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Query: UMLS:C0043346 (
xeroderma pigmentosum
)
2,924
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
By using PCR amplification and oligonucleotide mismatch hybridization, base-substitution mutations of the ras genes in 26 skin tumors of Japanese
xeroderma pigmentosum
(XP) patients were studied. Thin sections of tumor tissues which were fixed and embedded in paraffin blocks were used in this study. After analyzing codons 12, 13 and 61 of the H-, K- and
N-ras
genes by using 66 oligomer probes, we detected only one mutation of the K-ras gene at codon 61 in one tumor sample. All the other tumors were therefore considered not to have a mutation in the ras genes. These results suggest that mutations of the ras genes are not particularly associated with skin tumors of Japanese XP patients.
...
PMID:Infrequent mutation of the ras genes in skin tumors of xeroderma pigmentosum patients in Japan. 173 6
The recessive autosomal hereditary disease,
xeroderma pigmentosum
(XP), is characterized by a high incidence of tumors in sun-exposed skin. The defect in early steps of excision repair of XP cells leads to hypermutability towards UV-mimicking agents. DNA from eight XP tumors were screened for activated transforming genes using 3T3 transfection. In two skin tumors isolated from a XP child, an activated N-ras oncogene was detected. Synthetic oligonucleotide probes were used to characterize the mutation in the ras gene. Both tumors were found to be mutated in the 61st
N-ras
codon from gln to his. The mutation was accompanied by an increase in the level of
N-ras
specific mRNA and in one transformant, by the alteration of the p21 protein. In the same tumors, c-myc amplification and over transcription, and Ha-ras gene rearrangement and amplification were also detected. Analysis of other XP tumors with eleven different oncogene probes revealed an amplification of the Ha-ras gene in 6 out of 10 cases. The normal skin fibroblasts from XP patients show normal pattern levels of
N-ras
, c-myc and Ha-ras sequences. The hypothesis is proposed that the presence of several oncogene alterations in the same tumor could be due to the high amount of UV-induced DNA lesions found in the exposed skin cells, in the absence of efficient repair.
...
PMID:Activated oncogenes in human skin tumors from a repair-deficient syndrome, xeroderma pigmentosum. 264 47
The search for the genetic targets responsible for tumorigenesis has led to the identification of a number of cancer genes or cellular oncogenes (c-oncogenes). The oncogenes are activated forms of the proto-oncogenes, which are normal cellular genes and are scattered throughout the cellular genome. The number of known cellular proto-oncogenes and associated oncogenes now exceeds 30. There are different proto-oncogene families and their products have different functions and cellular localisation. They may function in normal cells in the process of proliferation, regulation of cellular metabolism through signal transfer, or cell differentiation. Activation of proto-oncogenes in man is now assumed to be due to: 1) point mutation; 2) overexpression or 3) gene rearrangement. The observation that in some tumors multiple oncogenes are altered could be interpreted in terms of a multigene hypothesis. However, in some cases, a single properly-activated oncogene may be able to trigger the whole process of malignant conversion. It is difficult to correlate, without ambiguity, tumor induction to specific types of DNA lesions in human tumors.
Xeroderma pigmentosum
(XP), a rare recessive autosomal skin disorder characterized biochemically as a DNA repair-deficient disease, is the first example in which unrepaired UV-induced DNA lesions are directly responsible for tumorigenesis. In two independent XP skin tumors, isolated from the same patient, we have detected several (
N-ras
, c-myc, Ha-ras) altered oncogenes in the same tumor. We postulate that the modifications we have found in these tumors are primarily due to the presence of unrepaired UV-adducts. Long term treatment of human tumoral cell lines bearing an activated ras oncogene, with Interferon-alpha (IFN), showed that IFN can affect the phenotype of the tumor cells without altering the expression of the activated ras gene. IFN may have the capacity to affect diverse cellular pathways. Consequently, the nature of the biological response of a given type of tumor cell to IFN may depend on its inherent properties.
...
PMID:Activated oncogenes in human tumors. 268 33
P44 Ro (Mel) is a human malignant melanoma cell line derived from a testicular metastasis in a DNA repair deficient,
xeroderma pigmentosum
patient. This line harbors a
N-ras
gene mutated in codon 61. To investigate other cellular genes possibly contributing to the expression of its transformed phenotype, four XP44 revertant cell lines were isolated by different selection procedures and the association of the level of expression of various oncogenes (including
N-ras
) and tumor suppressor genes with the selection for the revertant phenotype was determined. The revertants exhibited a significant but variable degree of phenotypic reversion, according to the selective pressure to which they were submitted, and a phenotypic stability dependent on their constant maintenance in selective medium. Back-revertant lines were isolated by culturing revertant lines in control medium for several weeks. The comparison between parental, revertant and back-revertant cells has revealed that, beyond the mutation in codon 61 of
N-ras
, two groups of genes appear to be also implicated in the transformation process of XP44 RO (Mel) cells: one group, comprising pim A, trk, Rb and p53, whose expression is independent of the cell selection conditions; the other group, comprising Ha-ras,
N-ras
, neu 1, fos and met H, whose expression is more or less dependent upon such conditions. The myc gene is apparently not involved in this phenomenon. These results, besides strengthening the concept that carcinogenesis is a multigenic process, suggest that diverse mechanisms can lead to the transformed phenotype, but that these mechanisms might have some pathway(s) in common.
...
PMID:Cellular genes possibly involved in the transformation process of the human melanoma cell line XP44 RO (Mel). 765
Mutations in Ha-ras, Ki-ras, and
N-ras
genes in squamous and basal cell carcinomas in patients with
xeroderma pigmentosum
(XP) were examined by the polymerase chain reaction followed by single-strand conformation polymorphism analysis and direct base sequencing. No mutation was detected in codons 12, 13, and 61 of the ras genes in XP skin tumors. This was in contrast with previous findings of a high frequency of mutation in the p53 gene in skin tumors in XP patients. A novel mutation in codon 6 of the Ki-ras gene was detected in a squamous cell carcinoma. The mutation was a C-->T transition at a dipyrimidine (5'-CT) sequence and could have been produced by solar ultraviolet light. The mutated ras gene did not have the ability to transform NIH/3T3 cells. In three tumors, multiple base substitutions were detected in exon 1 of the Ki-ras and
N-ras
genes. These results and our previous work on p53 gene mutations suggest that mutations in ras genes are far less frequent than in the p53 gene in the skin tumors in XP patients and that ras genes are less important in skin tumorigenesis in XP patients than is the p53 gene.
...
PMID:Far less frequent mutations in ras genes than in the p53 gene in skin tumors of xeroderma pigmentosum patients. 791 98
Xeroderma pigmentosum
(XP) patients are clinically characterized by a very high incidence of skin cancers on exposed skin, at an early age. XP cells in vitro are strongly deficient in excision-repair and highly mutagenized by UV light. We were, therefore, interested in measuring mutation frequency and in determining mutation spectra in patients' tumors exposed to UV lesions. We chose to look at oncogene activation in skin tumors with the idea that more mutations, particularly of the ras gene family, would be found in XP tumors where lesions remain unrepaired compared to normal individuals. Our results clearly show that more than a 2-fold significantly higher mutation frequency (50%) of the ras genes was found in XP in contrast to control tumors (22%). The majority of the mutations were found at codon 12 of all three ras genes with a preponderance for
N-ras
in XP samples. The mutation spectra indicate that all mutations found were located opposite pyrimidine-pyrimidine sequences which represent a hot spot for UV-induced DNA lesions. Most of the mutations were of the type expected from studies performed in vitro with model systems. This high mutation frequency in XP was accompanied by a very high level of Ha-ras and c-myc gene amplification and rearrangement. All these data are consistent with a fundamental role of unrepaired UV-induced DNA lesions as an initiating event in human skin tumors on exposed parts of the body.
...
PMID:High mutation frequency in ras genes of skin tumors isolated from DNA repair deficient xeroderma pigmentosum patients. 845 33
