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

Four mutations of the XPAC gene were identified as molecular bases of different UV-sensitive subgroups of xeroderma pigmentosum (XP) group A. One was a G to C transversion at the last nucleotide of exon 4 in GM1630/GM2062, a little less hypersensitive subgroup than the most sensitive XP2OS/XP12RO. The second mutation was a G to A transition at the last nucleotide of exon 3 in GM2033/GM2090, an intermediate subgroup. Both mutations caused almost complete inactivation of the canonical 5' splice donor site and aberrant RNA splicing. The third mutation was a nucleotide transition altering the Arg-211 codon (CGA) to a nonsense codon (TGA) in another allele of GM2062. The fourth mutation was a nucleotide transversion altering the His-244 codon (CAT) to an Arg codon (CGT) in XP8LO, an intermediate subgroup. Our results strongly suggest that the clinical heterogeneity in XP-A is due to different mutations in the XPAC gene.
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PMID:Identification of splicing mutations of the last nucleotides of exons, a nonsense mutation, and a missense mutation of the XPAC gene as causes of group A xeroderma pigmentosum. 137 3

The human XPBC/ERCC-3 gene, which corrects the excision-repair defect in xeroderma pigmentosum group B cells and the UV-sensitive CHO mutant 27-1 cells, appears to be expressed constitutively in various cell types and tissues. We have analysed the structure and functionality of the XPBC/ERCC-3 promoter. Transcription of the XPBC/ERCC-3 gene is initiated from heterogeneous sites, with a major startpoint mapped at position -54 (relative to the translation start codon ATG). The promoter region does not possess classical TATA and CAAT elements, but it is GC-rich and contains three putative Sp1-binding sites. In addition, there are two elements related to the cyclic AMP (cAMP)-response element (CRE) and the 12-O-tetradecanoyl phorbol-13-acetate-response element (TRE) in the 5'-flanking region. Transient expression analysis of XPBC/ERCC-3 promoter-CAT chimeric plasmids revealed that a 127-bp fragment, spanning position -129 to -3, is minimally required for the promoter activity. Transcription of the XPBC/ERCC-3 promoter depends on the integrity of a putative Sp1-binding site in close proximity to the major cap site. Band shift assays showed that this putative Sp1-binding site can interact specifically with a nuclear factor, most likely transcription factor Sp1 (or an Sp1-like factor) in vitro.
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PMID:Molecular and functional analysis of the XPBC/ERCC-3 promoter: transcription activity is dependent on the integrity of an Sp1-binding site. 174 Dec 47

A method for measuring nucleotide excision repair in response to UV irradiation and chemical-induced DNA damage has been developed, validated, and field tested in cultured human lymphocytes. The methodology is amenable to population-based screening and should facilitate future epidemiological studies seeking to investigate associations between DNA repair proficiency and cancer susceptibility. The impetus for such endeavors derives from the suggestion that the high incidence of skin cancer in the genetic disorder xeroderma pigmentosum is manifested as a result of the reduced capacity of patients' cells to repair DNA damaged by UV-mimetic agents. For the assay, damaged, nonreplicating, recombinant plasmid DNA harboring a chloramphenicol acetyltransferase (cat) reporter gene is introduced into lymphocytes by using a DEAE-dextran/DNA complex short-term transfection conditions. Excision repair of the damaged bacterial cat gene is monitored proportionately as a function of reactivated CAT enzyme activity following a 40-h repair/expression incubation period. The validity of the approach was indicated by the ability of the assay to discriminate xeroderma pigmentosum virus-transformed lymphocyte cell lines of both severe (complementation groups A and D) and moderate (complementation group C) excision repair deficiencies from repair-proficient cell lines. Similar results were observed when a mitogen-stimulated peripheral blood lymphocyte culture from an xeroderma pigmentosum A patient was assayed concurrently with mitogen-stimulated peripheral blood lymphocytes obtained from healthy individuals. Adaptation of this DNA repair assay as a field test in a pilot-tested select group of basal cell carcinoma patients and cancer-free controls led to the preliminary identification of a specific subset at risk for this disease as a consequence of significant reduction to the repair of photochemically (UV)-damaged plasmid DNA.
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PMID:Development and field-test validation of an assay for DNA repair in circulating human lymphocytes. 193 49

We have used a host cell reactivation system to study the effect of 8-methoxypsoralen (8-MOP) reaction on CAT (chloramphenicol acetyltransferase) and NEO (aminoglycoside phosphotransferase) expression in normal human cells, as well as two cell lines with possible DNA repair-processing defects. Plasmid DNA was treated with psoralen plus near-ultraviolet (NUV) irradiation. The reacted plasmids, pSV2cat and pSV2neo, were transfected into Fanconi anemia (FA), xeroderma pigmentosum (XP), and normal human fibroblast cells for transient or stable assay. The cells were assayed for CAT activity at various times after transfection or selected for G418 resistance. The extent of adduct formation required to inhibit expression was much less (difference of D37 greater than 2.5) in FA or XP cells compared to normal. We conclude that in FA and XP cells, the reactivation of CAT was much less than in normal cells. The possibility of differential DNA uptake and/or degradation in transient assay was ruled out by analysis of plasmid DNA recovered from transfected cells. The data of the two independent assays indicate that FA and XP cells are deficient in cross-linked DNA repair.
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PMID:Reactivation of psoralen-reacted plasmid DNA in Fanconi anemia, xeroderma pigmentosum, and normal human fibroblast cells. 204 39

UV-irradiated plasmids (pNPV B and pBSCATSV) were transfected into RBCF-1 cells derived from a goldfish (Carassius auratus) and into a xeroderma pigmentosum (group A) cell line, XP20SSV. The frequency of stable neor transformation by pNPV B decreased in a dose-dependent manner. However, in spite of large differences in UV sensitivity detected in the colony formation assay, the dose-response curves of RBCF-1 cells and XP20SSV cells were almost the same. The photorecovery (PR) of transforming activity of UV-irradiated plasmids was confirmed in RBCF-1 cells but its extent was much smaller than that observed in the survival assay. The expression of the transfected cat (chloramphenicol acetyltransferase; CAT) gene after 24-h incubation in the dark was much more sensitive to UV irradiation when compared with the stable transformation assay. The extent of PR of cat gene expression in RBCF-1 cells was high and comparable with that of the survival assay. The CAT value of RBCF-1 cells transfected with UV-irradiated plasmids relative to that of unirradiated controls increased as incubation time in the dark after transfection became longer. This suggests that the UV lesions on the plasmids transfected in the RBCF-1 cells were repaired in the dark. The cat gene expression of UV-irradiated plasmids in XP20SSV was very low and independent of incubation time after transfection.
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PMID:The repair of UV-irradiated plasmids transfected into cultured fish cells. 236 98

We wished to determine whether simian virus 40 (SV40)-transformed xeroderma pigmentosum cells, despite their defective DNA repair, were suitable for DNA-mediated gene transfer experiments with linked genes. Expression of a nonselectable gene (cat, coding for chloramphenicol acetyltransferase [CAT]) linked to a selectable gene (gpt, coding for xanthine-guanine phosphoribosyltransferase [XPRT]) in the plasmid pSV2catSVgpt was quantified after transfection of SV40-transformed xeroderma pigmentosum [XP20s(SV40)] and normal human [GM0637(SV40)] fibroblast cell lines. A novel autoradiographic assay with [3H]xanthine incorporation showed 0.5 to 0.7% phenotypic expression of XPRT in both cell lines. Without selection, transient CAT activity was 20 times greater in the GM0637(SV40) than in the XP20s(SV40) cells, and transient XPRT activity was 5 times greater. Both of these transient activities were increased and equalized in both cell lines by transfection with pRSVcat or pRSVgpt. Genotypic transformation to gpt+ occurred at a frequency of 2 X 10(-4) to 4 X 10(-4) in both cell lines with pSV2catSVgpt. After 2 to 3 months in selective medium, stable expression of the (nonselected) cat gene was found in 11 (92%) of 12 gpt-containing clones derived from GM0637(SV40) cells and in 13 (81%) of 16 gpt-containing clones from XP20s(SV40) cells. However, the levels of CAT activity did not correlate with those of XPRT activity, and both of these activities varied more than 100-fold among different clones. Copies (1 to 4) of the gpt gene were integrated in four clones of the GM0637(SV40) cells having an XPRT activity of 1 to 5 nmol/min per mg, but 5 to 80 copies were integrated in four XP20s(SV40) clones with an XPRT activity of 0.8 to 1.8 nmol/min per mg. This study shows that XP20s(SV40) is as suitable for gene transfer experiments as the normal human line GM0637(SV40).
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PMID:Quantification of expression of linked cloned genes in a simian virus 40-transformed xeroderma pigmentosum cell line. 299 46

We have developed a host cell reactivation assay of DNA repair utilizing UV-treated plasmid vectors. The assay primarily reflects cellular repair of transcriptional activity of damaged DNA measured indirectly as enzyme activity of the transfected genes. We studied three plasmids (pSV2cat, 5020 base pairs; pSV2catSVgpt, 7268 base pairs; and pRSVcat, 5027 base pairs) with different sizes and promoters carrying the bacterial cat gene (CAT, chloramphenicol acetyltransferase) in a construction that permits cat expression in human cells. All human simian virus 40-transformed cells studied expressed high levels of the transfected cat gene. UV treatment of the plasmids prior to transfection resulted in differential decrease in CAT activity in different cell lines. With pSV2catSVgpt, UV inactivation of CAT expression was greater in the xeroderma pigmentosum group A and D lines (D0 = 56 J X m-2) than in the other human cell lines tested (normal, ataxia-telangiectasia, Lesch-Nyhan, retinoblastoma)(D0 = 680 J X m-2)(D0 is the dose that reduces the percentage of CAT activity by 63% along the exponential portion of the dose-response curve). The D0 of the CAT inactivation curve was 50 J X m-2 for pSV2cat and for pRSVcat in the xeroderma pigmentosum group A cells. The similarity of the D0 data in the xeroderma pigmentosum group A cells for three plasmids of different size and promoters implies they all have similar UV-inactivation target size. UV-induced pyrimidine dimer formation in the plasmids was quantified by assay of the number of UV-induced T4 endonuclease V-sensitive sites. In the most sensitive xeroderma pigmentosum cells, with all three plasmids, one UV-induced pyrimidine dimer inactivates a target of about 2 kilobases, close to the size of the putative CAT mRNA.
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PMID:One pyrimidine dimer inactivates expression of a transfected gene in xeroderma pigmentosum cells. 299 75

The XPA gene was initially cloned based on the ability of its cDNA to improve survival of cells from xeroderma pigmentosum complementation group A (XP-A) patients following irradiation of the cells with UV. We used plasmid host cell reactivation assays to compare UV mutagenesis and the proficiency of DNA repair in a cell line from an XP-A patient, XP2OS(SV40), two derivative cell lines stably expressing XPA cDNAs and in a DNA repair proficient human cell line. Expression of XPA protein in XP2OS cells allowed them to repair UV-treated plasmid pRSVCAT, increasing activity of the damaged CAT marker gene > 100-fold to levels produced by similarly damaged plasmids in normal cells. Expression of the XPA protein in XP2OS cells improved replication of the UV-treated shuttle vector pSP189, increasing plasmid survival and decreasing plasmid mutation frequency to the levels measured in normal cells. The sequence locations of most mutation hotspots in the plasmid marker gene were similar for the three cell lines and the differences did not correlate with the DNA repair status of the cells. This suggests that the location of mutation hotspots is not directly influenced by DNA repair. Expression of the XPA protein did cause a shift in the types of mutations seen in the plasmid gene. In the XP2OS cells > 95% of the plasmid mutations were G:C-->A:T transition mutations. In contrast, XP2OS cells expressing XPA produced other types of mutations: three times as many transversion mutations and a 12-fold increase in mutations at A:T base pairs. Furthermore, the distribution of these types of mutations was similar to the proportions measured in normal cells. Strikingly similar patterns of transition and transversion mutations were found by examination of reports of XP and non-XP skin carcinomas containing mutations in the p53 tumor suppressor gene, suggesting that the repair status of the cells influenced mutagenesis associated with these skin cancers. Our data suggest that loss of XPA gene function may be sufficient to effect the quantitative and qualitative changes in mutagenesis associated with the large increase in skin cancers seen in XP-A patients.
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PMID:Expression of a transfected DNA repair gene (XPA) in xeroderma pigmentosum group A cells restores normal DNA repair and mutagenesis of UV-treated plasmids. 761 89

We have studied the UV responsiveness of xeroderma pigmentosum (XP) and HeLa cell lines transfected with a CAT reporter gene under the control of the HIV-1 LTR promoter. XP fibroblasts grown in 10% newborn bovine serum (NBS) were three times more responsive to UV radiation than cells grown in 10% fetal calf serum (FCS). Moreover, cocultivation of UV-irradiated XP cells with XP cells containing stable integrants of HIV-LTR CAT was found to be more than four times more effective in inducing the CAT activity when cells were maintained in 10% NBS than in 10% FCS. The level of induction was also dependent on the serum concentration. These data indicate that a serum component, possibly a cytokine(s), can enhance the UV response of both irradiated cells and unirradiated cells cocultivated with irradiated cells. The magnitude of UV responsiveness seemed also to be strain dependent. CAT activity for the HIV LTR promoter from the HTLV-IIIB (HIV-IIIB) strain was induced more than 30-fold by UV irradiation whereas activity from the LAV-1BRU strain was less than 2-fold. In contrast, both constructs were strongly induced by Tat expression. This indicates that there are differences in the induction mechanism for these two stimuli, even though UV radiation has been previously reported to induce a cellular Tat-like factor (Valerie K, et al., Nature [London] 1988;333:78-81).
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PMID:Activation of HIV type 1 long terminal repeat by ultraviolet light is serum and strain specific. 798 81

Xeroderma Pigmentosum is a human disease, which is, among others, characterized by a high incidence of (sunlight induced) skin cancer, due to a defect in nucleotide excision repair (NER). The human DNA repair gene XPAC corrects this defect in cells isolated from Xeroderma Pigmentosum complementation group A (XP-A) patients. To enable the development of a transgenic mouse model for XP-A by gene targeting in embryonic stem cells, we cloned and characterized the mouse homologue of the XPAC gene. The mouse XPAC gene was found to consist of 6 exons, spanning approximately 21 kb. The nucleotide sequence of the exons is identical to that of the also cloned the mouse XPAC cDNA. Furthermore, the deduced amino acid sequence of the XPAC protein is the same as the one published previously by Tanaka et al. From CAT assay analysis, the promoter of the XPAC gene appeared to be located within 313 bp upstream of the assumed transcriptional start site. Like the promoters of other eukaryotic DNA repair genes (i.e. ERCC-1 and XPBC/ERCC-3), the mouse XPAC promoter region lacks classical promoter elements like TATA-, GC- and CAAT boxes. However, it contains an unique polypyrimidine-rich box, which is so far only found in genes encoding DNA repair enzymes. The function of this box in the regulation of transcription is still unclear.
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PMID:Cloning and characterization of the mouse XPAC gene. 812 48


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