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)

Basal cell carcinomas (BCCs) are the most common sporadic cancers worldwide. They are also a cardinal manifestation of a familial cancer predisposition syndrome, naevoid BCC syndrome (NBCCS). The gene responsible for NBCCS is likely to be a tumour suppressor gene and has been genetically mapped to a 2cM region between microsatellite markers, D9S196 and D9S180 at 9q22.3-q31. 101 BCCs (63 sporadic and 38 familial) were examined for loss of heterozygosity (LOH) in the candidate region of the NBCCS gene. Deletions were found in 46% and all LOH is consistent with genetic mapping of the NBCC locus. These findings strongly support the hypothesis that inactivation of the putative tumour suppressor, the NBCCS gene, is important in the formation of sporadic BCCs. One sporadic tumour indicates that the smallest region of overlap of these deletions is within the interval between D9S287 and D9S180. If this is confirmed in additional tumours, it would further narrow down the NBCCS region and exclude one candidate gene, that for the C complementation group of Fanconi anaemia, which maps proximally to D9S287. However, it would not exclude another candidate, the gene for the A complementation group of xeroderma pigmentosum (XPAC). Evidence of imprinting was also sought but preliminary data indicate that it is unlikely to occur at the NBCCS locus.
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PMID:Fine deletion mapping on the long arm of chromosome 9 in sporadic and familial basal cell carcinomas. 771 24

The most versatile strategy for repair of damage to DNA, and the main process for repair of UV-induced damage, is nucleotide excision repair. In mammalian cells, the complete mechanism involves more than 20 polypeptides, and defects in many of these are associated with various forms of inherited disorders in humans. The syndrome xeroderma pigmentosum (XP) is associated with mutagen hypersensitivity and increased cancer frequency, and studies of the nucleotide excision repair defect in this disease have been particularly informative. Many of the XP proteins are now being characterized. XPA binds to DNA, with a preference for damaged base pairs. XPC activity is part of a protein complex with single-stranded DNA binding activity. The XPG protein is a nuclease.
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PMID:Proteins that participate in nucleotide excision repair of DNA in mammalian cells. 774 57

Nucleotide excision repair (NER)-deficient human cells have been assigned so far to a genetic complementation group by a somatic cell fusion assay and, more recently, by microinjection of cloned DNA repair genes. We describe a new technique, based on the host cell reactivation assay, for the rapid determination of the complementation group of NER-deficient xeroderma pigmentosum (XP), Cockayne's syndrome (CS) and photosensitive trichothiodystrophy (TTD) human cells by cotransfection of a UV-irradiated reporter plasmid with a second vector containing a cloned repair gene. Expression of the reporter gene, either chloramphenicol acetyltransferase (CAT) or luciferase, reflects the DNA repair ability restored by the introduction of the appropriate repair gene. All genetically characterized XP, CS and TTD/XP-D cells tested failed to express the UV-irradiated reporter gene, this reflecting their NER deficiency whereas cotransfection with the repair plasmid expressing a gene specific for the given complementation group increased the enzyme activity to the level reached by normal cells. Selective recovery of both reporter enzyme activities was observed after cotransfection with the XPC gene for the XP17VI cells and with the XPA gene for both XP18VI and XP19VI cells. Using this method, we assigned three new NER-deficient human cells obtained from patients presenting clinical symptoms described as classical XP to either XP group A (XP18VI and XP19VI) and XP group C (XP17VI). Therefore, this technique increases the range of methods now available to determine the complementation group of new NER deficient patients with the advantage, unlike the somatic cell fusion assay or the microinjection procedure, of being simple, rapid, and inexpensive.
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PMID:Development of a new easy complementation assay for DNA repair deficient human syndromes using cloned repair genes. 776 57

Nevoid basal cell carcinoma syndrome (NBCCS, Gorlin syndrome) is an autosomal dominant disorder, characterized primarily by multiple basal cell carcinomas, epithelium-lined jaw cysts, and palmar and plantar pits, as well as various other features. Loss of heterozygosity studies and linkage analysis have mapped the NBCCS gene to chromosome 9q and suggested that it is a tumor suppressor. The apparent sensitivity of NBCCS patients to UV and X-irradiation raises the possibility of hypersensitivity to DNA-damaging reagents or defective DNA repair being etiological in the disorder. The recent mapping of the Fanconi anaemia group C (FACC) and xeroderma pigmentosum complementing group A (XPAC) genes to the same region on 9q has led us to begin the molecular dissection of the 9q22-q31 region. PCR analysis of the presence or absence of 10 microsatellite markers and exons 3 and 4 of the XPAC and FACC genes, respectively, allowed us to order 12 YACs into an overlapping contig and to order the markers as follows: D9S151/D9S12P1-D9S12P2-D9S197-D9S196-D9 S280-FACC-D9S287/XPAC-D9S180-D9S6-D9 S176 . Sizing of the YACs has provided an initial estimate of the size of the NBCCS candidate region between D9S12 and D9S180 to be less than 1.65 Mb.
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PMID:A YAC contig spanning the nevoid basal cell carcinoma syndrome, Fanconi anaemia group C, and xeroderma pigmentosum group A loci on chromosome 9q. 782 76

XPA is a zinc finger DNA-binding protein, which is missing or altered in group A xeroderma pigmentosum cells and known to be involved in the damage-recognition step of the nucleotide excision repair (NER) processes. Using the yeast two-hybrid system to search for proteins that interact with XPA, we obtained the 34-kDa subunit of replication protein A (RPA, also known as HSSB and RFA). RPA is a stable complex of three polypeptides of 70, 34, 11 kDa and has been shown to be essential in the early steps of NER as well as in replication and recombination. We also demonstrate here that the RPA complex associates with XPA. These results suggest that RPA may cooperate with XPA in the early steps of the NER processes.
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PMID:DNA repair protein XPA binds replication protein A (RPA). 787 67

All the reported Japanese patients with group A xeroderma pigmentosum (XP) have two or three mutations at codon 116 in exon 3, codon 228 in exon 6, and the splicing acceptor site of intron 3 of XP group A complementing (XPAC) gene. A homozygote (XP39OS) with a nonsense mutation at codon 228 has less severe neurological abnormalities than patients with the splicing mutation at the acceptor site of intron 3. As homozygotes for the nonsense mutation at codon 116, which truncates a carboxyl-terminal site of XPAC protein at an early part of its zinc-finger domain, have not been reported previously, the possible severity of associated neurological abnormalities was not known. We report a group A XP patient, XP18OS, who had neurological abnormalities which were more severe than those in patients homozygous for the splicing mutation. The polymerase chain reaction product from exon 3 of the patient's XPAC gene was digested completely into three fragments by MseI restriction endonuclease. Thus, the patient was homozygous for the mutation at codon 116.
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PMID:Severe neurological abnormalities associated with a mutation in the zinc-finger domain in a group A xeroderma pigmentosum patient. 794 12

The molecular basis of group A xeroderma pigmentosum (XP) was investigated by Southern blot analysis of genomic DNA and Northern blot analysis of poly (A)+ RNA from patients with group A and atypical group A XP and normal controls. The clones of a patient with group A XP who had typical symptoms showed a G-->C substitution at the 3' splice acceptor site of intron 3, which is the most common mutation in Japanese group A XP patients. On the other hand, one typical group A patient and one atypical group A patient with mild skin lesions and minimal neurological abnormalities showed compound heterozygote for the splicing mutation of intron 3 and the nonsense mutation of exon 6. The other one atypical group A patient showed a homozygote of the nonsense mutation of exon 6, thus suggesting no direct correlationship between severity of neurological complication and DNA abnormality. Northern blot analysis of poly (A)+ RNA revealed that the XPAC mRNAs of group A XP cells were smaller than that of normal controls, and amounts were markedly reduced. Of three atypical group A XP patients, one showed almost normal size and amount of the XPAC mRNA, another showed as small size and reduced amount of the XPAC mRNA, while the third one showed an intermediate type between typical group A XP and normal controls.
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PMID:[Neurological manifestations and molecular basis of group A xeroderma pigmentosum]. 810 18

Xeroderma pigmentosum (XP) patients in Tunisia who belong to the genetic complementation group A (XPA) have milder skin symptoms than do Japanese XPA patients. Such difference in the clinical features might be caused by the difference in the site of mutation in the XP A-complementing (XPAC) gene. The purpose of this study is to identify the genetic alterations in the XPAC gene in the Tunisian XPA patients and to investigate the relationship between the clinical symptoms and the genetic alterations. Three sites of mutation in the XPAC gene have been identified in the Japanese XPA patients, and about 85% of them have a G-->C point mutation at the splicing acceptor site of intron 3. We found that six (86%) of seven Tunisian XPA patients had a nonsense mutation in codon 228 in exon 6, because of a CGA-->TGA point mutation, which can be detected by the HphI RFLP. This type of mutation is the same as those found in two Japanese XPA patients with mild clinical symptoms. Milder skin symptoms in the XPA patients in Tunisia than in those in Japan, despite mostly sunny weather and the unsatisfactory sun protection in Tunisia, should be due to the difference in the mutation site.
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PMID:High prevalence of the point mutation in exon 6 of the xeroderma pigmentosum group A-complementing (XPAC) gene in xeroderma pigmentosum group A patients in Tunisia. 810 86

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

The xeroderma pigmentosum complementation group A (XP-A) protein, XPA, has recently been expressed in Escherichia coli in a soluble and fully functional form. An affinity column was prepared by linking the XPA protein to a solid support. When HeLa cell-free extract capable of excision repair was applied to the column, > 99.9% of the proteins were in the flow-through. However, the flow-through fraction lacked excision activity. The activity was restored by adding the high salt (1 M KCl) eluate of the column to the flow-through fraction. The XPA protein-bound fraction was tested for specific proteins by an in vitro complementation assay with a panel of cell-free extracts from DNA repair-deficient human and rodent cell lines. The XPA-bound fraction complemented cell-free extracts of excision repair cross-complementing 1 (ERCC-1), ERCC-4 (XP-F), and XP-A mutants. We conclude that the XPA damage recognition protein makes a ternary complex with the ERCC1/ERCC4(XPF) heterodimer with a potential nuclease function.
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PMID:Formation of a ternary complex by human XPA, ERCC1, and ERCC4(XPF) excision repair proteins. 819 75


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