Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C1326912 (tumorigenesis)
57,481 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of ras mRNA levels in 27 human sporadic breast cancer specimens was examined, and compared to the corresponding adjacent normal tissue using the RT-PCR technique. Eighteen out of the 27 specimens (67%) exhibited two- to four-fold increased expression of ras mRNA levels, compared to corresponding normal tissue. The rates of augmented mRNA expression were similar among the three ras genes. A statistically significant correlation of overexpression of ras genes in specimens classified as Stage I disease was observed, compared to tumors in a more advanced stage (II or III). The incidence of codon 12 point mutations of the K-ras gene in fresh tissue samples was also assessed in 61 human sporadic breast cancer cases. Point mutations were detected in four (6.5%) out of the 61 cases examined; no correlation was found with any clinicopathological parameter. This is the first report to our knowledge of the differential expression of the ras family genes in breast carcinoma. Our findings indicate that the aberrant expression of ras genes may be an initial event in breast cancer oncogenesis and that K-ras point mutations are rarely involved in the development of mammary neoplasias.
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PMID:Differential expression and mutation of the ras family genes in human breast cancer. 979 21

It is widely recognized that various oncogenes and tumor suppressor genes contribute to tumorigenesis and progression of osteosarcomas. However, whether genetic alternations enable us to predict the prognosis of patients with osteosarcomas is unclear. Southern blotting and polymerase chain reaction/single strand conformation polymorphism (PCR-SSCP) analyses were performed to search for MDM2, ras family and p53 gene alterations in 17 patients with high-grade osteosarcomas. Amplification of the MDM2 gene was found in three tumors, two of which were obtained from a regional lymph node metastasis and the other from a locally advanced lesion. Point mutations of the p53 gene were found in exons 4 and 5 in two tumors each. One of the four tumors with p53 mutations was obtained from a lymph node metastasis, one from a recurrent tumor and another from the primary tumor of a patient who developed lung metastases. Coexistence of MDM2 amplification with point mutation of the p53 gene was observed in two tumors. A point mutation of the K-ras oncogene was detected at codon 13 in two tumors. MDM2 amplification and p53 mutation may reflect tumor progression, although no correlation between alteration and response to chemotherapy or patient survival was demonstrated.
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PMID:Clinicopathologic implications of MDM2, p53 and K-ras gene alterations in osteosarcomas: MDM2 amplification and p53 mutations found in progressive tumors. 979 60

Gliomas were induced in adult male Sprague-Dawley rats by continuous exposure to 100 ppm of N-nitrosmethylurea (MNU) in drinking water. Latency periods for such tumors were 20 and 50 weeks following completion of exposure intervals of 20, 15, and 10 weeks, respectively. Based on histomorphology and the pattern of GFAP immunoreactivity, a large percentage of MNU-induced tumors (>40%) were anaplastic mixed gliomas, having both neoplastic astrocytic and oligodendroglial components. Typical oligodendrogliomas and astrocytomas also occurred less frequently. Unlike the majority of tumors induced by ethylnitrosourea (ENU), MNU yielded glial tumors that did not express synaptophysin. Anaplastic mixed gliomas and glioblastoma multiforme (GBMs) had no missense p53 mutations in the commonly mutated exons 4 through 8 and did not overexpress wild-type p53, suggesting that MNU-induced oncogenesis in rat brain tumors may not require inactivation/alteration of the p53 tumor suppressor gene. The K-ras gene was also analyzed and found to have no activating mutations in brain tumors. This model is suitable for studying genetic events leading to the majority of gliomas that apparently express functional p53.
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PMID:Glial tumors in the MNU rat model: induction of pure and mixed gliomas that do not require typical missense mutations of p53. 982 42

Pancreatic adenocarcinoma is a leading cause of adult cancer mortality in the United States. Recent studies have revealed that point mutation of the K-ras oncogene is a common event in pancreatic cancer, and oncogenesis mediated by Ras may also involve activation of Rel/nuclear factor (NF)-kappa B transcription factors. Furthermore, the c-rel member of Rel/NF-kappa B transcription factor family was first identified as a cellular homologue of the v-rel oncogene, suggesting that other members of the Rel/NF-kappa B family are potentially oncogenes. We therefore investigated the possibility that Rel/NF-kappa B transcription factors are activated in pancreatic cancer. Immunohistochemical analysis, Western blot and Northern blot analysis, electrophoretic mobility shift assays, and chloramphenicol acetyltransferase assays were performed to determine RelA activity in human pancreatic adenocarcinomas and normal tissues and nontumorigenic or tumorigenic cell lines. RelA, the p65 subunit of NF-kappa B, was constitutively activated in approximately 67% (16 of 24) of pancreatic adenocarcinomas but not in normal pancreatic tissues. Constitutive RelA activity was also detected in 9 of 11 human pancreatic tumor cell lines but not in nontumorigenic Syrian golden hamster cell lines. I kappa B alpha, a previously identified NF-kappa B-inducible gene, was overexpressed in human pancreatic tumor tissues and cell lines, and RelA activation could be inhibited by curcumin and dominant-negative mutants of I kappa B alpha, raf, and MEKK1. This is the first report demonstrating constitutive activation of RelA in nonlymphoid human cancer. These data are consistent with the possibility that RelA is constitutively activated by the upstream signaling pathway involving Ras and mitogen-activated protein kinases in pancreatic tumor cells. Constitutive RelA activity may play a key role in pancreatic tumorigenesis through activation of its downstream target genes.
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PMID:The nuclear factor-kappa B RelA transcription factor is constitutively activated in human pancreatic adenocarcinoma cells. 991 9

About 90% of human pancreatic cancers carry K-ras point mutation, which may play an important role in tumorigenesis. We investigated the inhibitory effects of anti-sense oligonucleotides targeting K-ras point mutation on the growth of cultured human pancreatic cancer cells. Eight human pancreatic cancer cell lines were screened for K-ras codon 12 point mutations by PCR-RFLP analysis and direct sequencing. Then, 3 cell lines with the major types of K-ras point mutation, i.e.,HuP-T1, HuP-T3 and PANC-1, and 1 without mutation, BxPC-3, were used for the experiments. Seventeen mer anti-sense oligonucleotides were designed, targeting the point mutation of K-ras codon 12, and transfected into the cells by the liposome-mediated method. Cell-growth activities were estimated by MTT assay. Levels of K-ras mRNA expression were determined using quantitative RT-PCR, and K-ras p21 protein synthesis was evaluated with Western blotting. Mutation-matched anti-sense oligonucleotides effectively inhibited the growth of these pancreatic cancer cell lines, except for BxPC-3, by suppressing K-ras mRNA expression and K-ras p21 protein synthesis. Moreover, mutation-matched anti-sense oligonucleotides showed stronger anti-proliferative effects than did mutation-mismatched ones. Our results suggest that anti-sense therapy specific to point mutations of K-ras mRNA is a practical approach to selective suppression of tumor growth, with little effect on normal cells.
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PMID:Growth inhibition of human pancreatic cancer cell lines by anti-sense oligonucleotides specific to mutated K-ras genes. 993 56

The pathobiology of precursor lesions leading to invasive pancreatic adenocarcinoma remains a controversial area, but knowledge of the mechanisms of tumorigenesis may lead to possibly earlier detection, prevention, and treatment in the future. We hypothesize that ductal hyperplasia and dysplasia of the pancreas represent precursor lesions and are part of a continuous developmental spectrum evolving into ductal adenocarcinoma of the pancreas. To further define this sequence, we studied the immunohistochemical markers HER-2/neu, K-ras, and p53 in 15 adenocarcinomas and 15 nonmalignant specimens of the pancreas. The 15 nonmalignant specimens of the pancreas included both normal pancreas and chronic pancreatitis. Overall, HER-2/neu was positive in normal ducts, ductal hyperplasia, dysplasia, and carcinoma cells in 0 of 30, 11 of 20 (55%), 10 of 15 (67%), and 12 of 15 (80%), respectively, with progressive increase in the intensity of staining; p53 was positive in 1 of 30 (3%), 0 of 20, 3 of 15 (20%), and 13 of 15 (80%), respectively, and K-ras was positive in 1 of 30 (3%), 6 of 20 (30%), 11 of 15 (73%), and 8 of 15% (53%), respectively. These data support the hypothesis that ductal hyperplasia and dysplasia of the pancreas represent precursor lesions, and, in a fashion similar to that in colorectal tumorigenesis, pancreatic cancer seems to accumulate progressive genetic alterations.
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PMID:Immunohistochemical evaluation of K-ras, p53, and HER-2/neu expression in hyperplastic, dysplastic, and carcinomatous lesions of the pancreas: evidence for multistep carcinogenesis. 1002 38

4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), a tobacco-specific nitrosamine, induces lung adenomas in A/J mice, following a single intraperitoneal (i.p.) injection. However, inhalation of tobacco smoke has not induced or promoted tumors in these mice. NNK-induced lung tumorigenesis is thought to involve O6-methylguanine (O6MeG) formation, leading to GC-->AT transitional mispairing and an activation of the K-ras proto-oncogene in the A/J mouse. NNK can be metabolized by several different cytochromes P450, resulting in a number of metabolites. Formation of the promutagenic DNA adduct O6MeG is believed to require metabolic activation of NNK by cytochrome P450-mediated alpha-hydroxylation of the methylene group adjacent to the N-nitroso nitrogen to yield the unstable intermediate, methanediazohydroxide. Nicotine, cotinine (the major metabolite of nicotine), and aqueous cigarette tar extract (ACTE) have all been shown to effectively inhibit metabolic activation of NNK to its mutagenic form, most likely due to competitive inhibition of the cytochrome P450 enzymes involved in alpha-hydroxylation of NNK. The objective of the current study was to monitor the effects of cotinine and cigarette smoke (CS) on the formation of O6MeG in target tissues of mice during the acute phase of NNK treatment. To test the effect of cotinine, mature female A/J mice received a single intraperitoneal injection of NNK (0, 2.5, 5, 7.5, or 10 mumole/mouse) with cotinine administered at a total dose of 50 mumole/mouse in 3 separate i.p. injections, administered 30 min before, immediately after, and 30 min after NNK treatment. To test the effect of whole smoke exposure on NNK-related O6MeG formation, mice were exposed to smoke generated from Kentucky 1R4F reference cigarettes at 0, 0.4, 0.6, or 0.8 mg wet total particulate matter/liter (WTPM/L) for 2 h, with a single i.p. injection of NNK (0, 3.75, or 7.5 mumole/mouse) midway through the exposure. Cigarette smoke alone failed to yield detectable levels of O6MeG. The number of O6MeG adducts following i.p. injection of NNK was significantly (p < 0.05) reduced in both lung and liver by cotinine and by cigarette smoke exposure. Our results demonstrate that NNK-induced O6MeG DNA adducts in A/J mice are significantly reduced when NNK is administered together with either cotinine, the major metabolite of nicotine, or the parental complex mixture, cigarette smoke.
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PMID:The effect of cotinine or cigarette smoke co-administration on the formation of O6-methylguanine adducts in the lung and liver of A/J mice treated with 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) 1004 51

Human methylguanine-DNA methyltransferase (MGMT) transgenic mice expressing high levels of O6-alkylguanine-DNA alkyltransferase (AGT) in lung were crossbred to A/J mice that are susceptible to pulmonary adenoma to study the impact of O6-methylguanine (O6mG)-DNA adduct repair on NNK-induced lung tumorigenesis. Expression of the chimeric human MGMT transgene in lung was identified by northern and western blot analysis, immunohistochemistry assay and enzymatic assay. AGT activity was 17.6 +/- 3.2 versus 1.2 +/- 0.4 fmol/microg DNA in lung of MGMT transgenic mice compared with non-transgenic mice. Immunohistochemical staining with anti-human AGT antibody showed that human AGT was expressed throughout the lung. However, some epithelial cells of bronchi and alveoli did not stain for human AGT, suggesting that the human MGMT transgene expression was heterogeneous. After 100 mg/kg NNK i.p. injection in MGMT transgenic mice, lung AGT activity remained much higher and levels of lung O6mG-DNA adducts in MGMT transgenic mice were lower than those of non-transgenic mice. In the tumorigenesis study, mice received 100 mg/kg NNK at 6 weeks of age and were killed 44 weeks later. Ten of 17 MGMT transgenic mice compared with 16 of 17 non-transgenic mice had lung tumors, P < 0.05. MGMT transgenic mice had lower multiplicity and smaller sized lung tumors than non-transgenic mice. Moreover, a reduction in the frequency of K-ras mutations in lung tumors was found in MGMT transgenic mice (6.7 versus 50% in non-transgenic mice). These results indicate that high levels of AGT expressed in mouse lung reduce lung tissue susceptibility to NNK-induced tumorigenesis due to increased repair capacity for O6mG, subsequently, decreased mutational activation of K-ras oncogene. Heterogeneity in the level of AGT expressed in different lung cell populations or other forms of carcinogenic DNA damage caused by NNK may explain the residual incidence of lung tumors in MGMT transgenic mice.
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PMID:Reduced lung tumorigenesis in human methylguanine DNA--methyltransferase transgenic mice achieved by expression of transgene within the target cell. 1006 65

Carcinogenesis is a multistep process in which many alterations in both genetic and epigenetic controls lead to a growth advantage for neoplastic cells. Hypermethylation has been established as the basis of genomic imprinting, but recent studies have also shown that alterations in genomic methylation patterns may contribute to tumorigenesis. The chemical 5-aza-2'-deoxycytidine (5-aza-dC) has been used both in vitro and in vivo to inhibit DNA methylation. In this study, we investigated the chemopreventive efficacy of 5-aza-dC in a well-established primary mouse lung tumor model. Five-week-old male (C3H/HeJ x A/J) F1 hybrid mice were treated for 24 consecutive weeks with 5-aza-dC, three times per week i.p. Lung tumors were induced with two consecutive weekly doses of 4-(methyl-nitrosamino)-1-(3-pyridyl)-1-butanone starting 1 week after initial treatment with 5-aza-dC. We demonstrated that 5-aza-dC exhibits a chemopreventive effect in this primary mouse lung tumor model which, like human lung adenocarcinomas, harbors an activating K-ras mutation. Treatment with 5-aza-dC resulted in a 23% reduction in tumor incidence, as well as a 42% reduction in tumor multiplicity. This work supports further investigation of methylation inhibitors likes 5-aza-dC for early intervention, prevention and treatment of lung cancer.
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PMID:5-Aza-2'-deoxycytidine is chemopreventive in a 4-(methyl-nitrosamino)-1-(3-pyridyl)-1-butanone-induced primary mouse lung tumor model. 1006 75

Epidemiological and experimental data suggest that dietary fiber and fat are major determinants of colorectal cancer. However, the mechanisms by which these dietary constituents alter the incidence of colon cancer have not been elucidated. Evidence indicates that dominant gain-of-function mutations short-circuit protooncogenes and contribute to the pathogenesis of cancer. Therefore, we began to dissect the mechanisms whereby dietary fat and fiber, fed during the initiation, promotion and progression stages of colon tumorigenesis, regulate ras p21 localization, expression and mutation frequency. Male Sprague-Dawley rats (140) were provided with corn oil or fish oil and pectin or cellulose plus or minus the carcinogen azoxymethane (AOM) in a 2 x 2 x 2 factorial design and killed after 34 weeks. We have previously shown adenocarcinoma incidence in these animals to be 70.3% (52/74) for corn oil + AOM and 56.1% (37/66) for fish oil + AOM (P < 0.05). Total ras expression as well as ras membrane:cytosol ratio was 4- to 6-fold higher in colon tumors than in mucosa from AOM- or saline-injected rats. Expression of ras in the mucosal membrane fraction was 13% higher for animals fed corn oil compared with fish oil feeding (P < 0.05), which is noteworthy since ras must be localized at the plasma membrane to function. The elevated ras membrane:cytosol ratio in tumors was not due to increased farnesyl protein transferase activity or prenylation state, as nearly all detectable ras was in the prenylated form. Phosphorylated p42 and p44 mitogen activated protein kinase (ERK) expression was two-fold higher in tumor extracts compared with uninvolved mucosa from AOM- and saline-injected rats (P < 0.05). The frequency of K-ras mutations was not significantly different between the various groups, but there was a trend toward a greater incidence of mutations in tumors from corn oil fed rats (85%) compared with fish oil fed rats (58%). Our results indicate that the carcinogen-induced changes in ras expression and membrane localization are associated with the in vivo activation of the ERK pathway. In addition, suppression of tumor development by dietary n-3 polyunsaturated fatty acids may be partly due to a combined effect on colonic ras expression, membrane localization, and mutation frequency.
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PMID:Carcinogen and dietary lipid regulate ras expression and localization in rat colon without affecting farnesylation kinetics. 1033 94


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