首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Summary The construction of permanent hybrid cell lines between xeroderma pigmentosum (XP) cells from different complementation groups allows analysis not only of the degree of repair correction but also of the restoration of biological activity to the UV-irradiated cells. With use of an immortal human cell line (HD2) that expresses excision repair defects typical of XP group D, a series of permanent hybrid cells has been produced with XP cells from groups A to H. Excision repair, as measured by incision analysis and unscheduled DNA synthesis, is restored to normal or near normal levels in crosses involving HD2 and cells from XP groups A, B, C, E, F, G, and I. All these hybrids show complementation for the recovery of normal UV restistance. As expected, hybrids expressing poor incision and hypersensitivity to UV were produced in crosses between HD2 and XPD fibroblasts, but they were also produced without exception when XPH was the partner. In the permanent HD2 x XPD or XPH hybrids, analysis of incision capacity reveals abnormally low activity and therefore that there has been no complementation. The true hybrid nature of HD2 x XPH cells has been confirmed by HL-A and -B tissue typing; moreover, detailed kinetic analysis of incision in these cells shows that the XPH phenotype, rather than the XPD, is expressed, i.e. breaks accumulate at low UV fluence of 1 J/m2. To help confirm these findings, another immortal XPD cell line was used in fusions involving HD2, XPH, or XPI. Cells resistant to ultraviolet were produced only with XPI fibroblasts. These data are discussed in terms of whether XPD and H mutations are likely to be allelic with respect to incision.  相似文献   

2.
The disease Xeroderma Pigmentosum (XP) is genetically heterogeneous and defined by pathogenic variants (formerly termed mutations) in any of eight different genes. Pathogenic variants in the XPC gene are the most commonly observed in US patients. Moreover, pathogenic variants in just four of the genes, XPA, XPC, XPD/ERCC2 and XPV/POLH account for 91% of all XP cases worldwide. In the current study, we describe the clinical, histopathologic, molecular genetic, and pathophysiological features of a 19-year-old female patient clinically diagnosed with XP as an infant. Analysis of archival material reveals a novel variation of a 13 base pair deletion in XPC exon 14 and a previously reported A>C missense pathogenic variant in the proximal splice site for XPC exon 6. Both variations induce frameshifts most likely leading to a truncated XPC protein product. Quantitative RT-PCR also revealed reduced mRNA levels in the archived specimen. Analysis of the XPA, XPD/ERCC2 and XPV/POLH genes in the current specimen failed to reveal pathologic variants. All previously reported pathogenic variants, polymorphisms and known amino acid changes for the XPC gene are compiled and described in the current nomenclature. Given the relative ease of screening for genetic variation and the potential role for such variation in human disease, a proposal for screening appropriate archival materials for alterations in the four most prevalent XP genes is presented.  相似文献   

3.
Xeroderma pigmentosum (XP) and trichothiodystrophy (TTD) are rare heritable diseases. Patients suffering from XP and 50% of TTD afflicted individuals are photosensitive and have a high susceptibility to develop skin tumors. One solution to alleviating symptoms of these diseases is to express the deficient cDNAs in patient cells as a form of gene therapy. XPC and TTD/XPD cell lines were complemented using retroviral transfer. Expressed wild-type XPC or XPD cDNAs in these cells restored the survival to UVC radiation to wild-type levels in the respective complementation groups. Although complemented XP cell lines have been studied for years, data on cyclobutane pyrimidine dimer (CPD) repair in these cells at different levels are sparse. We demonstrate that CPD repair is faster in the complemented lines at the global, gene, strand specific, and nucleotide specific levels than in the original lines. In both XPC and TTD/XPD complemented lines, CPD repair on the non-transcribed strand is faster than that for the MRC5SV line. However, global repair in the complemented cell lines and MRC5SV is still slower than in normal human fibroblasts. Despite the slower global repair rate, in the complemented XPC and TTD/XPD cells, almost all of the CPDs at "hotspots" for mutation in the P53 tumor database are repaired as rapidly as in normal human fibroblasts. Such evaluation of repair at nucleotide resolution in complemented nucleotide excision repair deficient cells presents a crucial way to determine the efficient re-establishment of function needed for successful gene therapy, even when full repair capacity is not restored.  相似文献   

4.
Xeroderma pigmentosum (XP) is a genetic disease characterized by an autosomal-transmitted genodermatosis involving impaired DNA repair activity, where XP patients present severe sensitivity to sunlight (UVB radiation) and are highly victimized by skin cancer. Complementing XP genes by gene therapy is one potential strategy for helping XP patients. However, current viral-based protocols still lack long-term and stable expression, due to limited post-mitotic infection and gene silencing (in the case of retroviruses) or transient expression and activation of immune response (in the case of adenoviruses). Here we demonstrate that the use of third-generation lentiviral vectors can overcome some of these limitations, rescuing the aberrant phenotype in different categories of the disease (XPA, XPC and XPD). Our results show that lentiviruses are efficient tools to transduce XP fibroblasts and correct repair-defective cellular phenotypes by recovering proper gene expression, normal UV survival and unscheduled DNA synthesis after UV radiation. We propose lentiviral vectors as an attractive alternative for gene therapy protocols focusing on DNA repair genetic diseases.  相似文献   

5.
We developed and characterized replicative small interfering RNA (siRNA) vectors for efficient, specific, and long-term gene silencing in human cells. We created stable XPA(KD) and XPC(KD) (knockdown) syngeneic cell lines to mimic human cancer-prone syndromes. We also silenced (HSA)KIN17. Several clones displaying undetectable protein levels of XPA, XPC, or (HSA)kin17 were grown for more than 300 days. This stability of gene silencing over several months of culture allows us to assess the specific involvement of these proteins in UVC sensitivity in syngeneic cells. Unlike XPA, (HSA)KIN17, and XPC gene silencing dramatically impeded HeLa cell growth for several weeks after transfection. As expected, XPA(KD) and XPC(KD) HeLa cells were highly UVC sensitive. They presented an impaired unscheduled DNA synthesis after UVC irradiation. Interestingly, XPC(KD) HeLa clones were more sensitive to UVC than their XPA(KD) or KIN17(KD) counterparts. Hygromycin B withdrawal led to the total disappearance of EBV vectors and the resumption of normal XPA or XPC protein levels. Whereas reverted XPA(KD) cells recovered a normal UVC sensitivity, XPC(KD) cells remained highly sensitive, suggestive of irreversible damage following long-term XPC silencing. Our results show that in HeLa cells, (HSA)kin17 participates indirectly in early events following UVC irradiation, and XPC deficiency strongly affects cell physiology and contributes to UVC sensitivity to a greater extent than does XPA. EBV-based siRNA vectors improve the interest of siRNA by permitting long-term gene silencing without the safety concerns inherent in viral-based siRNA vehicles.  相似文献   

6.
Polymorphisms in the XPD and the XPC gene have been associated with a lower DNA repair capacity. We determined the risk of colorectal cancer in association with the four polymorphisms XPA A23G, XPC Lys939Gln, XPD Lys751Gln and XPD Asp312Asn, and interactions between the polymorphisms and the environmental factors: smoking intensity, intake of alcohol, red meat, processed meat, fish and poultry, fruits and vegetables and dietary fibres, in relation to development of colorectal cancer in a study population of 405 colorectal cancer cases and a comparison group of 810 persons, nested within the Danish prospective cohort, Diet, Cancer and Health, of 57053 cohort members. No association was found between the XPC Lys939Gln, XPA A23G, XPD Lys751Gln, and XPD Asp312Asn polymorphisms and risk of colorectal cancer. The association of the XPD Lys751Gln polymorphism was statistically significantly different between genders, with a lower risk of colorectal cancer among women carrying the variant allele. We observed a statistically significant interaction between the XPC Lys939Gln polymorphism and consumption of red meat, with a 3.7-fold increase in colorectal cancer risk per 100g red meat intake per day among carriers of the homozygous variant, but virtually no effect of red meat intake among carriers of the wild type allele. In the light of the multiple comparisons being made, this result may be a chance finding. The results showed no interaction between the XPD Lys751Gln, XPA A23G, and XPD Asp312Asn polymorphisms and the environmental factors for the development of colorectal cancer. Overall, the results of the present study indicate that the four polymorphisms are not of major importance in colorectal cancer carcinogenesis.  相似文献   

7.
Nucleotide excision repair (NER) acts on a variety of DNA lesions, including damage induced by many chemotherapeutic drugs. Cancer therapy with such drugs might be improved by reducing the NER capacity of tumors. It is not known, however to what extent any individual NER protein is rate-limiting for any step of the repair reaction. We studied sensitivity to UV radiation and repair of DNA damage with regard to XPA, one of the core factors in the NER incision complex. About 150,000-200,000 molecules of XPA protein are present in NER proficient human cell lines, and no XPA protein in the XP-A cell line XP12RO. Transfected XP12RO cell lines expressing 50,000 or more XPA molecules/cell showed UV resistance similar to normal cells. Suppression of XPA protein to approximately 10,000 molecules/cell in a Tet-regulatable system modestly but significantly increased sensitivity to UV irradiation. No removal of cyclobutane pyrimidine dimers was detected in the SV40 immortalized cell lines tested. Repair proficient WI38-VA fibroblasts and transfected XP-A cells expressing 150,000 molecules of XPA/cell removed (6-4) photoproducts from the genome with a half-life of 1h. Cells in which XPA protein was reduced to about 10,000 molecules/cell removed (6-4) photoproducts more slowly, with a half-life of 3h. A reduced rate of repair of (6-4) photoproducts thus results in increased cellular sensitivity towards UV irradiation. These data indicate that XPA levels must be reduced to <10% of that present in a normal cell to render XPA a limiting factor for NER and consequent cellular sensitivity. To inhibit NER, it may be more effective to interfere with XPA protein function, rather than reducing XPA protein levels.  相似文献   

8.
U.V.-enhanced reactivation (UVER) of both U.V.-irradiated and gamma-irradiated human adenovirus type 2 (Ad 2) was examined following the infection of a variety of Cockayne Syndrome (CS) and Xeroderma pigmentosum (XP) fibroblast strains which had been pre-irradiated with U.V. light. U.V.-irradiated or non-irradiated fibroblasts were infected with either non-irradiated or irradiated Ad2, and at 48 hours after infection cells were examined for the presence of viral structural antigens (Vag) using immunofluorescent staining. Normal levels of UVER (i.e. 2-4 fold) of U.V.- and of gamma-irradiated Ad 2 were detected in 2 CS strains (CS IBE and CS 3BE), 2 XP complementation group A strains (XP 12BE and XP 25RO), and 2 XP complementation group D strains (XP 5BE and XP 6BE), although the U.V. doses to these mutant cells which resulted in peak UVER values (0 . 2 Jm-2 for XP 25RO, 0 . 14 Jm-2 for XP 12BE, 0 . 8 Jm-2 for XP 5BE and XP 6BE, and 1 . 6-5 . 0 Jm-2 for CS 1BE and CS 3BE) were considerably lower than those yielding peak UVER in normal strains (10-15 Jm-2). XP variant strains (XP 4BE and XP 115LO), however, showed substantially lower levels of UVER than normal strains.  相似文献   

9.
New tumor formation was suppressed by retinoic acid (RA) administration in xeroderma pigmentosum (XP) patients who have a defect in nuclear excision repair. However, the inhibition is not due to enhanced removal of UV-damaged DNA. These results prompted us to investigate whether or not RA metabolism is abnormal in XP fibroblasts and what the underlying mechanism is. Compared with wild type fibroblasts, low activities of RA synthesis were determined on HPLC in mouse fibroblasts lacking XP group A (XPA) gene and UV-induced XPA deficient cancer cells. Moreover, we observed an impaired expression of cytochrome P450 1a1 in XPA deficient fibroblasts by RT-PCR and a decreased expression of retinoic acid receptor gamma in XPA deficient cancer cells by Western blotting. Finally, pre-treatment of RA isoforms significantly protected the XPA deficient fibroblasts from UV-induced death. These results suggest that decreased structure activity of RA synthesis, resulting from impaired mRNA expression of cytochrome P450 1a1 may, at least together with UV irradiation, involve in skin carcinogenesis in XP patients.  相似文献   

10.
Clonogenic survival response to 254-nm ultraviolet light was measured in 2 strains of repair-proficient normal human fibroblasts and 4 strains of xeroderma pigmentosum (XP) fibroblasts belonging to complementation groups A, C, D and variant. In all strains except XPA, cells irradiated in plateau phase and subcultured immediately were much more resistant to the lethal effect of UV than cells irradiated in the exponential phase of growth. Typically, 10-20% of plateau-phase cells were extremely resistant. When the cultures were held in plateau phase for 24 h after irradiation and before subculture, there was a further enhance of survival. By use of a UV-specific endonuclease assay, no difference was found in the number of DNA lesions induced in exponentially growing and plateau cultures by the same dose of UV light. Thus plateau-phase cells appear to be more efficient in their DNA-repair capability than cells in exponential growth. XP group A cells were uniquely found to be deficient in the processes which lead to plateau-phase resistance. Since plateau-phase repair was not lacking in XP groups C, D and variant, it may be related to a DNA-repair process different from that which is responsible for the overall UV sensitivity of these cells.  相似文献   

11.
12.
Xeroderma pigmentosum (XP) is a group of genetic disorders caused by mutations of XP-associated genes, resulting in impairment of DNA repair. XP patients frequently exhibit neurological degeneration, but the underlying mechanism is unknown, in part due to lack of proper disease models. Here, we generated patientspecific induced pluripotent stem cells (iPSCs) harboring mutations in five different XP genes including XPA, XPB, XPC, XPG, and XPV. These iPSCs were further differentiated to neural cells, and their susceptibility to DNA damage stress was investigated. Mutation of XPA in either neural stem cells (NSCs) or neurons resulted in severe DNA damage repair defects, and these neural cells with mutant XPA were hyper-sensitive to DNA damage-induced apoptosis. Thus, XP-mutant neural cells represent valuable tools to clarify the molecular mechanisms of neurological abnormalities in the XP patients.  相似文献   

13.
Mogi S  Oh DH 《DNA Repair》2006,5(6):731-740
To further define the molecular mechanisms involved in processing interstrand crosslinks, we monitored the formation of phosphorylated histone H2AX (gamma-H2AX), which is generated in chromatin near double strand break sites, following DNA damage in normal and repair-deficient human cells. Following treatment with a psoralen derivative and ultraviolet A radiation doses that produce significant numbers of crosslinks, gamma-H2AX levels in nucleotide excision repair-deficient XP-A fibroblasts (XP12RO-SV) increased to levels that were twice those observed in normal control GM637 fibroblasts. A partial XPA revertant cell line (XP129) that is proficient in crosslink removal, exhibited reduced gamma-H2AX levels that were intermediate between those of GM637 and XP-A cells. XP-F fibroblasts (XP2YO-SV and XP3YO) that are also repair-deficient exhibited gamma-H2AX levels below even control fibroblasts following treatment with psoralen and ultraviolet A radiation. Similarly, another crosslinking agent, mitomycin C, did not induce gamma-H2AX in XP-F cells, although it did induce equivalent levels of gamma-H2AX in XPA and control GM637 cells. Ectopic expression of XPF in XP-F fibroblasts restored gamma-H2AX induction following treatment with crosslinking agents. Angelicin, a furocoumarin which forms only monoadducts and not crosslinks following ultraviolet A radiation, as well as ultraviolet C radiation, resulted only in weak induction of gamma-H2AX in all cells, suggesting that the double strand breaks observed with psoralen and ultraviolet A treatment result preferentially following crosslink formation. These results indicate that XPF is required to form gamma-H2AX and likely double strand breaks in response to interstrand crosslinks in human cells. Furthermore, XPA may be important to allow psoralen interstrand crosslinks to be processed without forming a double strand break intermediate.  相似文献   

14.
Nucleotide excision repair (NER) is the major DNA repair process that removes diverse DNA lesions including UV-induced photoproducts. There are more than 20 proteins involved in NER. Among them, XPC is thought to be one of the first proteins to recognize DNA damage during global genomic repair (GGR), a sub-pathway of NER. In order to study the mechanism through which XPC participates in GGR, we investigated the possible modifications of XPC protein upon UV irradiation in mammalian cells. Western blot analysis of cell lysates from UV-irradiated normal human fibroblast, prepared by direct boiling in an SDS lysis buffer, showed several anti-XPC antibody-reactive bands with molecular weight higher than the original XPC protein. The reciprocal immunoprecipitation and siRNA transfection analysis demonstrated that XPC protein is modified by SUMO-1 and ubiquitin. By using several NER-deficient cell lines, we found that DDB2 and XPA are required for UV-induced XPC modifications. Interestingly, both the inactivation of ubiquitylation and the treatment of proteasome inhibitors quantitatively inhibited the UV-induced XPC modifications. Furthermore, XPC protein is degraded significantly following UV irradiation in XP-A cells in which sumoylation of XPC does not occur. Taken together, we conclude that XPC protein is modified by SUMO-1 and ubiquitin following UV irradiation and these modifications require the functions of DDB2 and XPA, as well as the ubiquitin–proteasome system. Our results also suggest that at least one function of UV-induced XPC sumoylation is related to the stabilization of XPC protein.  相似文献   

15.
16.
Ahn B  Kang D  Kim H  Wei Q 《Molecules and cells》2004,18(2):249-255
DNA repair capacity in a cell could be detected by a host-cell reactivation assay (HCR). Since relation between DNA repair and genetic susceptibility to cancer remains unclear, it is necessary to identify DNA repair defects in human cancer cells. To assess DNA repair for breast cancer susceptibility, we developed a modified HCR assay using a plasmid containing a firefly luciferase gene damaged by mitomycin C (MMC), which forms interstrand cross-link (ICL) adducts. In particular, interstrand cross-link is thought to induce strand breaks being repaired by homologous recombination. The MMC-ICLs were verified by electrophoresis. Damaged plasmids were transfected into apparently normal human lymphocytes and NER-deficient XP cell lines and the DNA repair capacity of the cells were measured by quantifying the activity of the firefly luciferase. MMC lesion was repaired as much as UV adducts in normal lymphocytes and the XPC cells. However, the XPA cells have a lower repair capacity for MMC lesion than the XPC cell, indicating that the XPA protein may be involved in initial damage recognition of MMC-ICL adducts. Since several repair pathways including NER and recombination participate in MMC-ICL removal, this host cell reactivation assay using MMC-ICLs can be used in exploring DNA repair defects in human cancer cells.  相似文献   

17.
Human nucleotide excision repair is initiated by six repair factors (XPA, RPA, XPC-HR23B, TFIIH, XPF-ERCC1, and XPG) which sequentially assemble at sites of DNA damage and effect excision of damage-containing oligonucleotides. We here describe the molecular anatomy of the human excision nuclease assembled at the site of a psoralen-adducted thymine. Three polypeptides, primarily positioned 5' to the damage, are in close physical proximity to the psoralen lesion and thus are cross-linked to the damaged DNA: these proteins are RPA70, RPA32, and the XPD subunit of TFIIH. While both XPA and XPC bind damaged DNA and are required for XPD cross-linking to the psoralen-adducted base, neither XPA nor XPC is cross-linked to the psoralen adduct. The presence of other repair factors, in particular TFIIH, alters the mode of RPA binding and the position of its subunits relative to the psoralen lesion. Based on these results, we propose that RPA70 makes the initial contact with psoralen-damaged DNA but that within preincision complexes, it is RPA32 and XPD that are in close contact with the lesion.  相似文献   

18.
We have previously shown that high DNA repair capacity protects psoriasis patients against chemically induced basal cell carcinoma [Dybdahl et al. Mutat. Res. 433 (1999) 15-22]. We have used the same study persons to investigate the correlation between expression of eight genes involved in nucleotide excision repair and DNA repair capacity. mRNA levels of XPA, XPB, XPC, XPD, XPF, XPG, CSB and ERCC1 in primary lymphocytes from 33 individuals were quantified by dot-blots and normalized to beta-actin. ERCC1 and XPD mRNA quantities were highly correlated (r=0.89; P<10(-11)) while XPA, XPB, XPC, XPG, XPFand CSB mRNAs were moderately correlated (r=0.2-0.7). Thus, the mRNA expressions seem to fall in at least two groups. There was a three to sevenfold variation in the expression levels of the mRNAs. This is in contrast to the more than a hundredfold variation in mRNA levels reported in cancer patients.DNA repair capacity was measured in a host cell reactivation assay, where primary lymphocytes were transfected with an UV-irradiated plasmid encoding firefly-luciferase. Only ERCC1 and XPD mRNA levels correlated with the DNA repair capacity (P<0.03). In order to see if ERCC1 or XPD activity was limiting for DNA repair, we cotransfected with plasmids encoding NER genes, thus over-expressing either XPB, XPC, XPD, CSB or ERCC1 in the host cell reactivation assay. Only XPB over-expression increased DNA repair capacity. Thus, there is no indication that neither XPD nor ERCC1 limits the DNA repair capacity. However, our results indicate that ERCC1 and XPD mRNA levels may be used as a proxy for DNA repair capacity in lymphocytes.  相似文献   

19.
We have examined the ability of normal fibroblasts and of excision-deficient xeroderma pigmentosum (XP) and XP variant fibroblasts to perform postreplication DNA repair after increasing doses of either ultraviolet (UV) irradiation or mutagenic benzo(a)pyrene derivatives. XP cells defective in the excision of both UV-induced pyrimidine dimers and guanine adducts induced by treatment with the 7,8-diol-9,10-epoxides of benzo(a)pyrene were partially defective in their ability to synthesize high molecular weight DNA after the induction of both classes of DNA lesions. This defect was more marked in XP variant cells, despite their ability to remove by excision repair both pyrimidine dimers and the diol epoxide-induced lesions to the same degree as observed in normal cells. The benzo(a)pyrene 9,10-oxide had no effect in any of the 3 cell lines. The response of the excision and postreplication DNA repair mechanisms operating in human fibroblasts treated with benzo(a)pyrene 7,8-diol-9,10-epoxides, therefore, appears to resemble closely that seen after the induction of pyrimidine dimers by UV irradiation.  相似文献   

20.
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号