such as K-ras, tumor-suppressor genes such as p53, p16 and DPC4 and genome-maintenance genes such as BRCA2, microsatellite instability and telomerase. Recent findings which characterize the molecular genetic profile of the pancreatic cancer have reshaped the nomenclature describing histological progression in pancreatic ductal tumorigenesis. K-ras mutations frequently occur early, whereas changes in the expression and genetic integrity of the p16 gene appear in intermediate lesions, and the inactivation of the p53, DPC4 genes and activation of telomerase occur late in the neoplastic progression. So far K-ras and telomerase activity have been used as molecular markers for the diagnosis of pancreatic carcinoma, whereas p53 and p16 may be a prognostic indicator of pancreatic cancer. Additional tumor-suppressor genes and the related signaling pathway such as ALK-5 are likely to be defined. In addition to the human genome project, these new advances hopefully will accelerate the development of diagnostic and screening techniques for this grave condition.
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PMID:Molecular diagnosis of pancreatic cancer. 1149 Aug 43

Adenocarcinoma of the lung is the most common form of lung cancer, but the cell of origin and the stages of progression of this tumor type are not well understood. We have developed a new model of lung adenocarcinoma in mice harboring a conditionally activatable allele of oncogenic K-ras. Here we show that the use of a recombinant adenovirus expressing Cre recombinase (AdenoCre) to induce K-ras G12D expression in the lungs of mice allows control of the timing and multiplicity of tumor initiation. Through the ability to synchronize tumor initiation in these mice, we have been able to characterize the stages of tumor progression. Of particular significance, this system has led to the identification of a new cell type contributing to the development of pulmonary adenocarcinoma.
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PMID:Analysis of lung tumor initiation and progression using conditional expression of oncogenic K-ras. 1175 30

Chronic pancreatitis causes destruction of the pancreatic gland which leads to tissue fibrosis and regenerative hyperplasia of the epithelium of pancreatic ducts and ductules. Morphological studies revealed distinct proliferative lesions in the pancreatic ducts and ductules adjacent to infiltrating adenocarcinomas of the pancreas. A stepwise progression from mild to severe dysplasia in these hyperplastic lesions has been reported. These lesions, called Pancreatic Intraepithelial Neoplasia (PanIN), harbour a number of well-characterised genetic alterations. Therefore, PanINs were defined as true clonal neoplastic lesions with minimal to moderate and severe cytological and architectural atypia. Almost all of the genetic alterations that have been identified in pancreatic adenocarcinomas have also been identified in PanIN lesions. The prevalence of genetic changes increases as the degree of cytological atypia and histological dysplasia in the PanIN lesions increases. However, some genetic abnormalities have also been found in chronic pancreatitis and normal pancreas, e. g. K-ras mutations. However, due to intratumorous heterogeneity of the genetic changes, further studies are necessary to search for more specific and homogeneous expressed molecular markers. A better understanding of the molecular genetic changes occurring during neoplastic progression in the pancreas will form the basis for future strategies of early tumour detection and improved therapy.
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PMID:[Pancreatic intraepithelial neoplasia in chronic pancreatitis]. 1175 97

Colorectal carcinogenesis is a multi-step process during which genetic and epigenetic events determine the transition from a normal cell to a malignant cell. In the past decade, intensive research led to the identification of two types of colorectal cancers that are distinct by their carcinogenesis process. The first group, named LOH (Loss of Heterozygosity) type, is characterized by allelic losses of tumor suppressor genes. The second group, called MSI (Microsatellite Instability) type, is characterized by genetic instability at microsatellite loci. In addition, recent studies suggest the four different signaling pathways, Wnt/Wingless pathway, K-ras pathway, TGF-beta pathway and p53 pathway, could be implicated in tumor progression. In this review we discuss the development of colorectal cancer on the basis of molecular biology and recent advances in research of the colorectal cancer.
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PMID:Colorectal carcinogenesis. 1176 13

Mutations in the ras genes are key events in the process of carcinogenesis; in particular, point mutations in codon 61 of exon 2 of the N-ras gene occur frequently in cutaneous melanoma. To investigate whether these mutations occur in early or late tumor progression phases, we searched for point mutations in the N- and K-ras genes in 69 primary cutaneous melanoma, 35 metastases, and seven nevocellular nevi in association with cutaneous melanoma. Lesions were microdissected in order to procure pure tumor samples from the distinctive growth phases of the cutaneous melanoma; the very sensitive denaturing gradient gel electrophoresis technique was used to visualize the mutations, and was followed by sequencing. Point mutations in the N-ras gene but not in the K-ras gene were detected on denaturing gradient gel electrophoresis. Twenty-three primary (33%) and nine metastatic (26%) melanomas showed bandshifts for N-ras. In the majority of cases, mutations occurring in early growth phases (i.e., the "intraepidermal" radial growth phase), were preserved in later growth phases (i.e., the invasive radial growth phase, vertical growth phase, and metastatic phase), which proves the clonal relationship between the successive growth phases. In three cases, however, the mutations differed between the distinctive growth phases within the same cutaneous melanoma, due to the occurrence of an additional mutation (especially in codon 61) in a later tumor progression phase. Our approach also permitted us to analyze the mutational status of nevi, associated with cutaneous melanoma. Six out of seven associated nevi carried the same sequence (mutated or wild-type) as the primary cutaneous melanoma, whereas in one case the sequence for N-ras differed between the primary melanoma and the associated nevus. In conclusion, this approach allowed us to demonstrate the clonal relationship between subsequent growth phases of melanoma and associated nevi; our results suggest that N-ras exon 1 mutations preferentially occur during early stages of tumor progression and hence may be involved in melanoma initiation, whereas those in N-ras exon 2 are found preferentially during later stages and hence are more probably involved in metastatic spread of cutaneous melanoma.
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PMID:Analysis of N- and K-ras mutations in the distinctive tumor progression phases of melanoma. 1188 12

Ovarian neoplasms display a wide range of phenotypic differentiation patterns. In the recent past, molecular genetic aberrations have been increasingly identified in various types of ovarian tumors. Granulosa cell tumors most often contain numeric chromosomal aberrations (monosomy 22, trisomy 12 and 14). Numeric changes can also be found in benign and borderline epithelial neoplasms, however without demonstrating specific patterns. K-ras mutations are characteristic for mucinous ovarian tumors and for serous borderline (LMP) tumors. In serous LMP tumors they are associated with low level microsatellite instability. Complex chromosomal aberrations are not detected in benign and borderline tumors. Invasive ovarian carcinomas show complex genetic changes. Chromosomal gains at 3q26, 8q24 and 20q13 apparently represent early lesions, whereas loss of material of chromosomes 4, 13, 16, 18 and X is associated with tumor progression and poor prognosis. The main targets of chromosomal changes are regulatory genes of cell proliferation and apoptosis (e.g. p16, cyclin D1, Rb, p53, myc, bcl-2) and members of the signaling cascade of tyrosine kinase receptors (e.g. Her-2/neu, dab-2, K-ras, PI3-K, PTEN). The genetic alterations of ovarian neoplasms described so far apparently correlate with the different level of aggressiveness. However, they do not fully explain the spectrum of phenotypic variability of these tumors.
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PMID:[Phenotype--genotype--correlation in ovarian neoplasia]. 1189 92

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