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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ultraviolet (UV) irradiation produces two major photoproducts, cyclobutane pyrimidine dimers (CPD) and (6-4) photoproducts. T4 endonuclease V (T4N5), which specifically repairs CPD, is encapsulated in liposomes. A previous study has shown that UV-induced carcinogenesis in mice was suppressed by the application of T4N5 liposomes. To confirm the suppressive effect, we applied T4N5 liposomes with repeated UVB exposure to hairless mice. At the end of the experiment, mice treated with T4N5 liposomes had 3.5 +/- 1.3 tumors per mouse, and control mice had 6.3 +/- 2.8 tumors per mouse. In addition, the incidence of tumors was reduced in T4N5 liposome-treated mice compared with controls. The pathological diagnosis of the tumors was not significantly different between two groups. Immunohistochemical analysis of p53 protein in UV-induced tumors showed that nearly half of the tumors in both groups were positive. When the biopsied normal-looking skin taken during the experiment was stained with p53 antibody, there was no significant difference of the timing of p53 protein expression between the control mice and T4N5 liposome-treated mice. These results confirmed that CPD plays a pivotal role in UV carcinogenesis, although the molecular mechanisms of the suppression by T4N5 liposomes should be further clarified.
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PMID:Reduction of ultraviolet-induced skin cancer in mice by topical application of DNA excision repair enzymes. 765 67

We have investigated UV-B-induced skin tumors of hairless SKH-HRA mice for alterations in the p53 gene and for mutations in either of the three ras genes. Out of 32 tumors screened, only one contained a ras mutation, i.e. in codon 12 of the K-ras gene. Alterations in the p53 gene were much more abundant, as illustrated immunohistochemically by the accumulation of p53 protein in 75% of the tumor sections examined. Immunoreactivity was observed primarily in the proliferative cell compartment, but no clear correlation between p53 staining in tumor cells and histological parameters for malignancy was observed. Subsequent sequence analysis showed that point mutations in the p53 gene are detectable in 30% (nine out of 30) of the skin tumors examined. The majority of the mutations are located in codons 267 and 272, most likely originating from UV-B-induced photo-adducts at dipyrimidine sites in the non-transcribed strand. Codon 272 corresponds to the human codon 278, which is also a hotspot for p53 mutations in human non-melanoma skin cancers. Codon 267 matches the human codon 273, which does not contain a dipyrimidine site, but represents a CpG hotspot for p53 mutations in internal malignancies. Our results demonstrate that this hairless mouse model for UV-induced skin cancer corresponds closely to human non-melanoma skin cancers with respect to mutations in the p53 gene.
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PMID:Frequent p53 alterations but low incidence of ras mutations in UV-B-induced skin tumors of hairless mice. 776 77

Removal of UVB-induced cyclobutane pyrimidine dimers (CPD) from each of the two strands of the transcriptionally active p53 tumor suppressor gene and the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene was determined in the epidermis of the hairless mouse using the CPD-specific enzyme T4 endonuclease V. Mice were exposed to a single dose of UVB (2 kJ/m2) and kept in darkness for up to 24 h. About 80% of the CPD were removed from the transcribed strand of the p53 and HPRT genes within 24 h. Most rapid removal was observed during the first 4 h. In contrast, very little removal of CPD from the nontranscribed strand of the p53 and the HPRT genes was observed in 24 h. The same low level of repair was observed in the inactive c-mos proto-oncogene. The efficient repair of the transcribed strand compared to the nontranscribed strand of transcriptionally active genes in the epidermis of the hairless mouse resembles the repair of CPD in cultured rodent cells. Moreover, the selective removal of CPD from the transcribed strand of the p53 gene correlates well with the known strand bias of u.v.-induced mutations at dipyrimidine sites in the p53 gene of u.v.-induced mouse skin tumors.
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PMID:Strand-specific removal of cyclobutane pyrimidine dimers from the p53 gene in the epidermis of UVB-irradiated hairless mice. 797 Jul 1

Skin lesions induced by exposure of three strains of female hairless mice to the light emitted by uncovered halogen quartz lamps were subjected to histopathological analysis. We examined 170 representative specimens out of a total of 597 skin lesions, i.e. 38 out of 74 SKH-1 mice, 110 out of 472 MF-1 mice, and 42 out of 51 C3H mice. The results provided evidence of various types of alterations, including preneoplastic changes, such as epidermal hyperplasia, and benign tumours, such as papillomas, as well as tumours with an increasing degree of malignancy, i.e., keratoacanthoma-like tumours, appendage/basal tumours, actinic keratoses/carcinomas in situ, and squamocellular carcinomas. SKH-1 was the most sensitive strain to the far-ultraviolet wavelengths delivered by halogen lamps, as shown not only by the shortest latency time and the highest multiplicity of skin lesions but also by the highest frequency of malignant tumours. Some areas of atypical melanocyte proliferation were only detected in C3H pigmented mice. Eighty-two of the lesions excised from MF-1 mice were additionally examined for p53 protein by immunohistochemical methods. Formalin-fixed, paraffin-embedded sections and frozen sections were analyzed in parallel by using polyclonal CM-1 antibody and monoclonal PAb240 antibody, respectively. A positive response for p53 was only observed in squamocellular carcinomas, and was related to the size of cancers; in fact, six out of 10 cancers of 10-30 mm in diameter were positive, whereas all 16 cancers of 2-9 mm in diameter were negative. All six positive squamocellular carcinomas were detected by using the CM-1 antibody, which recognizes both wild-type and mutant forms of p53 protein, and five of them were also positive with the PAb 240 antibody, which only recognizes the mutant form. Thus, p53 mutation appears to be a late event in the development of halogen-induced skin tumours in hairless mice, requiring a severe degree of malignancy and an advanced stage of the neoplastic mass growth.
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PMID:Detection of p53 and histopathological classification of skin tumours induced by halogen lamps in hairless mice. 798 4

We have shown elsewhere that highly non-uniform exposure to ionizing radiation from authentic Chernobyl-released and artificially-produced hot particles (fragments of nuclear fuel) transform fibroblastic 10T1/2 cells in vitro effectively. We have also shown that hot-particle exposure leads to mutation and overexpression of the tumour suppressor gene p53 (and some other growth-related genes) in mouse skin in vivo at a high frequency. In the present paper it is shown that hot-particles produced by irradiating natural uranium with slow neutrons, when implanted (immobilized) under the skin of hairless and nude mice, induce epidermal tumours in excess compared with the conventional non-threshold stochastic model of radiation-induced cancer. One explanation for the effectiveness of the hot-particle exposure, under the present assay conditions, is that the same cells in which specific radiation-induced DNA damage is most likely to occur, are forced into sustained mitotic activity in the chronic wound which develops around the radiation source (combined genotoxic and nongenotoxic effects). The results are consistent with a role for cell proliferation in multistage carcinogenesis in mouse skin.
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PMID:Tumour induction in mouse epidermal cells irradiated by hot particles. 809 89

High levels of the p53 protein are immunohistochemically detectable in a majority of human nonmelanoma skin cancers and UVB-induced murine skin tumors. These increased protein levels are often associated with mutations in the conserved domains of the p53 gene. To investigate the timing of the p53 alterations in the process of UVB carcinogenesis, we used a well defined murine model (SKH:HR1 hairless mice) in which the time that tumors appear is predictable from the UVB exposures. The mice were subjected to a series of daily UVB exposures, either for 17 days or for 30 days, which would cause skin tumors to appear around 80 or 30 weeks, respectively. In the epidermis of these mice, we detected clusters of cells showing a strong immunostaining of the p53 protein, as measured with the CM-5 polyclonal antiserum. This cannot be explained by transient accumulation of the normal p53 protein as a physiological response to UVB-induced DNA damage. In single exposure experiments the observed transient CM-5 immunoreactivity lasted for only 3 days and was not clustered, whereas these clusters were still detectable as long as 56 days after 17 days of UVB exposure. In addition, approximately 70% of these patches reacted with the mutant-specific monoclonal antibody PAb240, whereas transiently induced p53-positive cells did not. In line with indicative human data, these experimental results in the hairless mouse model unambiguously demonstrate that constitutive p53 alterations are causally related to chronic UVB exposure and that they are a very early event in the induction of skin cancer by UVB radiation.
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PMID:Early p53 alterations in mouse skin carcinogenesis by UVB radiation: immunohistochemical detection of mutant p53 protein in clusters of preneoplastic epidermal cells. 855 21

The occurrence of different components of the cell growth regulation pathway as expressed in experimental skin carcinogenesis in haired carcinogen-sensitive NMRI, in haired carcinogen resistant DBA/2 mice and in hairless SKH/1 mice was studied by morphological and immunohistochemical methods. The results were compared with respect to neoplastic response, number of tumors, tumor behaviour and to the inducing agent (UV irradiation or chemical carcinogen), in order to increase our understanding of specific alterations in neoplastic development caused by extraneous agents and to determine their possible usefulness as indicators of carcinogen exposure. The expression of growth factors (transforming growth factor alpha and epidermal growth factor), growth factor receptors (epidermal growth factor receptor/c-erbB-1 and c-erbB-2/neu), cell signalling component c-myc, the nuclear transcription factor Harvey-Ras and the tumor suppressor gene p53, were studied in carcinogen- and UV-induced tumor formation in mouse. The results showed increased oncogene expression as well as growth factor expression in the skin during tumor development appearing early in neoplastic and premalignant conditions and becoming more distinct during neoplastic progression. Efforts to delineate specifically initiated cells prior to the appearance of morphologically detectable alterations including dysplasia, papilloma formation and squamous cell carcinomas, were unsuccessful. Increased staining by antibodies to growth factors and oncogenes were also observed in DBA/2 animals resistant to tumor formation. It is concluded that oncogene expression and growth factor protein deposits are associated with carcinogenic effects, partly explaining the mechanism of action of these agents, but the applicability, as such, for the analysis of potential hazardous agents needs further studies.
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PMID:Oncogenes and growth factors as indicators of carcinogen exposure. 867 68

8-Hydroxy-2'-deoxyguanosine (8-OHdG) is a mutation-prone (G:C to T:A transversion) DNA base-modified product generated by reactive oxygen species or photodynamic action. G:C to T:A transversions are observed in the p53 and ras genes of UVB-induced skin cancers of mice and in squamous and basal cell carcinomas of human skin exposed to sunlight. In the current study, 8-OHdG formation was evaluated in the epidermis of hairless mice after repeated exposure to UVB, and possible mechanisms involved were studied. Exposure of hairless mice to either 3.4 [2 minimal erythema dose (MED)] or 16.8 (10 MED) kJ/m2 of UVB three times a week for 2 wk induced a 2.5- or 6.1-fold increase, respectively, in the levels of 8-OHdG in DNA, compared to the unexposed controls. An immunohistochemical method using a monoclonal antibody specific for 8-OHdG showed stronger and more extensive staining in the nuclei of UV-irradiated epidermal cells than in those of nonirradiated cells. Western blots probed with antibodies against 4-hydroxy-2-nonenal-modified proteins confirmed the involvement of reactive oxygen species in the epidermal damage induced by chronic UVB exposure. 3-Nitro-L-tyrosine was detected in western blots in a concentration-dependent manner, suggesting that peroxynitrite derived from the reaction of nitric oxide and superoxide, both of which were probably released from inflammatory cells, was involved in modifying the DNA bases. Therefore, the formation of 8-OHdG after UVB exposure appears to be regulated by at least three pathways: photodynamic action, lipid peroxidation, and inflammation and may play a role in sunlight-induced skin carcinogenesis.
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PMID:8-hydroxy-2'-deoxyguanosine is increased in epidermal cells of hairless mice after chronic ultraviolet B exposure. 887 58

Mutations with clear "UVB fingerprints" have been observed in the p53 gene of human nonmelanoma skin tumors and of experimentally UVB-induced murine skin tumors. Although UVA (315-400 nm) radiation is also a complete carcinogen, its contribution to sunlight-induced mutagenesis remains poorly characterized. There is experimental evidence that the production of reactive oxygen species plays a more dominant role with long-wave UVA than with UVB radiation. We have induced skin tumors (n = 42) in hairless SKH:HR1 mice (n = 14) by daily exposure to long-wave UVA (365-nm) radiation. The incidence of p53 alterations in these tumors is low compared to UVB-induced tumors; positive staining for the p53 protein was observed in only 50% of the tumors, and less than 15% of the tumors showed a mutation in one of the exons 5, 7, or 8 of the p53 gene. The pattern of p53 staining was more irregular and less dense compared to UVB, and the mutations (all C-->T) were mainly (six of seven) located at codon 267. Besides a general p53 hotspot, this codon is also the main hotspot for UVB-induced skin tumors in these mice. No mutations specific for UVA, ie., mutations specific for reactive oxygen species, could be detected.
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PMID:Low incidence of p53 mutations in UVA (365-nm)-induced skin tumors in hairless mice. 910 5

Ultraviolet A (UVA, 315-400 nm) radiation is known to be a complete carcinogen, but in contrast to UVB (280-315 nm) radiation, much of the cell damage is oxygen dependent (mediated through reactive oxygen species), and the dominant premutational DNA lesion(s) remains to be identified. To investigate further the basic differences in UVA and UVB carcinogenesis, we compared in vivo cellular responses, viz. cell cycle progression and transient p53 expression in the epidermis, after UVA1 (340-400 nm) exposure with those after broadband UVB exposure of hairless mice. Using flow cytometry we found a temporary suppression of bromodeoxyuridine (BrdU) uptake in S-phase cells both after UVB and UVA1 irradiation, which only in the case of UVB is followed by an increase to well over control levels. With equally erythemogenic doses (1-2 MED), the modulation of BrdU uptake was more profound after UVB than after UVA1 irradiation. Also, a marked transient increase in the percentage of S-phase cells occurred both after UVB and after UVA1 irradiation, but this increase evolved more rapidly after UVA1 irradiation. Further, p53 expression increased both after UVB and UVA1 irradiations, with peak expression already occurring from 12 to 24 h after UVA1 exposure and around 24 h after UVB exposure. Overall, UVA1 radiation appears to have less of an impact on the cell cycle than UVB radiation, as measured by the magnitude and duration of changes in DNA synthesis and cells in S phase. These differences are likely to reflect basic differences between UVB and UVA1 in genotoxicity and carcinogenic action.
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PMID:Cell cycle effects and concomitant p53 expression in hairless murine skin after longwave UVA (365 nm) irradiation: a comparison with UVB irradiation. 911 51


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