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
Query: UNIPROT:B6E4X6 (
mutant p53
)
3,342
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It has been proposed that p53 tumor-suppressor plays a key role in maintaining genome integrity in mammalian cells. We analyzed karyotype alterations in human and murine cell sublines expressing various exogenous human mutant (His175, Trp248, His273) or wild-type (wt) p53 cDNAs. In human pseudodiploid LIM1215 cells that contain two endogenous wt-p53 gene alleles, p53 mutants caused both an increase in the frequency of chromosome breaks and an emergence of hyperdiploid cells. Murine T12-/- and 10(1) fibroblasts lacking endogenous p53 expression have very unstable karyotypes and show a strong tendency to increase their ploidy levels during growth in culture. Transduction of a wt-p53 construct into p53-deficient cells inhibited an accumulation of highly polyploid cell variants. Transduction of
mutant p53
did not show such an effect. Modification of endogenous and exogenous p53 expression by
caffeine
, which interferes with normal induction of p53 in response to DNA damage, showed no correlation between the induction of chromosome breaks and heteroploidy. We conclude that the
caffeine
- or
mutant p53
-induced increase in the frequency of chromosomal breaks in dividing LIM1215 cells is assonated with inactivation of wt-p53 function(s) responsible for control of G1 checkpoint and/or DNA repair, while numerical chromosome changes in these cells may be a result of elimination or modification of a separate p53 function, or due to gain-of-function activities of p53 mutants. p53 modifications may therefore cause chromosome instability by different pathways: (1) through changes in the system(s) preventing proliferation of cells with genomic alterations; and (2) by increasing the probability of events, such as chromosome non-disjunction and/or endoreduplication that can lead to chromosome gains.
...
PMID:Chromosome changes caused by alterations of p53 expression. 869 99
The effect of modifications of p53 expression on the incidence of numerical and structural chromosome aberrations was studied. Infection of LIM1215 cells containing two alleles of the wild-type p53 gene (P53wt) with the recombinant viruses that expressed mutant cDNAs coding for human p53 (His273, Trp248, and His175) resulted in appearance of hyperdiploid cells in populations and an increased proportion of metaphases with chromosome breakage. Expression of the exogenous p53wt or vectors HSG/neo and pPS/neo, which did not contain the p53 cDNA, did not induce numerical or structural chromosome aberrations. Treatment of cells with
caffeine
decreased the p53wt content and increased the proportion of metaphases with chromosome breaks; however, it did not induce hyperdiploidy in the majority of cell lines. Only in the subline that expressed the exogenous p53Trp248 did
caffeine
treatment increase the proportion of hyperdiploid variants, which was correlated with the hyperexpression of the product of the mutant allele. The increase in the frequency of chromosome breaks probably resulted from p53wt inactivation, whereas changes in chromosome number might be induced by some additional activities of p53 determined by mutations. Possible mechanisms for inducing heteroploidy by
mutant p53
variants, including the role of endoreduplication in inducing hyper- and polyploidy, are discussed.
...
PMID:[Induction of hyperdiploidy and chromosome breaks in LIM1215 cells expressing the exogenous mutant p53]. 896 80
We have previously identified a p53-independent apoptotic response that is delayed until 48-72 h after irradiation of colorectal adenoma and carcinoma cells. Because the delay appears to be in part due to a transient G2 cell cycle arrest, the importance of this checkpoint in the mechanism of ionizing radiation (IR)-induced death of colorectal tumor cells was investigated. An adenoma cell line with (282Arg-->Trp)
mutant p53
(S/RG/C2) and a carcinoma cell line (PC/JW/FI) lacking p53 protein treated with 5 Gy IR in the presence of 1.5 mm
caffeine
(
CAF
) reduced IR-induced G2 arrest and increased the level of apoptosis (1.5-1.6-fold) 24 h after treatment. Increased IR apoptotic cell death with
CAF
significantly reduced IR cell survival over a 7-day period in S/RG/C2 and PC/JW/FI. To investigate whether
CAF
radiosensitization correlated with lack of wild-type (wt) p53, we studied transfected derivatives of an adenoma-derived cell line (PC/AA/C1), in which the endogenous wt p53 activity was disrupted by the expression of a dominant negative (273Arg-->His) p53 mutant protein (designated AA/273p53/B). This p53-defective cell line was also radiosensitized by
CAF
, whereas the vector control (AA/PCMV/D), which retained wt p53 activity, was not. In addition, as with the S/RG/C2 and PC/JW/FI cell lines, the 7-day IR cell survival was reduced significantly in AA/273p53/B compared with the vector control cell line. This suggests that radiosensitization by
CAF
and increased cell death is dependent on loss of wt p53 function. Interestingly, radiosensitization of the AA/273p53/B cell line was not associated with accelerated apoptosis but correlated with increased polyploid giant cells, which have been associated with disruption of cell cycle checkpoints and genomic instability. These results demonstrate that G2 checkpoint inhibition with
CAF
leads to preferential IR cell killing in cell lines in which wt p53 is inactivated and that this increased cell killing is not necessarily dependent on increased IR-induced apoptosis.
...
PMID:Inhibition of radiation-induced G2 delay potentiates cell death by apoptosis and/or the induction of giant cells in colorectal tumor cells with disrupted p53 function. 981 21
Caffeine
is known to potentiate the cytotoxic effects of DNA damaging agents and increases the sensitivity of p53-deficient cells to X-irradiation (X-IR). We have analyzed the cell cycle and cell death control after X-IR in the absence or presence of
caffeine
in hematological cell lines with various configurations of the p53 gene; EBV-immortalized lymphoblastoid cells with heterozygous p53 mutation (wt/mt), human leukemia cell lines HL60 and KOPM28 with no and
mutant p53
expression, respectively. These cell lines display an impaired G0/G1 checkpoint and G2 delay following X-IR, and resistance to apoptosis, which are in accordance with findings previously reported. When irradiated in combination with
caffeine
, all these cell lines overrode the G2 delay and accumulated at G0/G1. The cell cycle modifications in these cell lines correlated with the increase in radiation-induced p34Cdc2 kinase activity by
caffeine
. These cell cycle control modifications by
caffeine
, however, were not associated with enhancement of radiation-induced apoptosis or reduction of clonogenic growth activity in these cell lines. These results suggest that the cytocidal effect of
caffeine
may need to be verified independently of its cell cycle regulatory activities at least in some cases with p53 mutation.
...
PMID:DNA damage-associated cell cycle and cell death control is differentially modulated by caffeine in clones with p53 mutations. 1004 63
Pancreatic cancer is the fifth leading cause of cancer related deaths in the United States. Despite many recent advances in the treatment modalities, the mortality rate still remains very high. Paclitaxel (Taxol) and
Caffeine
have been used for the treatment of this disease, however the molecular mechanisms of these agents are not fully understood, which may be partly responsible for the failure of these agents in the treatment of pancreatic cancer. Human pancreatic adenocarcinoma cell lines, HPAC and PANC-1 containing wild-type and
mutant p53
respectively, were used to investigate the effects of Taxol and
Caffeine
on cell growth, and their effects on the modulation of cell cycle and apoptosis related genes. Protein extracts from these cells treated with 100 nM of Taxol or 4 mM of
Caffeine
were subjected to Western blot analysis for this study. Drug treated cells were also analyzed to calculate the number of cells undergoing apoptosis. Dose and time dependent growth inhibition was observed in both PANC-1 and HPAC cells when treated with either Taxol or
Caffeine
. Western blot analysis showed an up-regulation of p21WAF1 in both cell lines treated with either Taxol or
Caffeine
. Furthermore, down-regulation of cyclin B and cdk1 was observed in Taxol and
Caffeine
treated HPAC cells. However, the results were drastically different in PANC-1 cells where cyclin B was down regulated only by
Caffeine
treatment and the level of cdk1 protein was undetectable in this cell line. Moreover, up-regulation of p53 and down-regulation of Bcl-2 was observed only in HPAC cells treated with Taxol. Apoptotic cell death analysis showed increasing number of cells undergoing apoptosis between 24 and 48 h of
Caffeine
treatment, however only Taxol showed greater than 50% cells under-going apoptosis only in HPAC cells. The up-regulation of p21WAF1 and down-regulation of cyclin B and cdk1 suggest their possible roles in G2/M cell cycle arrest caused by both Taxol and
Caffeine
as reported earlier. From these results we conclude that the differential molecular changes observed in this study may determine the cellular effects of these agents on pancreatic adenocarcinoma cells and that the effects of chemotherapeutic agents may be determined by the endogenous status of p53 mutation and, in turn, may determine the therapeutic effects of these agents in the treatment of pancreatic cancer.
...
PMID:Molecular effects of taxol and caffeine on pancreatic cancer cells. 1053 72
Genomic DNA replication is tightly controlled to ensure that DNA replication occurs once per cell cycle; loss of this control leads to genomic instability. Geminin, a DNA replication inhibitor, plays an important role in regulation of DNA replication. To investigate the role of human geminin in the maintenance of genomic stability, we eliminated geminin by RNA interference in human cancer cells. Depletion of geminin led to overreplication and the formation of giant nuclei in cells that had wild-type or
mutant p53
. We found that overreplication caused by depletion of geminin activated both Chk1 and Chk2, which then phosphorylated Cdc25C on Ser216, resulting in its sequestration outside the nucleus, thus inhibiting cyclin B-Cdc2 activity. This activated G(2)/M checkpoint prevented cells with overreplicated DNA from entering mitosis. Addition of
caffeine
, UCN-01, or inhibitors of checkpoint pathways or silencing of Chk1 suppressed the accumulation of overreplicated cells and promoted apoptosis. From these results, we conclude that geminin is required for suppressing overreplication in human cells and that a G(2)/M checkpoint restricts the proliferation of cells with overreplicated DNA.
...
PMID:Rereplication by depletion of geminin is seen regardless of p53 status and activates a G2/M checkpoint. 1528 13
The basic leucine zipper transcription factor, CCAAT/enhancer binding protein alpha (C/EBPalpha), is abundantly expressed in keratinocytes of the skin; however, its function in skin is poorly characterized. UVB radiation is responsible for the majority of human skin cancers. In response to UVB-induced DNA damage, keratinocytes activate cell cycle checkpoints that arrest cell cycle progression and prevent replication of damaged DNA, allowing time for DNA repair. We report here that UVB radiation is a potent inducer of C/EBPalpha in human and mouse keratinocytes, as well as in mouse skin in vivo. UVB irradiation of keratinocytes resulted in the transcriptional up-regulation of C/EBPalpha mRNA, producing a >70-fold increase in C/EBPalpha protein levels. N-Methyl-N'-nitro-N-nitrosoguanidine, etoposide, and bleomycin also induced C/EBPalpha. UVB-induced C/EBPalpha was accompanied by an increase in p53 protein and
caffeine
, an inhibitor of ataxia-telangiectasia-mutated kinase, and ataxia-telangiectasia-mutated and Rad3-related kinase inhibited UVB-induced increases in both C/EBPalpha and p53. UVB irradiation of p53-null or
mutant p53
-containing keratinocytes failed to induce C/EBPalpha. UVB irradiation of C/EBPalpha knockdown keratinocytes displayed a greatly diminished DNA damage G(1) checkpoint, and this was associated with increased sensitivity to UVB-induced apoptosis. Our results uncover a novel role for C/EBPalpha as a p53-regulated DNA damage-inducible gene that has a critical function in the DNA damage G(1) checkpoint response in keratinocytes.
...
PMID:C/EBPalpha is a DNA damage-inducible p53-regulated mediator of the G1 checkpoint in keratinocytes. 1557 70
The repair of point mutations directed by modified single-stranded DNA oligonucleotides is dependent on the activity of proteins involved in homologous recombination (HR). As a consequence, factors that stimulate homologous recombination, such as double strand breaks, can impact the frequency with which repair occurs. Here, we report that the stalling of replication forks can also activate the gene repair pathway and lead to an enhanced level of nucleotide exchange. The mammalian cell line, DLD-1, containing an integrated mutant eGFP gene, was used as an assay system to explore how replication fork activity affects the overall repair reaction. The addition of 2',3'-dideoxycytidine (ddC), a nucleoside analog that retards the rate of elongation and effectively stalls the replication fork, results in a lengthened S phase and an increased number of gene repair events. This stimulation was reversed when
caffeine
was added to the reaction at concentrations that block the homologous recombination pathway. In contrast, the nucleoside analog, 1-beta-D-arabinofuranosylcytosine which stops replication in these cells, failed to stimulate the gene repair reaction to any appreciable degree until the block is released and active replication resumes. Furthermore, overexpression of wild-type p53 which is known to bind transiently to stalled replication forks blocked the stimulatory effect of ddC. Overexpression of
mutant p53
genes, deficient in the capacity to bind DNA, however, did not inhibit the reaction. Our results indicate that an expansion of S phase and a transient stalling of replication forks can increase the frequency of targeted gene repair.
...
PMID:Gene repair in mammalian cells is stimulated by the elongation of S phase and transient stalling of replication forks. 1572 25
Irradiation of female SKH-1 hairless mice with UVB (30 mJ/cm2) twice a week for 10-20 weeks resulted in the formation of a large number of cellular patches (>8 adjacent cells/patch) that are recognized with an antibody (Pab240) which recognizes mutated but not wild-type p53 protein. These patches are not recognized by an antibody (Pab1620) to wild-type p53 protein. The patches, which are considered putative early cellular markers of the beginning of tumor formation, started appearing after 4-6 weeks of UVB treatment, and multiple patches were observed after treatment for 10 weeks. The number and size of the patches increased progressively with continued UVB treatment. Discontinuation of UVB for 4 weeks resulted in an 80-90% decrease in the number of these patches. The number of the remaining patches did not decrease any further but remained relatively constant for at least 4-9 weeks. Oral administration of green tea (6 mg tea solids/ml) or
caffeine
(0.4 mg/ml) as the sole source of drinking fluid during irradiation with UVB, twice a week for 20 weeks, inhibited UVB-induced formation of
mutant p53
positive patches by approximately 40%. Oral administration of green tea (6 mg tea solids/ml) as the sole source of drinking fluid or topical applications of
caffeine
(6.2 micromol) once a day 5 days a week starting immediately after discontinuation of UVB treatment enhanced the rate and extent of disappearance of the
mutant p53
-positive patches. Topical applications of
caffeine
to the dorsal skin of mice pretreated with UVB for 20 weeks resulted in enhanced apoptosis selectively in focal basal cell hyperplastic areas of the epidermis (putative precancerous lesions), but not in areas of the epidermis that only had diffuse hyperplasia. Our studies indicate that the chemopreventive effect of
caffeine
or green tea may occur by a proapoptotic effect preferentially in early precancerous lesions.
...
PMID:Administration of green tea or caffeine enhances the disappearance of UVB-induced patches of mutant p53 positive epidermal cells in SKH-1 mice. 1581 11
Irradiation of SKH-1 mice with UVB light for 20 weeks resulted in a large number of patches of epidermal cells, which was visualized with an antibody that recognizes mutated p53 protein. Oral treatment of mice with
caffeine
(0.4 mg/ml) or green tea (6 mg tea solids/ml) as the drinking fluid during UVB irradiation decreased the number of patches by approximately 40%. Sequencing analysis of the p53 gene (exons 3 to 9) detected 88, 82 or 39 point mutations in 67, 70 or 29 patches from water,
caffeine
or tea treated mice, respectively. A major hotspot at codon 270 (Arg-->Cys) accounted for 47.7% (water), 70.7% (
caffeine
) or 46.2% (tea) of all mutations. Patches from
caffeine
treated mice had fewer types of mutations than patches from mice treated with water or tea. Administration of
caffeine
or tea during 20 weeks of UVB irradiation eliminated mutations at codons 149 (Pro-->Ser) and 210 (Arg-->Cys) but increased the frequency of mutations at codon 238 (Ser-->Phe). Topical applications of
caffeine
(1.2 mg in 100 microl acetone) once a day, five times a week for 6 weeks after stopping UVB decreased the number of patches by 63% when compared with mice treated with acetone. DNA sequencing analysis detected 63 and 68 mutations in 48 and 57 patches from acetone or
caffeine
treated mice, respectively. Although no differences in the frequency, position or types of mutations were observed, the
caffeine
group harbored less homozygous mutations (12.3% of the total) than the acetone group (31.3% of the total, P = 0.029). In summary, oral treatment of mice with
caffeine
or green tea during chronic UVB irradiation changed the mutation profile of the p53 gene in early
mutant p53
positive epidermal patches, and topical applications of
caffeine
after discontinuation of chronic UVB irradiation specifically eliminated patches harboring homozygous p53 mutations.
...
PMID:Effect of administration of caffeine or green tea on the mutation profile in the p53 gene in early mutant p53-positive patches of epidermal cells induced by chronic UVB-irradiation of hairless SKH-1 mice. 1597 59
1
