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Query: UMLS:C0596263 (
carcinogenesis
)
64,820
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Li-Fraumeni syndrome
(LFS) and its relation to the p53 gene and p53 gene transgenic and targeting mice are reviewed. LFS is a hereditary cancer-prone syndrome mainly with germ line mutation of p53 gene. p53 deficient mice, especially heterozygous mice, may serve as a model for human LFS, although there are several discrepancies between them.
Carcinogenesis
experiment using p53 deficient mice may be important to clarify the role of p53 in tumorigenesis in vivo.
...
PMID:[p53 transgenic and knockout mice]. 1087 49
Germ-line p53 mutations are associated with dominantly inherited
Li-Fraumeni syndrome
(
LFS
), which features early-onset sarcomas of bone and soft tissues, carcinomas of the breast and adrenal cortex, brain tumors, and acute leukemias. However, carriers of germ-line p53 mutations may also be at increased risk of other cancers. To clarify the tumor spectrum associated with inherited p53 mutations, we examined cancer occurrences among our series of 45 families, plus 140 other affected cases and kindreds reported in the literature. The analyses included all cancers in patients with a germ-line p53 mutation and their first-degree relatives with nearly 50% likelihood of being a carrier. Data were abstracted on tumor types and ages at diagnosis in eligible family members, and duplicate reports were excluded. Among 738 evaluable cancers, 569 (77%) were the six tumor types (breast and adrenocortical carcinomas, sarcomas of the bone and soft tissues, brain tumors, and leukemias) associated with
LFS
. The remaining 169 (23%) cancers included diverse carcinomas of the lung and gastrointestinal tract, lymphomas, and other neoplasms that occurred at much earlier ages than expected in the general population. Unusually early ages at diagnosis are characteristic of hereditary cancers and suggest that carriers of germ-line p53 mutations are at increased risk of a wide range of neoplasms. Future studies addressing age-specific penetrance and site-specific cancer risks can increase the utility of
LFS
as a model for understanding the role of p53 alterations in
carcinogenesis
and for designing diagnostic and preventive interventions for the broad array of neoplasms in this syndrome.
...
PMID:Germ-line p53 mutations predispose to a wide spectrum of early-onset cancers. 1121 76
A woman with a family history of brain tumors in her daughter and sister presented with a breast cancer. She subsequently developed two metachronous primary tumors: a small-cell lung cancer and a colon carcinoma. These tumors arose within the internal mammary radiotherapy field and within the field irradiated for ovariolysis. The p53 gene was analyzed in whole blood lymphocytes using a functional assay developed in yeast Saccharomyces cerevisiae, which tests the transcriptional competence of p53. DNA from the colon cancer cells was analyzed by polymerase chain reaction and sequencing. The patient had a germline-inactivating p53 mutation, confirming the diagnosis of
Li-Fraumeni syndrome
(
LFS
). The colon tumor and the lung tumor both conserved the mutant p53 allele but had lost the wild-type allele. This observation and the experimental data suggest an abnormal sensitivity of
LFS
patients to radiogenic
carcinogenesis
. The indications and extent of radiotherapy in patients with a clinical or molecular diagnosis of
LFS
should be discussed individually and should take into account the risk of secondary neoplasms arising in the radiation fields.
...
PMID:Two metachronous tumors in the radiotherapy fields of a patient with Li-Fraumeni syndrome. 1147 98
Checkpoint kinase 2 (hCHK2/hCds1) is a tumor suppressor gene involved in cell-cycle control. A hCHK2/hCds1 polymorphism in codon 84 (A-->G at nucleotide 252) was recently identified in
Li-Fraumeni syndrome
patients. Because cell cycle regulates DNA repair that is associated with cancer risk, we hypothesized that this new polymorphism exists in the general population and is associated with cancer risk. To test this hypothesis, we evaluated the role of this polymorphism in a case-control study of 215 non-Hispanic white patients with newly diagnosed squamous cell carcinoma of the head and neck (SCCHN) and 229 frequency-matched cancer-free controls. We found that the hCHK2/hCds1 codon 84 variant was rare and less frequent in non-Hispanic white cases (0.0186) than in controls (0.0437; P = 0.033). Although no variant homozygotes were detected in these cases and controls, heterozygosity protected against SCCHN, representing a 60% reduction of risk (adjusted odds ratio = 0.40; 95% confidence intervals, 0.17-0.93) compared with wild-type homozygotes. The variant allele was also rare in other ethnic groups (0.0487, 0.0095 and 0.0541 in 115 African Americans, 105 Hispanic Americans and 111 native Chinese, respectively), and only one variant homozygous individual (a Chinese subject) was identified. These results suggest that this hCHK2/hCds1 codon 84 polymorphism is rare and may have a protective role in the aetiology of SCCHN in non-Hispanic whites. Larger studies are warranted to confirm this finding and further mechanistic studies are needed to understand biological relevance of this polymorphism.
Carcinogenesis
2001 Dec
PMID:Polymorphic hCHK2/hCds1 codon 84 allele and risk of squamous cell carcinoma of the head and neck--a case-control analysis. 1175 32
Mutations and deletions in p53 are the most common genetic lesions in human cancer,and an extraordinarily high incidence of lung cancer occurs in smokers suffering from
Li-Fraumeni syndrome
, which is characterized by germ-line inactivation of one p53 allele. In contrast, p53 mutations are infrequent in lung tumors formed in A/J mice. Moreover, despite the dominant role of cigarette smoke in the epidemiology of human lung cancer, it is very difficult to reproduce the lung tumorigenicity of this complex mixture in animal models. We used a transgenic mouse with a dominant-negative p53 mutation to examine the effects of a mutant p53 on smoke-induced lung
carcinogenesis
in mice. p53 mutant (UL53-3 x A/J)F(1) mice of both genders and their wild-type (wt) littermate controls were exposed whole-body to environmental cigarette smoke (ECS) for up to 9.5 months. Untreated mutant mice of both genders underwent an early stimulus of bronchial cell proliferation, and an age-related formation of DNA adducts in lung and heart. In males, there was an age-related increase of micronucleated normochromatic erythrocytes in peripheral blood and an impairment of body weight gain. These findings underscore a physiological protective role of p53 in wt A/J mice. The response of wt and mutant mice to ECS was similar in terms of oxidative DNA damage in lung and heart, proliferation of the bronchial epithelium, and levels of p53 oncoprotein, as assessed after exposure for 28 days. In contrast, ECS-exposed mutant mice underwent a lower induction of apoptosis in bronchial epithelium, a greater formation of DNA adducts in lung and heart, and a more intense cytogenetic damage, shown by a higher frequency of micronuclei in pulmonary alveolar macrophages and in peripheral blood normochromatic erythrocytes. Interestingly, at the end of the experiment, DNA adducts were not repaired in either wt or mutant mice after discontinuing exposure to ECS for 1 week. A weak but significant increase of lung tumor incidence and multiplicity was induced in p53 mutant (UL53-3 x A/J)F(1) mice after exposure to ECS for either 5 months, followed by recovery in air for 4.5 months, or 9.5 continuative months. Conversely, no tumorigenic effect was observed in their wt littermate controls, carrying a 99.9% A/J background and 5% FVB genome. This contrasts with the weakly positive results obtained in previous studies using wt A/J mice. Thus, in agreement with the results of previous lung tumorigenicity studies performed with the smoke carcinogens benzo(a)pyrene and 4-(methylnitrosoamino)-1-(3-pyridyl)-1-butanone, (UL53-3 x A/J)F(1) mice carrying a mutant p53 transgene appear to be more sensitive to ECS than the corresponding wt littermate controls. These findings provide evidence that p53 mutations play a role in smoke-related
carcinogenesis
not only in humans but also in A/J mice.
...
PMID:Molecular alterations and lung tumors in p53 mutant mice exposed to cigarette smoke. 1259 28
Five immortal cell lines derived from a
Li-Fraumeni syndrome
patient (MDAH 087) with a germline mutant p53 allele were characterized with respect to telomere length and genomic instability. The remaining wild-type p53 allele is lost in the cell lines. Telomerase activity was undetectable in all immortal cell lines. Five subclones of each cell line and five re-subclones of each of the subclones also showed undetectable telomerase activity. All five immortal cell lines exhibited variability in the mean length of terminal restriction fragments (TRFs). Subclones of each cell line, and re-subclones of the subclones also showed TRF variability, indicating that the variability is owing to clonal heterogeneity. Chromosome aberrations were observed at high frequencies in these cell lines including the subclones and re-subclones, and the principal types of aberrations were breaks, double minute chromosomes and dicentric chromosomes. In addition, minisatellite instability detected by DNA fingerprints was observed in the immortal cell lines. However, all of the cell lines were negative for microsatellite instability. As minisatellite sequences are considered recombinogenic in mammalian cells, these results suggest that recombination rates can be increased in these cell lines. Tumor-derived human cell lines, HT1080 cells and HeLa cells that also lack p53 function, exhibited little genomic instability involving chromosomal and minisatellite instabilities, indicating that chromosomal and minisatellite instabilities observed in the immortal cell lines lacking telomerase activity could not result from loss of p53 function.
Carcinogenesis
2003 May
PMID:Immortal, telomerase-negative cell lines derived from a Li-Fraumeni syndrome patient exhibit telomere length variability and chromosomal and minisatellite instabilities. 1277 Oct 41
Recent progress in molecular biology and genetics has improved understanding of the mechanisms of
carcinogenesis
. However, there are few effective methods for prevention or therapies against cancer based on such elucidated molecular mechanisms of
carcinogenesis
. We therefore tried to develop novel methods of cancer prevention and therapy based on them. For example, the tumor-suppressor gene p53 is mutated in about 50% of human malignancies or in a cancer-prone family with
Li-Fraumeni syndrome
. It is known that p53 stimulates the promoter activities of p21/WAF1, gadd45 and bax genes to enhance their expression as a transcriptional factor, resulting in cell cycle arrest, DNA repair and apoptosis, respectively. Therefore, chemical compounds or food factors that can stimulate these genes might compensate for part of the p53 function. As a model of our hypothesis, we found that histone deacetylase inhibitors such as butyrate and trichostatin A dramatically stimulate the p21/WAF1 gene promoter through the Sp1 sites, resulting in cell cycle arrest. We therefore hypothesized that a strategy for up-regulating p53-target genes such as p21/WAF1, gadd45 and bax might be useful for cancer prevention or therapy, and termed this method "Gene-regulating chemoprevention" or "Gene-regulating chemotherapy" against cancer. In fact, butyrate, a short chain fatty acid, exists in colon lumen as a metabolite of dietary fiber, and is believed to be preventive against colon cancer. In conclusion, we proposed that "Gene-regulating chemoprevention" and "Gene-regulating chemotherapy" may be new promising strategies for cancer prevention or therapy, and histone deacetylase inhibitors are good candidates for these strategies. "Gene-regulating chemoprevention" is a particularly suitable model for "Molecular-targeting prevention", which we have proposed recently. We believe that "Molecular-targeting prevention" will become one of the most important concepts in the 21st century for general prevention of a variety of common hereditary or non-hereditary common diseases.
...
PMID:[Gene-regulating chemoprevention against cancer--as a model for "molecular-targeting prevention" of cancer]. 1280 65
DNA hypermethylation in gene promoters is an epigenetic mechanism regulating gene expression in cellular immortalization, an important step in
carcinogenesis
. Previously, we studied the genes dysregulated during immortalization using spontaneously immortalized fibroblasts from patients with
Li-Fraumeni syndrome
(
LFS
), who carry a germline mutation in the tumor suppressor gene p53. We found that multiple interferon (IFN) signaling pathway genes were regulated by epigenetic silencing. In this study we focused on a key regulator of that pathway, the signal transducer and transcription activator 1 (Stat1) gene. Although Stat1 is downregulated after cellular immortalization and upregulated in immortal MDAH041 cells after 5-aza-2'-deoxycytidine (5-aza-dC) treatment, we detected no methylation of the Stat1 promoter region in these cells before or after immortalization. To analyze the function of Stat1 in immortalization, we expressed Stat1 in immortal MDAH041 cells by stable infection, expecting to induce IFN-regulated genes or cellular senescence or both. However, the overexpression of Stat1 alone was not sufficient to repress the proliferation rate of immortal MDAH041 cells or induce senescence in immortal MDAH041 cells. We concluded that factor(s) additional to Stat1 (whether IFN dependent or not) are required for the immortalization of
LFS
fibroblasts.
...
PMID:Stat1 expression is not sufficient to regulate the interferon signaling pathway in cellular immortalization. 1642 44
Mutations are the substrate of cancer. Yet, little is known about the degree and nature of mutations in tumors because measurement of mutation load in tumors and normal tissues was generally not possible until the advent of transgenic mouse mutation detection systems. Herein, we present the first analysis of mutation frequency and pattern in thymic tumors from a mouse model of
Li-Fraumeni syndrome
(p53+/- murine model) using the Big Blue assay with sequencing of all mutants. We also make the first characterization of mutation frequency and pattern in p53-deficient extra-thymic cancers. The data more than triple the literature on all non-mismatch repair deficient tumors for which mutations are identified by sequence analysis, allowing mutation frequency and pattern to be determined. Most tumors had a normal mutation frequency and a normal mutation pattern. Five tumors showed modest increases in mutation frequency (2.3-fold or less). Alterations in mutation patterns were uncommon, tumor-specific and not necessarily associated with increases in mutation frequency. Given the data from two spontaneous tumors (normal mutation frequency with an abnormal pattern in a p53-/- mouse and low mutation frequency in a p53+/+ control mouse), we hypothesize that tumors sometimes can carry a low mutation load. The study was not without certain caveats: mutation load could not be compared between tumor and normal tissue from the same animal; sample sizes for extra-thymic tumor types were small, and only point mutations and deletions, insertions and indels up to 2 kb were detected. However, the data clearly show key differences in tumors from p53+/- mice compared with mismatch repair deficient tumors; a lack of dramatic increase in mutation frequency and absence of a signature of mutation.
Carcinogenesis
2006 Sep
PMID:Most spontaneous tumors in a mouse model of Li-Fraumeni syndrome do not have a mutator phenotype. 1659 46
Germ line mutations of the p53 gene are known to cause
Li-Fraumeni syndrome
, and a germ line p53 mutation has recently been reported in a small subset of familial gastric cancer (FGC) in Europe and Korea. Although the incidence of gastric cancer is very high in Japan and familial clustering is not uncommon, there has been little information on the genetic factors of FGC. Therefore, to determine the role of germ line p53 mutations in FGC in the Japanese population in this study, we used sequencing analysis to examine 80 individuals from 35 Japanese FGC families without germ line CDH1 mutations for germ line p53 mutations. One missense (c.91G>A: p.Val31Ile) and two intronic germ line mutations were found, and transcriptional activity of the Ile31 mutant on p53-responsive genes was examined to determine the functional effect of the novel p.Val31Ile germ line mutation. A luciferase reporter assay showed that the transcriptional activity of p21 (CDKN1A) and MDM2 promoters but not of the BAX promoter was significantly lower in the Ile31-type p53 than in the wild-type (wt) p53. Next, doxycycline-regulated p53-inducible H1299 cell lines were established by applying a retrovirus-mediated gene transfer system to a p53-null human H1299 cell line. Under similar p53 expression conditions shown by western blot and immunofluorescence analyses, a cell proliferation assay showed that the Ile31-type p53 had significantly lower cell proliferation suppressing activity than wt p53. These results suggest that Ile31-type p53 may be partly involved in FGC because of its low transcriptional activity and low cell proliferation suppressing activity.
Carcinogenesis
2007 Sep
PMID:Identification and characterization of a novel germ line p53 mutation in familial gastric cancer in the Japanese population. 1769 Jan 13
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