UMLS:C0043346 - FACTA Search

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Query: UMLS:C0043346 (xeroderma pigmentosum)
2,924 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

While investigating the novel anticancer drug ecteinascidin 743 (Et743), a natural marine product isolated from the Caribbean sea squirt, we discovered a new cell-killing mechanism mediated by DNA nucleotide excision repair (NER). A cancer cell line selected for resistance to Et743 had chromosome alterations in a region that included the gene implicated in the hereditary disease xeroderma pigmentosum (XPG, also known as Ercc5). Complementation with wild-type XPG restored the drug sensitivity. Xeroderma pigmentosum cells deficient in the NER genes XPG, XPA, XPD or XPF were resistant to Et743, and sensitivity was restored by complementation with wild-type genes. Moreover, studies of cells deficient in XPC or in the genes implicated in Cockayne syndrome (CSA and CSB) indicated that the drug sensitivity is specifically dependent on the transcription-coupled pathway of NER. We found that Et743 interacts with the transcription-coupled NER machinery to induce lethal DNA strand breaks.
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PMID:Antiproliferative activity of ecteinascidin 743 is dependent upon transcription-coupled nucleotide-excision repair. 1147 30

Xeroderma pigmentosum (XP) and Cockayne syndrome (CS) are rare autosomal recessive disorders associated with a defect in the nucleotide excision repair (NER) pathway required for the removal of DNA damage induced by UV light and distorting chemical adducts. Although progressive neurological dysfunction is one of the hallmarks of CS and of some groups of XP patients, the causative mechanisms are largely unknown. Here we show that mice lacking both the XPA (XP-group A) and CSB (CS-group B) genes in contrast to the single mutants display severe growth retardation, ataxia, and motor dysfunction during early postnatal development. Their cerebella are hypoplastic and showed impaired foliation and stunted Purkinje cell dendrites. Reduced neurogenesis and increased apoptotic cell death occur in the cerebellar external granular layer. These findings suggest that XPA and CSB have additive roles in the mouse nervous system and support a crucial role for these genes in normal brain development.
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PMID:Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum Group A and Cockayne syndrome Group B DNA repair genes. 1169 74

In addition to xeroderma pigmentosum, mutations in the human XPG gene cause early onset Cockayne syndrome (CS). Here, we provide evidence for the involvement of RAD2, the S. cerevisiae counterpart of XPG, in promoting efficient RNA polymerase II transcription. Inactivation of RAD26, the S. cerevisiae counterpart of the human CSB gene, also causes a deficiency in transcription, and a synergistic decline in transcription occurs in the absence of both the RAD2 and RAD26 genes. Growth is also retarded in the rad2 Delta and rad26 Delta single mutant strains, and a very severe growth inhibition is seen in the rad2 Delta rad26 Delta double mutant. From these and other observations presented here, we suggest that transcriptional defects are the underlying cause of CS.
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PMID:Requirement of yeast RAD2, a homolog of human XPG gene, for efficient RNA polymerase II transcription. implications for Cockayne syndrome. 1211 Jan 80

Proteins having DNA helicase activity play very important roles in many processes involving DNA workings such as replication, repair, and recombination. In this decade, many DNA helicase genes have been cloned as the causative genes of human recessive heredity diseases. These are the causative genes for Xeroderma pigmentosum (XPB and XPD), Cockayne syndrome (CSB), diffuse collagen disease (Ku80), alpha-thalassmia (ATR-X), Bloom syndrome (BLM), Werner syndrome (WRN) and Rothmund-Thomson syndrome (RTS). The yeast homologue genes of these human DNA helicase genes exist. S. cerevisiae RAD25/SSL2, RAD3, RAD26, YKU80/HDF2 and RAD54 are the homologue for XPB/ERCC3, XPD/ERCC2, CSB/ERCC6, Ku80/XRCC5 and ATR-X/HX2, respectively. E coli. recQ gene and S. cerevisiae SGS1 are the homologue for all BLM, WRN and RTS. A search of whole genome of S. cerevisiae revealed that SGS1 is the sole homologue of recQ in S. cerevisiae. Thus it seems likely that SGS1 is a functional homologue of one or several human RecQ family genes. Many basic or essential functions are well conserved in the cells from lower eukaryotic to higher mammalian. The functional analysis in yeast could make an useful insight for the human homologue. To clarify the functions of S. cerevisiae Sgs1 and to get an insight into the functions of Blm, Wrn and Rts, in this study, we analyzed the phenotype of sgs1 disruptant and in detail the cause of the poor sporulation phenotype of sgs1 disruptants in relation to meiotic processes including meiotic recombination. The poor sporulation of sgs1 disruptants was complemented with a mutated SGS1 gene encoding a protein lacking DNA helicase activity; however, the mutated gene could suppress neither the sensitivity of sgs1 disruptants to methyl methanesulfonate (MMS) and hydroxyurea nor the mitotic hyperrecombination phenotype of sgs1 disruptants. The N-terminal 1-45 amino acid region and 698-1195 amino acid region of Sgs1, which including helicase domain and C-terminal RecQ conserved region with helicase activity, were required for complementation of MMS sensitivity and suppression of hyperrecombination of sgs1 disruptants in mitotic growth. The 126-400 and 596-1195 amino acid regions of Sgs1 were required for complementation of poor sporulation and of reduced meiotic functions. These regions required for the mitotic or meiotic functions of Sgs1 were well overlapped with the interaction regions of Top3 and Top2. Some of these results might explain the mechanism of the symptom of RecQ-related syndromes.
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PMID:[Functional analysis of yeast homologue gene associated with human DNA helicase causative syndromes]. 1263 84

Cockayne syndrome (CS) is a genetic human disease with clinical symptoms that include neurodegeneration and premature aging. The disease is caused by the disruption of CSA, CSB, or some types of xeroderma pigmentosum genes. It is known that the CSB protein coded by the CS group B gene plays a role in the repair of 8-hydroxyguanine (8-OH-Gua) in transcription-coupled and non-strand discriminating modes. Recently we reported a defect of CSB mutant cells in the repair of another oxidatively modified lesion 8-hydroxyadenine (8-OH-Ade). We show here that primary fibroblasts from CS patients lack the ability to efficiently repair these particular types of oxidatively induced DNA damages. Primary fibroblasts of 11 CS patients and 6 control individuals were exposed to 2 Gy of ionizing radiation to induce oxidative DNA damage and allowed to repair the damage. DNA from cells was analyzed using liquid chromatography/isotope dilution mass spectrometry to measure the biologically important lesions 8-OH-Gua and 8-OH-Ade. After irradiation, no significant change in background levels of 8-OH-Gua and 8-OH-Ade was observed in control human cells, indicating their complete cellular repair. In contrast, cells from CS patients accumulated significant amounts of these lesions, providing evidence for a lack of DNA repair. This was supported by the observation that incision of 8-OH-Gua- or 8-OH-Ade-containing oligodeoxynucleotides by whole cell extracts of fibroblasts from CS patients was deficient compared to control individuals. This study suggests that the cells from CS patients accumulate oxidatively induced specific DNA base lesions, especially after oxidative stress. A deficiency in cellular repair of oxidative DNA damage might contribute to developmental defects in CS patients.
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PMID:Primary fibroblasts of Cockayne syndrome patients are defective in cellular repair of 8-hydroxyguanine and 8-hydroxyadenine resulting from oxidative stress. 1266 80

The hepatocarcinogen 2-acetylaminofluorene is one of the most studied experimental carcinogens. We have shown previously that normal rat hepatocytes accumulate the tumour suppressor p53 after exposure to this compound while preneoplastic rat hepatocytes do not. We suggested that the lack of p53 response may confer a growth advantage on preneoplastic hepatocytes and may be an important factor in hepatic tumor promotion by 2-acetylaminofluorene and other genotoxic compounds. Inhibition of RNA polymerase II driven transcription by DNA lesions may constitute one of the mechanisms leading to accumulation of the tumour suppressor p53. We have investigated the accumulation of p53 by structurally different DNA lesions of 2-acetylaminofluorene for which the rate of nucleotide excision repair (NER) and inhibition of transcription are known. Experiments were performed with NER proficient human fibroblasts as well as repair deficient xeroderma pigmentosum group A (XPA) cells, XPC cells [only transcription coupled repair (TCR)] and Cockayne syndrome (CS)B cells [only global genome repair (GGR)]. The cells were exposed to N-acetoxy-acetylaminofluorene (NAAAF) in the presence or absence of paraoxon inducing dG-C8-AAF or dG-C8-AF adducts respectively. Both treatments led to accumulation of p53 in all cells. However, dG-C8-AAF adducts produced greater p53 induction than dG-C8-AF adducts. The percentage p53-positive cells was highest and the threshold for p53 accumulation was lowest in XPA and CSB cells. Our results further demonstrate that both the potency of a lesion to inhibit transcription as well as the restoration of RNA synthesis determines the magnitude of p53 induction.
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PMID:Blockage of transcription as a trigger for p53 accumulation by 2-acetylaminofluorene DNA-adducts. 1288 15

One of the major critical factors for cancer proneness is the cell response to DNA damage. In this work, we used human DNA repair deficient cell lines to investigate the responses to ultraviolet irradiation that lead to apoptosis, and the influence of maintaining the cells resting in confluent state. UV-induced apoptosis is prevented in photolyase-proficient HeLa cells when cyclobutane pyrimidine dimers (CPDs) are removed by photorepair. At the same time, we show recovery of RNA synthesis, thus indicating that blockage of RNA transcription may trigger apoptosis in human cells. On the other hand, confluent primary XPC and trichothiodystrophy (TTD)/XPD cell lines, related to xeroderma pigmentosum and trichothiodystrophy repair syndromes, had a reduced and delayed apoptosis when compared to non-confluent cells. In contrast, XPA cells were similarly sensitive in both the confluent and non-confluent growing state. The effect of cellular confluence on UV-mediated apoptosis in CSB cells, related to Cockayne's syndrome, was unclear. Thus, these results indicate that the induction of apoptosis by UV light may also be affected by DNA replication. In addition, they argue for the use of confluent primary cells in studies of induction of apoptosis by UV, a condition close to skin cells in vivo.
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PMID:Effect of cell confluence on ultraviolet light apoptotic responses in DNA repair deficient cells. 1464 17

Xeroderma pigmentosum (XP), Cockayne syndrome (CS) and trichothiodystrophy (TTD) are genetic disorders with very different clinical features, but all associated with defects in nucleotide excision repair. Defects in the XPA or XPC genes confer sensitivity to UV carcinogenesis in both humans and mice, but only XPA(-/-) mice have increased acute responses to UV exposure, whereas XPC(-/-) mice are normal in this respect. Both XPE and XPF proteins have functions separate from their role in NER, but the exact nature of these functions has not yet been established. The CSA and CSB genes responsible for CS are both components of complexes associated with RNA polymerase II and their role is thought to be in assisting polII in dealing with transcription blocks. XPB and XPD proteins are components of transcription factor TFIIH, which is involved in both basal and activated transcription. XPB is part of the core of TFIIH and has a central role in transcription, whereas XPD connects the core to the CAK subcomplex, and can tolerate many different mutations. Subtle differences in the effects of these different mutations on the many activities of TFIIH and on its stability determine the clinical outcomes, which can be XP, TTD, XP with CS, XP with TTD or COFS. Features of single and double mutant mice indicate that the neurological and ageing features associated with these disorders result from the defects in NER in association with the transcriptional deficiencies. Skin tumours in XP patients have mutations characteristic of UV-induction in the ras, p53 and ptch genes, showing that sunlight-induced mutations in these genes are important in carcinogenesis in XP patients.
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PMID:DNA repair-deficient diseases, xeroderma pigmentosum, Cockayne syndrome and trichothiodystrophy. 1472 16

The XAB2 protein (XPA-binding protein 2) with 15 tetratricopeptide repeat motifs has been isolated by virtue of its ability to interact with xeroderma pigmentosum group A (XPA) protein in the yeast two-hybrid system. It has been shown that XAB2 interacted with Cockayne syndrome groups A and B (CSA and CSB) proteins and RNA polymerase II, which are known to be involved in transcription-coupled repair (TCR) and transcription, and that the antibodies against XAB2 protein inhibited the recovery of RNA synthesis after UV irradiation and normal RNA synthesis when microinjected into living fibroblasts. These results have indicated that XAB2 is involved in TCR and transcription. In this report, to elucidate the function of XAB2 in vivo, two types of mutations were introduced into the XAB2 gene in mice: a deletion of the region encompassing the promoter and exons 1-4, and a deletion of the C-terminal 162 amino acids. Both types of XAB2-heterozygous mice appeared normal physiologically and behaviorally. However, XAB2-homozygotes were selectively absent among the newborn mice. A detailed analysis of embryos at different stages of development indicated that the XAB2-homozygous mutants could survive until the morula stage, but could not develop to the blastocyst stage. These results indicate that XAB2 has an essential function in mouse embryogenesis.
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PMID:Disruption of mouse XAB2 gene involved in pre-mRNA splicing, transcription and transcription-coupled DNA repair results in preimplantation lethality. 1572 28

In this study, we used an epidemiological approach to analyze an animal database of DNA repair deficient mice on reproductive performance in five Nucleotide Excision Repair (NER) mutant mouse models on a C57BL/6 genetic background, namely CSA, CSB, XPA, XPC [models for the human DNA repair disorders Cockayne Syndrome (CS) and xeroderma pigmentosum (XP), respectively] and mHR23B (not associated with human disease). This approach allowed us to detect and quantify reproductive effects based on a relatively small number of matings. We measured and quantified the scale of the effect between factors that might influence reproductive performance (i.e. age at co-housing, seasons) and reproductive parameters (i.e. litter size and pairing-to-birth interval -'pbi'). Besides, we detected and quantified the differences in reproductive performance between wild type mice and heterozygous/homozygous NER mutant mice. From our analyses, we found impaired reproduction in heterozygous and homozygous knock out mice; in particular, reduced litter size and lengthened pbi was related to the NER mutation-mHR23B, in heterozygous couples, even if they were otherwise phenotypically normal. Heterozygous mHR23B couples produced a 6.6-fold lower number of mHR23B(-/-) pups than indicated by Mendelian expectation; other genetic deficiencies studied were not statistically significant from each other or wild type controls. We concluded that careful epidemiological evaluations by analysis of animal database could provide reliable information on reproductive performance and detect deviations that would remain unnoticed without this. Also, some managerial aspects of mouse breeding could be evaluated.
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PMID:The effect of DNA repair defects on reproductive performance in nucleotide excision repair (NER) mouse models: an epidemiological approach. 1631 91

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