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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Polycyclic aromatic hydrocarbons (PAHs) present in ambient air are considered as potential human carcinogens, but the detailed mechanism of action is still unknown. Our aim was to study the in vitro effect of exposure to dibenzo[a,l]
pyrene
(DB[a,l]P), the most potent carcinogenic PAH ever tested, and benzo[a]
pyrene
(B[a]P) in a normal human diploid lung fibroblast cells (HEL) using multiple endpoints. DNA adduct levels were measured by 32P-postlabelling, the expression of
p53
and p21(WAF1) proteins by western blotting and the cell cycle distribution by flow cytometry. For both PAHs, the DNA adduct formation was proportional to the time of exposure and dependent on the stage of cell growth in culture. DNA binding was detectable even at the lowest concentration used (24h exposure, 0.01 microM for both PAHs). The highest DNA adduct levels were observed after 24h of exposure in near-confluent cells (>90% of cells at G0/G1 phase), but DNA damage induced by DB[a,l]P was approximately 8-10 times higher at a concentration one order of magnitude lower as compared with B[a]P (for B[a]P at 1 microM and for DB[a,l]P at 0.1 microM: 237+/-107 and 2360+/-798 adducts/10(8) nucleotides, respectively). The induction of
p53
and p21(WAF1) protein occurred subsequent to the induction of DNA adducts. The DNA adduct levels correlated with both
p53
(R=0.832, P<0.001 and R=0.859, P<0.001, for DB[a,l]P and B[a]P, respectively) and p21(WAF1) levels (R=0.808, P<0.001 and R=0.797, P=0.001, for DB[a,l]P and B[a]P, respectively), regardless of the PAH exposure and the phase of cell growth. The results showed that a detectable increase of
p53
and p21(WAF1) proteins (> or = 1.5-fold as compared with controls) requires a minimal DNA adduct level of approximately 200-250 adducts/10(8) nucleotides for both PAHs tested and suggest that the level of adducts rather than their structure triggers the
p53
and p21(WAF1) responses. The cell cycle was altered after 12-16h of treatment, and after 24h of exposure to 0.1 microM DB[a,l]P in growing cells, there was approximately 24% increase in S phase cells accompanied by a decrease in G1 and G2/mitosis (G2/M) cells. Cell treatment with 1.0 microM B[a]P resulted in more subtle alterations. We conclude that DB[a,l]P, and to a lesser degree B[a]P, are able to induce DNA adducts as well as
p53
and p21(WAF1) without eliciting G1 or G2/M arrests but rather an S phase delay/arrest. Whether the S phase delay observed in our study is beneficial for the survival of the cells remains to be further established.
...
PMID:The effect of dibenzo[a,1]pyrene and benzo[a]pyrene on human diploid lung fibroblasts: the induction of DNA adducts, expression of p53 and p21(WAF1) proteins and cell cycle distribution. 1108 Jun 61
The mouse multidrug resistance gene family consists of three genes (mdr1, mdr2, and mdr3) encoding P-glycoprotein. We show that the expression of mdr1 is increased at the transcriptional level upon treatment of the hepatoma cell line Hepa-1c1c7 with the polycyclic aromatic hydrocarbon 3-methylcholanthrene (3-MC). This increase is not observed in the aromatic hydrocarbon receptor (AhR)-defective TAOc1BP(r)c1 and the AhR nuclear translocator (Arnt)-defective BP(r)c1 variants, demonstrating that the induction of mdr1 by 3-MC requires AhR.Arnt. We show that the mdr1 promoter (-1165 to +84) is able to activate the expression of a reporter gene in response to 3-MC in Hepa-1c1c7 but not in BP(r)c1 cells. Deletion analysis indicated that the region from -245 to -141 contains cis-acting sequences mediating the induction, including a potential
p53
binding sequence. 3-MC treatment of the cells increased the levels of
p53
and induced
p53
binding to the mdr1 promoter in an AhR.Arnt-dependent manner. Mutations in the
p53
binding site abrogated induction of mdr1 by 3-MC, indicating that
p53
binding to the mdr1 promoter is essential for the induction. Benzo(a)
pyrene
, a polycyclic aromatic hydrocarbon and AhR ligand, which, like 3-MC, is oxidized by metabolizing enzymes regulated by AhR.Arnt, also activated
p53
and induced mdr1 transcription. 2,3,7,8-Tetrachlorodibenzo-p-dioxin, an AhR ligand resistant to metabolic breakdown, had no effect. These results indicate that the transcriptional induction of mdr1 by 3-MC and benzo(a)
pyrene
is directly mediated by
p53
but that the metabolic activation of these compounds into reactive species is necessary to trigger
p53
activation. The ability of the anticancer drug and potent genotoxic agent daunorubicin to induce mdr1 independently of AhR.Arnt further supports the proposition that mdr1 is transcriptionally up-regulated by
p53
in response to DNA damage.
...
PMID:Aromatic hydrocarbon receptor (AhR).AhR nuclear translocator- and p53-mediated induction of the murine multidrug resistance mdr1 gene by 3-methylcholanthrene and benzo(a)pyrene in hepatoma cells. 1109 91
The
tumor suppressor protein p53
plays an important role in recognition of DNA damage and induction of subsequent cell cycle arrest. One of its target genes encodes the protein p21(WAF1), which is involved in mediation of growth arrest after DNA damage has occurred. Dibenzo[a,l]
pyrene
(DB[a,l]P) is a polycyclic aromatic hydrocarbon which is an exceptionally potent carcinogen. A reactive secondary metabolite of DB[a,l]P, the fjord region (-)-anti-11R,12S-dihydrodiol 13R,14S-epoxide [(-)-anti-DB[a,l]PDE] was used to investigate DNA damage via adduct formation and cell cycle arrest in human diploid fibroblast cell cultures (HDF). Synchronous HDF were exposed to increasing concentrations (0.014, 0.028 and 0.07 microM) of (-)-anti-DB[a,l]PDE and at 1, 12, 24 and 42 h after treatment cell pellets were analyzed for DNA adduct formation and cell cycle arrest. Exposure of HDF to 0.07 microM (-)-anti-DB[a,l]PDE caused a total DNA binding level of 113 pmol adducts/mg DNA (42 h after treatment). G(1) arrest was induced by this treatment, with 91% of the cells remaining in G(1) phase compared with the solvent-treated control cultures (50%) as analyzed by propidium iodide staining and flow cytometry. Further investigation of the percentage of cells in S phase by 5-bromo-2'-deoxyuridine incorporation confirmed the G(1) arrest in HDF treated with 0.07 microM (-)-anti-DB[a,l]PDE, with only 1.5% of the cells moving into S phase compared with 39% in the control 42 h after treatment. Induction of
p53
and p21(WAF1) was demonstrated by western blot analysis.
...
PMID:Effects of the (-)-anti-11R,12S-dihydrodiol 13S,14R-epoxide of dibenzo. 1115 55
The effects of a ligand of the aromatic hydrocarbon receptor (AhR), benzo[a]
pyrene
(B[ a]P), and its metabolite, BPDE (7r,8t-dihydroxy-9t,10t-epoxy-7,8,9,10-tetrahydro-benzo[a]
pyrene
), on BRCA-1 levels and cell cycle kinetics were determined in MCF-7 breast cancer cells. Exposure of asynchronous MCF-7 cells for 72 hours to a non-cytotoxic dose of 0.5 microM B[a]P triggered a three-fold reduction in BRCA-1 protein. In MCF-7 cells resistant (20% to 30%) to genotoxic concentrations of B[a]P (1 to 5 microM), the loss of BRCA-1 protein was coupled with pausing in S-phase and G2/M, and accumulation of
p53
, mdm2 and p21. Treatment of MCF-7 cells synchronized in S-phase (72%) with B[a]P prolonged the arrest in S-phase, although this checkpoint was transient since cells resumed to G2/M after 12 hours with reduced levels of BRCA-1. In these cells, levels of
p53
were increased, whereas the cellular content of p21 remained unaltered. In contrast, the co-treatment with the AhR antagonist, alpha-naphthoflavone (ANF), abrogated the deleterious effects of B[a]P on BRCA-1 expression, while preventing the accumulation of
p53
and disruption of cell cycle profile. These findings suggest that the AhR mediated the inverse expression patterns of BRCA-1 and
p53
upon exposure to B[a]P. The treatment with BPDE induced S-phase arrest and reduced BRCA-1 mRNA levels. The negative effects of BPDE on BRCA-1 expression were not transient since removal of BPDE did not allow complete reversal of the repression. These cumulative data suggest that the B[a]P metabolite, BPDE, may play a key role in disruption of BRCA-1 expression and cell cycle kinetics in breast epithelial cells.
...
PMID:Disruption of cell cycle kinetics by benzo[a]pyrene: inverse expression patterns of BRCA-1 and p53 in MCF-7 cells arrested in S and G2. 1119 Nov 13
The tumor suppressor gene
p53
is perhaps the most commonly mutated gene in human cancer, being mutated in a high percentage of colon, breast, skin, bladder, and many cancers of the aerodigestive tract. Individuals with Li-Fraumeni syndrome, who routinely have a germline mutation in the
p53 tumor suppressor
gene, are at high risk for lung cancer, confirming its intimate role in lung tumorigenesis in humans. In contrast, the majority of chemically induced or spontaneous cancers in rodents do not contain mutations in
p53
. Therefore, we examined a transgenic mouse that contains a dominant negative mutation (Arg135Val) in the
p53
gene placed under the control of its own endogenous promoter. The resulting mice have 3 copies of the mutated transgene as well as 2 normal
p53
alleles. In the chemical carcinogenesis studies, we employed mice containing the mutated
p53
gene to examine for carcinogen susceptibility. We found that mice with the
p53
mutation, on an A/J F1 background, were more susceptible to a number of potential lung carcinogens, including N-methyl-N-nitrosourea (MNU) and the known tobacco carcinogens 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) and benzo(a)
pyrene
(BP). Mice with a mutant p53 developed larger tumors and roughly 3 times as many tumors, emphasizing the potential effects of a
p53
mutation both on tumor initiation and progression. In addition, we examined 2 nonlung carcinogens, 1,2-dimethylhydrazine (DMH), a colon carcinogen, and N-butyl-N-(4-hydroxybutyl)-nitrosamine (OHBBN), a bladder carcinogen. Interestingly a germline
p53
mutation increased the incidence of DMH-induced colon, lung, hepatic, and uterine tumors, while having limited effects on OHBBN-induced bladder tumors. Because of its heightened susceptibility we are examining the use of this model in smoke-induced tumorigenesis in A/J mice as well. Employing the lung adenomas induced by NNK, we found that mice with or without a
p53
mutation were equally susceptible to the chemopreventive effects of dexamethasone plus myo-inisitol and green tea. These tumors, which arise in a highly reproducible manner in
p53
transgenic mice following carcinogen treatment, have mutations in both
p53
and the K-ras oncogene. Thus, this model appears useful for examining for potential chemotherapeutic agents.
p53
-mutated or wild-type mice were equally susceptible to the therapeutic effects of Taxol or Adriamycin. Interestingly, piroxicam was similarly effective in inhibiting colon tumor formation by DMH in mice with or without a mutation in the
p53 tumor suppressor
gene. In contrast, lung and uterine tumors developing in these mice were not susceptible to the chemopreventive effects of piroxicam. In summary, mice with mutations in the
p53 tumor suppressor
gene appear to be particularly applicable for basic mechanistic studies, for screening for potential carcinogens, and for screening for chemopreventive or chemotherapeutic agents.
...
PMID:Use of p53 transgenic mice in the development of cancer models for multiple purposes. 1119 57
Xpa mice, which have a completely defective nucleotide excision repair (NER) pathway, have a cancer predisposition when exposed to several carcinogens. NER is one of the major DNA repair pathways in the mammalian cell, and is involved in the removal of a wide variety of DNA lesions, such as those induced by UV light, bulky adducts and DNA crosslinks. To study the role of NER in both mutagenesis and carcinogenesis, NER-defective Xpa mice were crossed with transgenic lacZ/pUR288 mutation-indicator mice. Furthermore, the relationship between the tumor suppressor gene
p53
, NER, induction of mutations and tumor development was studied in Xpa/p53+/-/lacZ triple transgenic mice. Using the genotoxic carcinogens benzo[a]
pyrene
(B[a]P) and 2-acetylaminofluorene (2-AAF), it is shown that mutations in the inactive (non-transcribed) lacZ reporter gene reliably predict cancer risk. In tissues at risk for the development of tumors, increased mutant frequencies could be found at much earlier stages. A heterozygous loss of
p53
appears to act synergistically to a NER defect, both in mutation- as well as tumor-induction. Surprisingly, however, the effect of a heterozygous loss of
p53
appeared to be tissue-restricted, being apparent in the bladder but absent in liver and spleen.
...
PMID:The role of nucleotide excision repair and loss of p53 in mutagenesis and carcinogenesis. 1132 79
The early studies are recounted, that led to the discovery of the ubiquitous process of DNA excision repair, followed by a review of the pathways of transcription-coupled repair (TCR) and global genomic nucleotide excision repair (GGR). Repair replication of damaged DNA in UV-irradiated bacteria was discovered through the use of 5-bromouracil to density-label newly synthesized DNA. This assay was then used in human cells to validate the phenomenon of unscheduled DNA synthesis as a measure of excision repair and to elucidate the first example of a DNA repair disorder, xeroderma pigmentosum. Features of the TCR pathway (that is defective in Cockayne syndrome (CS)) include the possibility of "gratuitous TCR" at transcription pause sites in undamaged DNA. The GGR pathway is shown to be controlled through the SOS stress response in E. coli and through the activated product of the
p53 tumor suppressor
gene in human cells. These regulatory systems particularly affect the efficiency of repair of the predominant UV-induced photoproduct, the cyclobutane pyrimidine dimer, as well as that of chemical carcinogen adducts, such as benzo(a)
pyrene
diol-epoxide. Rodent cells (typically lacking the
p53
-controlled GGR pathway) and tumor virus infected human cells (in which
p53
function is abrogated) are unable to carry out efficient GGR of some lesions. Therefore, caution should be exercised in the interpretation of results from such systems for risk assessment in genetic toxicology. Many problems in excision repair remain to be solved, including the mechanism of scanning the DNA for lesions and the subcellular localization of the repair factories. Also there are persisting questions regarding the multiple options of repair, recombination, and translesion synthesis when replication forks encounter lesions in the template DNA. That is where the field of DNA excision repair began four decades ago with studies on the recovery of DNA synthesis in UV-irradiated bacteria.
...
PMID:Controlling the efficiency of excision repair. 1134 89
In previous studies using human breast carcinoma cells (MCF-7) and human colon carcinoma cells (RKO) we have shown that, in response to treatment with hydrocarbon carcinogens, these cell lines failed to undergo a
p53
-mediated cell cycle arrest in G1 phase; rather, the cells were accumulated in the S phase with damaged DNA, a situation that may lead to replication of DNA on a damaged template, resulting in the enhanced frequency of mutations in the daughter cells. This has been termed a stealth effect. In the present work we have demonstrated that the stealth effect also pertains for lung cells. In E10 nontransformed mouse lung type II cells, two potent hydrocarbon carcinogens, benzo[a]
pyrene
dihydrodiol epoxide and benzo[g]chrysene dihydrodiol epoxide, damaged DNA as suggested by retardation in S phase, but did not cause G1 arrest, in contrast to the positive control, actinomycin D. Human lung adenocarcinoma A549 cells, with normal
p53
, likewise exhibited G1 arrest after actinomycin D, but not after treatment with the diol epoxides. Several human lung cancer cell lines with absent or mutant p53, such as H358, H1734, and H82, exhibited no G1 arrest after any of the compounds. However, lung H441 adenocarcinoma cells, with a mutation in exon 5, codon 158 of
p53
, exhibited partial G1 arrest after the diol epoxides as well as actinomycin D, and H2030 adenocarcinoma cells did not show G1 arrest after any of the chemicals despite a normal
p53
. The stealth effect of evasion of G1 arrest may contribute to initiation of lung adenocarcinomas and to progression of tumors. A role in resistance to chemotherapy by certain drugs is also likely.
...
PMID:Hydrocarbon carcinogens evade cellular defense mechanism of G1 arrest in nontransformed and malignant lung cell lines. 1138 12
The cellular response to DNA damage is often a
p53
-mediated cell cycle arrest to provide time for DNA repair or to direct damaged cells into apoptosis. In this study, the impact of glutathione-S-transferase M1 (GSTM1) on DNA damage and subsequent
p53
-protein accumulation was examined in lymphocytes of healthy volunteers in vitro exposed to benzo[a]
pyrene
-diol-epoxide (BPDE) and in skin of atopic eczema patients topically treated with coal tar. DNA adducts were determined by immunocytochemical staining (ICC) and 32P-postlabelling,
p53
accumulation was studied by ICC and the GSTM1 genotype was assessed by polymerase chain reaction. In cultured lymphocytes treated with 2.5 microM BPDE for 18 h, increased levels of
p53
were found, which were positively related to BPDE-DNA adduct levels assessed by ICC (rs = 0.66, P < 0.001) and 32P-postlabelling (rs = 0.56, P < 0.001) and appeared to be higher in GSTM1(-/-) than in GSTM1(+) subjects (P = 0.003). In skin biopsies of coal tar treated eczema patients,
p53
levels were elevated in 7/10 patients and a correlation was observed between
p53
and DNA adduct levels (rs = 0.50, P = 0.029). GSTM1(-/-) subjects contained higher levels of
p53
in the stratum basale than GSTM1(+) individuals (P = 0.026), but no influence of GSTM1 on DNA adduct levels was observed. Thus,
p53
accumulates in human skin and lymphocytes as a protective mechanism against polycyclic aromatic hydrocarbon induced DNA damage, and this is more pronounced in GSTM1(-/-) compared to GSTM1(+) individuals.
...
PMID:Impact of GSTM1 on aromatic-DNA adducts and p53 accumulation in human skin and lymphocytes. 1150 23
p53
mutations are common in lung cancer. In smoking-associated lung cancer,the occurrence of G:C to T:A transversions at hotspot codons, e.g., 157, 248, 249,and 273, has been linked to the presence of carcinogenic chemicalsin tobacco smoke including polycyclic aromatic hydrocarbons suchas benzo(a)
pyrene
(BP). In the present study, we have used a highly sensitive mutation assay to determine the
p53
mutation load in nontumorous human lung and to study the mutability of
p53
codons 157, 248, 249, and 250 to benzo(a)
pyrene
-diol-epoxide (BPDE), an active metabolite of BP in human bronchial epithelial BEAS-2B cells. We determined the
p53
mutational load at codons 157, 248, 249, and 250 in nontumorous peripheral lung tissue either from lung cancer cases among smokers or noncancer controls among smokers and nonsmokers. A 5-25-fold higher frequency of GTC(val) to TTC(phe) transversions at codon 157 was found in nontumorous samples (57%) from cancer cases (n = 14) when compared with noncancer controls (n = 8; P < 0.01). Fifty percent (7/14) of the nontumorous samples from lung cancer cases showed a high frequency of codon 249 AGG(arg) to AGT(ser) mutations (P < 0.02). Four of these seven samples with AGT(ser) mutations also showed a high frequency of codon 249 AGG(arg) to ATG(met) mutations, whereas only one sample showed a codon 250 CCC to ACC transversion. Tumor tissue from these lung cancer cases (38%) contained
p53
mutations but were different from the above mutations found in the nontumorous pair. Noncancer control samples from smokers or nonsmokers did not contain any detectable mutations at codons 248, 249, or 250. BEAS-2B bronchial epithelial cells exposed to doses of 0.125, 0.5, and 1.0 microM BPDE, showed G:C to T:A transversions at codon 157 at a frequency of 3.5 x 10(-7), 4.4 x 10(-7), and 8.9 x 10(-7), respectively. No mutations at codon 157 were found in the DMSO-treated controls. These doses of BPDE induced higher frequencies, ranging from 4-12-fold, of G:C to T:A transversions at codon 248, G:C to T:A transversions and G:C to A:T transitions at codon 249, and C:G to T:A transitions at codon 250 when compared with the DMSO-treated controls. These data are consistent with the hypothesis that chemical carcinogens such as BP in cigarette smoke cause G:C to T:A transversions at
p53
codons 157, 248, and 249 and that nontumorous lung tissues from smokers with lung cancer carry a high
p53
mutational load at these codons.
...
PMID:Mutability of p53 hotspot codons to benzo(a)pyrene diol epoxide (BPDE) and the frequency of p53 mutations in nontumorous human lung. 1152 24
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