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Query: UMLS:C0596263 (
carcinogenesis
)
64,820
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
O6-Alkylguanine-DNA alkyltransferase (
MGMT
) confers resistance to many of the mutagenic and toxic effects of certain classes of alkylating agents by repairing the DNA lesions responsible. The levels of expression of this protein are of interest in relation to the prevention and treatment of cancer in man. They vary widely between individuals, and the basis of this variation is not understood. RT-PCR-RFLP analysis of mRNA from normal human lung tissue reveals that the two
MGMT
alleles are frequently expressed at different levels, indicating that there is a genetic component to inter-individual variation of
MGMT
levels and that at least some of this variation maps close to or within the
MGMT
locus.
Carcinogenesis
2003 Oct
PMID:The alleles of the DNA repair gene O6-alkylguanine-DNA alkyltransferase are expressed at different levels in normal human lung tissue. 1289 5
Mutant and genetically modified animal models, which are characterized by shortening or extension of the life span, give a unique possibility to evaluate the role of aging genes in mechanisms of
carcinogenesis
. Transgenic and null mutant ("knockout") animal models also offer an important opportunity to identify and study both carcinogens and chemopreventive agents. The analysis of the available data on transgenic and mutant mice has shown that only a few models represent examples of life span extension. Ames dwarf mutant mice, p66-/- knockout mice, alpha-MUPA and O6-methylguanine-DNA methyltransferase (
MGMT
) transgenic mice live longer than wild-type strains. The incidence of spontaneous tumors in these mice was similar to those in controls, whereas the latent period of tumor development was increased. Practically all models of accelerated aging (excepting p53+/m mice) show the increased tumor incidence and shortening of tumor latency. These observations are in agreement with an earlier established positive correlation between tumor incidence and the rate of tumor incidence increase associated with aging and the aging rate in a population. Thus, genetically modified animals are a valuable tool in unraveling mechanisms underlying aging and cancer.
...
PMID:Aging and cancer in transgenic and mutant mice. 1295 19
Leukoplakia is the most frequent oral precancerous lesion and shows a variable rate of malignant transformation. We hypothesised that the detection of molecular alterations, like the promoter hypermethylation of DNA, in oral cytological samples from patients at risk of developing primary or recurrent tumours could be a valuable diagnostic and prognostic tool in the management of these lesions. Two groups of patients with differing risks of developing oral squamous cell carcinoma (OSCC) were analysed. DNA was extracted from the oral rinse of each patient. The methylation status of the p16, p14 and
MGMT
gene promoters was determined using a methylation-specific polymerase chain reaction (MSP). Methylation of p16 and
MGMT
was observed in 44 and 56% of the oral samples, respectively. Only 12% of the cases showed p14 methylation. DNA hypermethylation was more frequent in patients with previous OSCC. DNA promoter hypermethylation is frequent during early oral
carcinogenesis
and even more so in the later stages. MSP using oral rinses is a non-invasive and highly sensitive technique which could be used to monitor patients with precancerous and cancerous oral lesions.
...
PMID:Gene promoter hypermethylation in oral rinses of leukoplakia patients--a diagnostic and/or prognostic tool? 1455 21
To determine the possible role of the epigenetic mechanisms in
carcinogenesis
of the hepatocellular carcinoma, we methylation-profiled the promoter CpG islands of twenty four genes both in HCC tumors and the neighboring non-cancerous tissues of twenty eight patients using the methylation-specific PCR (MSP) method in conjunction with the DNA sequencing. In comparison with the normal liver tissues from the healthy donors, it was found that while remained unmethylated the ABL, CAV, EPO, GATA3, LKB1, NEP, NFL, NIS and p27KIP1 genes, varying extents of the HCC specific hypermethylation were found associated with the ABO, AR, CSPG2, cyclin a1, DBCCR1, GALR2, IRF7,
MGMT
, MT1A, MYOD1, OCT6, p57KIP2, p73, WT1 genes, and demethylation with the MAGEA1 gene, respectively. Judged by whether the hypermethylated occurred in HCC more frequently than in their neighboring normal tissues, the hypermethylation status of the AR, DBCCR1, IRF7, OCT6, and p73 genes was considered as the event specific to the late stage, while that the rest that lacked such a distinguished contrast, as the event specific to the early stage of HCC
carcinogenesis
. Among all the clinical pathological parameters tested for the association with, the hypermethylation of the cyclin a1 gene was more prevalent in the non-cirrhosis group (P=0.021) while the hypermethylated p16INK4a gene was more common in the cirrhosis group (P=0.017). The concordant methylation behaviors of nineteen genes, including the four previously studied and their association with cirrhosis has been evaluated by the best subgroup selection method. The data presented in this report would enable us to shape our understanding of the mechanisms for the HCC specific loss of the epigenetic stability of the genome, as well as the strategy of developing the novel robust methylation based diagnostic and prognostic tools.
...
PMID:Methylation profiling of twenty four genes and the concordant methylation behaviours of nineteen genes that may contribute to hepatocellular carcinogenesis. 1467 55
The methylation pattern in the promoter region of p16, DAPK,
MGMT
and GSTP1 genes was investigated in oral cancer tissues and tumor associated adjacent tissues, using methylation specific PCR assay. The samples constituted 60 primary oral tumors and corresponding adjacent clinically and histopathologically normal mucosa, and buccal epithelial scrapings from 20 normal healthy individuals without any tobacco habits. The incidence of hypermethylation in oral tumor and adjacent mucosa for p16 gene was 66.7 and 50%, for DAPK was 68.3 and 60%, and
MGMT
gene was 51.7 and 26.7%, respectively. The overall hypermethylation in the three genes in the primary tumor was 86.7%, and corresponding adjacent normal mucosa tissues 76.7%. Hypermethylation was not observed in the promoter region of GSTP1 gene in either the primary tumors or the corresponding adjacent normal mucosa. Absence of aberrant methylation in the four genes was noted in buccal scrapings from normal healthy individuals with no tobacco habits. Thus, a high frequency of promoter region hypermethylation was observed in p16, DAPK and
MGMT
genes in oral cancer tissues as well as in corresponding adjacent normal mucosa. Our results indicate that epigenetic alteration of these genes is a frequent event in oral cancer, and is an early event observed in normal oral mucosa of the patients, indicating the critical importance of the epigenetic alteration in chewing tobacco associated oral
carcinogenesis
.
...
PMID:Concurrent hypermethylation of multiple regulatory genes in chewing tobacco associated oral squamous cell carcinomas and adjacent normal tissues. 1469 37
Lung cancer from radon or (239)plutonium exposure has been linked to alpha-particles that damage DNA through large deletions and point mutations. We investigated the involvement of an epigenetic mechanism, gene inactivation by promoter hypermethylation in adenocarcinomas from plutonium-exposed workers at MAYAK, the first Russian nuclear enterprise established to manufacture weapons plutonium. Adenocarcinomas were collected retrospectively from 71 workers and 69 non-worker controls. Lung adenocarcinomas were examined from workers and non-worker controls for methylation of the CDKN2A (p16), O(6)-
methylguanine-DNA methyltransferase
(
MGMT
), death associated protein kinase (DAP-K), and Ras effector homolog 1 genes (RASSF1A). The prevalence for methylation of the
MGMT
or DAP-K genes did not differ between workers and controls, while a higher prevalence for methylation of the RASSF1A gene was seen in tumors from controls. In marked contrast, the prevalence for methylation of p16, a key regulator of the cell cycle, was increased significantly (P = 0.03) in tumors from workers compared with non-worker controls. Stratification of plutonium exposure into tertiles also revealed a striking dose response for methylation of the p16 gene (P = 0.008). Workers in the plutonium plant where exposure to internal radiation was highest had a 3.5 times (C.I. 1.5, 8.5; P = 0.001) greater risk for p16 methylation in their tumors than controls. This increased probability for methylation approximated the 4-fold increase in relative risk for adenocarcinoma in this group of workers exposed to plutonium. In addition, a trend (P = 0.08) was seen for an increase in the number of genes methylated (> or =2 genes) with plutonium dose. Here we demonstrate that exposure to plutonium may elevate the risk for adenocarcinoma through specifically targeting the p16 gene for inactivation by promoter methylation.
Carcinogenesis
2004 Jun
PMID:Plutonium targets the p16 gene for inactivation by promoter hypermethylation in human lung adenocarcinoma. 1474 12
To date, several reports have been published about CpG island methylation of various genes in prostate cancer. However, most of these studies have focused on cancer tissue only or a single gene and data about concurrent methylation of multiple genes in prostate cancer or prostatic intraepithelial neoplasia (PIN) are limited. The aim of the present study was to determine the methylation profile of 11 tumour-related genes in prostate cancer and PIN. Seventy-one samples, including 37 prostate cancers, 14 PINs, and 20 normal prostates, were examined for the methylation status of 11 tumour-related genes using methylation-specific PCR. The mean number of genes methylated was significantly higher in prostate cancer and PIN than in non-neoplastic prostate (4.4, 3, and 0.2, respectively; p < 0.001). In prostate cancer, APC, GSTP1,
MGMT
, and RASSF1A were frequently methylated at a frequency of 56.8%, 86.5%, 75.7%, and 83.8%, respectively. These genes were methylated in more than 30% of PINs. Prostate cancers with high serum prostate-specific antigen (PSA) (more than 8 ng/ml) or a high Gleason score (GS) (3 + 4 or more) showed higher numbers of methylated genes than those with low serum PSA (8 or less) or low GS (3 + 3 or less) (5.4 versus 2.5 and 5.4 versus 3.1, respectively; p < 0.05). The methylation frequency of APC, RASSF1A, and RUNX3 was higher in prostate cancers with high serum PSA or with high GS than in those with low PSA or with low GS, respectively, the differences reaching statistical significance (p < 0.05). A strong association between
MGMT
methylation and loss of
MGMT
expression was demonstrated by immunohistochemistry. CpG island methylation is a frequent event, occurs early, and accumulates during multi-step prostatic
carcinogenesis
. High levels of CpG island hypermethylation might serve as a potential biological marker for aggressive prostate cancer.
...
PMID:Aberrant CpG island hypermethylation of multiple genes in prostate cancer and prostatic intraepithelial neoplasia. 1474 6
There is increasing evidence to suggest that O(6)-alkyl guanine DNA-alkyltransferase (
MGMT
) activity provides protection against alkylating agent induced formation of GC-->AT transition mutations in the K-ras oncogene of colorectal tumours. As this mutagenic event occurs during the growth of adenomas, both biomarkers of exposure (N7-methylguanine levels in DNA) and susceptibility (
MGMT
activity) were measured in biopsy samples obtained from normal and adenomatous tissue from 34 patients with large adenomas (>10 mm in size). There was no correlation between
MGMT
activity in the adenoma and in matched normal tissue. However,
MGMT
activity was significantly lower in adenoma tissue than in adjacent normal mucosa (5.18 versus 7.05 fmol/microg DNA, P = 0.01), particularly in men and those whose age was greater than the median. Upon stratification by K-ras mutational status,
MGMT
activity was lower in adenomas bearing a K-ras GC-->AT transition mutation (mean 4.21 fmol/microg DNA) than in adjacent normal tissue (mean 7.7 fmol/microg DNA; P < 0.004). In contrast, there was no significant difference in
MGMT
activity in adenomas lacking a K-ras GC-->AT transition mutation and adjacent normal mucosa. N7-methylguanine levels however did not vary with age, gender, K-ras mutational status or
MGMT
activity. These results are consistent with the acquisition of K-ras GC-->AT transition mutations in adenomas with low
MGMT
activity as a result of unavoidable exposure to methylating agents.
Carcinogenesis
2004 Jul
PMID:Reduced MGMT activity in human colorectal adenomas is associated with K-ras GC->AT transition mutations in a population exposed to methylating agents. 1496 16
DNA damage, if the repair process, especially nucleotide excision repair (NER), is compromised or the lesion is repaired by some other error-prone mechanism, causes mutation and ultimately contributes to neoplastic transformation. Impairment of components of the DNA damage response pathway (e.g., p53) is also implicated in
carcinogenesis
. We currently have considerable knowledge of the role of DNA repair genes as tumor suppressors, both clinically and experimentally. The deleterious clinical consequences of inherited defects in DNA repair system are apparent from several human cancer predisposition syndromes (e.g., NER-compromised xeroderma pigmentosum [XP] and p53-deficient Li-Fraumeni syndrome). However, experimental studies to support the clinical evidence are hampered by the lack of powerful animal models. Here, we review in vivo experimental data suggesting the protective function of DNA repair machinery in chemical carcinogenesis. We specifically focus on the three DNA repair genes, O(6)-
methylguanine-DNA methyltransferase
gene (
MGMT
), XP group A gene (XPA) and p53. First, mice overexpressing
MGMT
display substantial resistance to nitrosamine-induced hepatocarcinogenesis. In addition, a reduction of spontaneous liver tumors and longer survival times were evident. However, there are no known mutations in the human
MGMT
and therefore no associated cancer syndrome. Secondly, XPA mutant mice are indeed prone to spontaneous and carcinogen-induced tumorigenesis in internal organs (which are not exposed to sunlight). The concomitant loss of p53 resulted in accelerated onset of
carcinogenesis
. Finally, p53 null mice are predisposed to brain tumors upon transplacental exposure to a carcinogen. Accumulated evidence in these three mutant mouse models firmly supports the notion that the DNA repair system is vital for protection against cancer.
...
PMID:DNA repair and cancer: lessons from mutant mouse models. 1496 59
The biological and genetic effects of chronic low-dose radiation (LDR) exposure and its relationship to
carcinogenesis
have received a lot of attention in the recent years. For example, radiation-induced genome instability, which is thought to be a precursor of tumorogenesis, was shown to have a transgenerational nature. This indicates a possible involvement of epigenetic mechanisms in LDR-induced genome instability. Genomic DNA methylation is one of the most important epigenetic mechanisms. Existing data on radiation effects on DNA methylation patterns is limited, and no one has specifically studied the effects of the LDR. We report the first study of the effects of whole-body LDR exposure on global genome methylation in muscle and liver tissues of male and female mice. In parallel, we evaluated changes in promoter methylation and expression of the tumor suppressor gene p16(INKa) and DNA repair gene O(6)-
methylguanine-DNA methyltransferase
(
MGMT
). We observed different patterns of radiation-induced global genome DNA methylation in the liver and muscle of exposed males and females. We also found sex and tissue-specific differences in p16(INKa) promoter methylation upon LDR exposure. In male liver tissue, p16(INKa) promoter methylation was more pronounced than in female tissue. In contrast, no significant radiation-induced changes in p16(INKa) promoter methylation were noted in the muscle tissue of exposed males and females. Radiation also did not significantly affect methylation status of
MGMT
promoter. We also observed substantial sex differences in acute and chronic radiation-induced expression of p16(INKa) and
MGMT
genes. Another important outcome of our study was the fact that chronic low-dose radiation exposure proved to be a more potent inducer of epigenetic effects than the acute exposure. This supports previous findings that chronic exposure leads to greater genome destabilization than acute exposure.
...
PMID:Methylation changes in muscle and liver tissues of male and female mice exposed to acute and chronic low-dose X-ray-irradiation. 1506 38
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