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Query: UMLS:C0043346 (
xeroderma pigmentosum
)
2,924
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A 61-year-old female patient with
xeroderma pigmentosum
(XP), registered as XP46KO, was assigned to complementation group F by the cell fusion-complementation method. The XP46KO fibroblasts in culture exhibited a defective DNA repair capacity of 10-15% unscheduled DNA synthesis and a 3-fold sensitivity to the lethal effect of 254 nm ultraviolet light compared with normal cells. The patient had mild clinical symptoms consisting of numerous pigmented freckles and a small number of seborrheic keratosis-like papules. She had no skin cancers in the sun-exposed areas of the skin and so far no neurological abnormalities. A review of 11 Japanese group F patients revealed very mild skin symptoms with no ocular or neuro-psychiatric abnormalities. Single skin cancers occurred in only 3 of the 11 patients with an average age of 52 years for their first skin
malignancy
.
...
PMID:Clinical and photobiological characteristics of xeroderma pigmentosum complementation group F: a review of cases from Japan. 269 53
Malignant melanomas were found in 15.8% of
xeroderma pigmentosum
(XP) patients with skin cancer in Japan. When multiple cancers were scored separately depending on the histopathologic types, 12.1% of the skin cancers in XP patients was malignant malignant melanoma. The relative incidence of malignant melanoma in skin cancer in XP patients is similar to that in skin cancer in general (12.6%), reported previously. Most of the malignant melanoma in XP patients developed in skin exposed to sunlight, in contrast to the high incidence of malignant melanoma in general in the unexposed skin of Japanese people. A DNA repair defect of UV damage is strongly suggested to be responsible for the high incidence of skin cancer in XP patients. The onset of malignant melanoma in XP patients was about ten years old, and was as early as those of basal cell carcinoma and squamous cell carcinoma in the patients with very low DNA repair capacities. Among nine genetic complementation groups and a variant type, group A XP cells were found to be extremely hypermutable by ultraviolet light, while group C XP cells were also hypermutable, but at the same level as normal cells when adjusted for survival. Mutagenesis as a possible mechanism of carcinogenesis in XP is supported by these results, but evidence in other
cancer
-prone hereditary diseases is yet to be obtained.
...
PMID:Melanoma and other skin cancers in xeroderma pigmentosum patients and mutation in their cells. 271 57
In order to investigate the biochemical events involved in potentially lethal DNA damage repair (PLDR), we have identified a pleiotropic protein expression response that is activated upon X-irradiation of confluence-arrested human malignant melanoma (U1-Mel) cells. Plateau-phase U1-Mel cells were selected because of their extraordinary capacity for PLDR. Eight major X-ray-induced polypeptides (XIPs) of Mr 126,000-275,000 (i.e., XIP126 through XIP275) were detected by resolving L-[35S]methionine-labeled whole cell extracts using two-dimensional gel electrophoresis. XIPs were found in unirradiated, proliferating U1-Mel cells, shut off under plateau-phase conditions and resynthesized in response to X-irradiation. The expression of three classes of proteins was affected by X-irradiation. Class I proteins, XIP145 and XIP269, were induced linearly with increasing X-ray doses. The rate of synthesis of class II proteins, XIP126, XIP135, XIP138, XIP141, XIP147, and XIP275, increased linearly with low X-irradiation doses, but plateaued at doses of 150-250 cGy. In contrast, the expression of class III proteins, 47,000 and 254,000 Mr proteins, decreased with increasing X-ray doses. Tumor,
cancer
-prone, and normal human cells, which represent a wide range of cells with varied repair capacities, were investigated to better understand the role of XIPs in DNA damage responses. X-irradiated normal and tumor cells induced the synthesis of XIP145 and XIP269. A strong correlation between the induction of XIP269 and PLDR capacity, as measured by delayed plating of plateau-phase cells, was noted. XIP269 was present in six of seven normal and tumor cells types, but was completely absent in cells from patients with Bloom's syndrome and ataxia telangiectasia. X-irradiated Fanconi's anemia and
xeroderma pigmentosum
cells synthesized low levels of XIP269. The majority of XIPs synthesized by X-irradiated cells from
cancer
-prone patients were of low molecular weights. A number of XIP expression characteristics suggest their role in either gross chromosomal PLDR and/or in X-ray adaptivity responses: (a) XIP expression was inhibited by 1 microgram/ml cycloheximide, a dose which decreased survival 6-fold during PLDR holding and resulted in greater than 80% inhibition of protein synthesis; (b) XIP expression was specific for ionizing radiation damage, since heat shock, hypoxia, and alkylating agents failed to induce their synthesis; (c) the time course of expression was long, with the first appearance of XIPs at 3 h and maximal expression at 4 h.
Cancer
Res 1989 Jun 01
PMID:Identification and characterization of X-ray-induced proteins in human cells. 272 Jun 48
Cytogenetic studies of a skin squamous cell carcinoma from a
xeroderma pigmentosum
patient were performed at several passages. They show the existence of recurrent rearrangements: 53% were dicentrics, of which 67% were of the telomere-telomere type. The telomeric region of the long arm of chromosome 12 was the most involved (in 38% of dicentrics), followed by 22p. The origin of this type of jumping rearrangement and its possible role on cell proliferation are discussed.
Cancer
Genet Cytogenet 1989 Jul 01
PMID:Jumping end-to-end dicentrics in a case of squamous cell carcinoma from a patient with xeroderma pigmentosum. 275 4
The hereditary dysplastic nevus syndrome (DNS) is an autosomal dominant disorder in which affected individuals have increased numbers of dysplastic (premalignant) nevi and a greater than 100-fold increased risk of developing cutaneous melanoma. Epstein-Barr virus-transformed lymphoblastoid cell lines from patients with hereditary DNS have been shown to be hypermutable to UV radiation (M.I.R. Perera et al.,
Cancer
Res., 46: 1005-1009, 1986). To examine the mechanism involved in this UV hypermutability, we used a shuttle vector plasmid, pZ189, which carries a 160-base pair marker gene, supF, and can replicate in human cells. pZ189 was treated with UV radiation and transfected into DNS6BE, a lymphoblastoid cell line from a patient with hereditary DNS. Plasmid survival after UV was similar with the DNS6BE line and with a lymphoblastoid cell line from a normal donor. Plasmid mutation frequency was greater with the DNS line in accord with the DNS cellular hypermutability. Base sequence analysis was performed on 69 mutated plasmids recovered from the DNS line. There were significantly more plasmids with single base substitution mutations (P less than 0.01) in comparison to UV-treated plasmids passed through normal fibroblasts. pZ189 hypermutability and an increased frequency of single base substitutions was previously found with a cell line from a melanoma-prone
xeroderma pigmentosum
patient. These differences may be related to the increased melanoma susceptibility in both DNS and
xeroderma pigmentosum
.
Cancer
Res 1989 Nov 01
PMID:Ultraviolet mutagenesis in a plasmid vector replicated in lymphoid cells from patient with the melanoma-prone disorder dysplastic nevus syndrome. 279 Aug 6
In order to examine the process of malignant transformation of human somatic cells, we studied the tumorigenic conversion of an Epstein-Barr-virus-immortalized lymphoblastoid cell line (LCL) derived from a patient with
xeroderma pigmentosum
(XP) complementation group A. Repeated irradiation of the XP cells, XP7NI, with UV-light and subsequent treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA) resulted in the acquisition of tumorigenicity in athymic nude mice. The tumorigenicity of XP7NI cells was also induced by TPA treatment alone. The tumors formed in athymic mice were of B-cell lymphoma with characteristic histology, cell surface immunoglobulins and an antigen as detected by a B-cell-specific monoclonal antibody (MAb), CD20. The surface immunoglobulins and the HLA type of these tumor cells were identical with those of the parental cells. These malignantly transformed cells retained the same UV sensitivity, serum requirement, colony-forming ability in soft agar, and normal human karyotype as the parental cells. Unlike other tumorigenic lymphoblastoid cell lines, this XP lymphoblastoid cell line provides a unique case in that process(es) leading to tumorigenicity may be induced by UV and TPA without apparent karyotypic changes.
Int J
Cancer
1989 Oct 15
PMID:Tumorigenic conversion of xeroderma pigmentosum lymphoblastoid cells without karyotypic alteration. 279 36
Human hereditary diseases such as
xeroderma pigmentosum
, Fanconi's anemia, ataxia telangiectasia, and Bloom's syndrome are characterized by a proneness for developing cancer associated with abnormalities in the processing of DNA damage. The molecular defects responsible for predisposing human tissues to
cancer
are still not well understood, despite the fact that a considerable amount of work has already been done on this problem. In this paper, we show that in human tumor cell lines, in cells transformed by DNA tumor viruses, and in cells derived from certain
cancer
-prone disorders, the level of activity of a 42-kDa deoxyribonuclease is many times higher than in diploid untransformed control cells. This suggests that this activity is linked to, or may play a role in, malignant transformation.
...
PMID:Enhanced deoxyribonuclease activity in human transformed cells and in Bloom's syndrome cells. 280 19
The time course of appearance of enhanced reactivation (ER) and enhanced mutagenesis (EM) of herpes simplex virus type 1 were studied in UV-irradiated stationary cultures of
xeroderma pigmentosum
(XP) fibroblasts. In some of the XP cells EM followed similar kinetics of appearance as ER. Maximal activities occurred when infection was delayed 1 or 2 days after cell treatment. However, in certain XP cells only induction of the EM response was observed, whereas ER was absent. Interestingly, the latter XP cells had been obtained from patients who had not yet developed skin cancer at the time they were described in the literature, whereas the former XP patients had already developed skin tumors. This suggests that the ER response may somehow be involved in the process of oncogenic transformation. Dose-response studies of ER in XP cells from tumor-bearing patients showed that ER is maximally induced with a UV dose of 40 Jm-2 given to the virus. Normal levels of ER were observed in 14 different normal human skin fibroblasts, indicating that the ER- phenotype does not occur in normal cells or at least more rarely than in XP cells.
Cancer
Res 1988 Nov 01
PMID:Absence of induction of enhanced reactivation of herpes simplex virus in cells from xeroderma pigmentosum patients without skin cancer. 284 98
This review describes the evolution of research into the genetic basis of how different organisms use the process of excision repair to recognize and remove lesions from their cellular DNA. One particular aspect of excision repair, DNA incision, and how it is controlled at the genetic level in bacteriophage, bacteria, S. cerevisae, D. melanogaster, rodent cells and humans is examined. In phage T4, DNA is incised by a DNA glycosylase-AP endonuclease that is coded for by the denV gene. In E. coli, the products of three genes, uvrA, uvrB and uvrC, are required to form the UVRABC excinuclease that cleaves DNA and releases a fragment 12-13 nucleotides long containing the site of damage. In S. cerevisiae, genes complementing five mutants of the RAD3 epistasis group, rad1, rad2, rad3, rad4 and rad10 have been cloned and analyzed. Rodent cells sensitive to a variety of mutagenic agents and deficient in excision repair are being used in molecular studies to identify and clone human repair genes (e.g. ERCC1) capable of complementing mammalian repair defects. Most studies of the human system, however, have been done with cells isolated from patients suffering from the repair defective,
cancer
-prone disorder,
xeroderma pigmentosum
, and these cells are now beginning to be characterized at the molecular level. Studies such as these that provide a greater understanding of the genetic basis of DNA repair should also offer new insights into other cellular processes, including genetic recombination, differentiation, mutagenesis, carcinogenesis and aging.
...
PMID:The molecular genetics of the incision step in the DNA excision repair process. 290 Aug 58
Nine
xeroderma pigmentosum
(XP) patients were investigated. In comparison to a normal control group the XP patients had a reduced OKT-4 lymphocyte subpopulation, reduced response of lymphocytes to phytohemagglutinin in autologous serum, and diminished delayed hypersensitivity skin reaction. The possible contribution of ultraviolet irradiation to the observed immunologic alterations, and the link of these alterations to the susceptibility of patients for malignant transformation is discussed.
Cancer
1986 Jul 15
PMID:Immunologic alterations in xeroderma pigmentosum patients. 294 Nov 38
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