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)

The xeroderma pigmentosum complementation group D is defined by more than 30 unrelated individuals of whom less than half show major abnormalities of the central nervous system, once considered to be the hallmark of the group. Fibroblasts from the great majority of these individuals show very considerable sensitivity to UV light in vitro despite the fact that the cells carry out what appears to be substantial excision repair, as judged from repair synthesis and incision activity. This article reviews the XPD group and the defects in cellular DNA repair and examines the lack of correlation between repair and the appearance of neurological abnormalities. The article also discusses the recent awareness that at least some members of two other inherited conditions, trichothiodystrophy and Cockayne's Syndrome, carry mutations in the XPD gene.
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PMID:The XPD complementation group. Insights into xeroderma pigmentosum, Cockayne's syndrome and trichothiodystrophy. 137 8

Chromosome analysis was carried out in cultured fibroblasts from unaffected skin of five unrelated xeroderma pigmentosum (XP) patients and nine family members. Structural chromosome changes were observed in cultures from all examined individuals. Furthermore, in one XPD patient and in one XPC patient and his parents, cytogenetically abnormal clones were detected. Some of these clones were present starting from the primary explant. This cytogenetic pattern is similar to that observed in an XPC patient previously studied by us. The analysis of breakpoint distribution from clonal and non-clonal chromosome rearrangements showed that some breakpoints were more frequent and common to different families or to different family members although definite evidence of preferential involvement of chromosome bands was not obtained. This investigation indicates that there is a consistent tendency toward chromosome instability in XP mutation carriers. The instability could be related to the multiple chromosome anomalies characterizing skin tumors in XP subjects.
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PMID:Chromosome rearrangements in normal fibroblasts from xeroderma pigmentosum homozygotes and heterozygotes. 198 53

Immortalized fibroblasts from a male patient with xeroderma pigmentosum from complementation group D (XP-D) were treated with either ethyl methane sulfonate (EMS) or bleomycin (BLM) to obtain mutations in hypoxanthine phosphoribosyltransferase (HPRT) activity. The aneuploid parental cell line, MH3-XPD, was found to have a single copy of the HPRT gene, indicating that this cell line remained physically hemizygous for this locus during the transformation process. Subcloning of 6-thioguanine-resistant (6TG') isolates resulted in clones without detectable HPRT activity. Continued maintenance in elevated concentrations of 6TG (30-60 muM) produced cell populations with negligible growth in counterselection medium. No HPRT-deficient clones arose from unmutagenized cell cultures. Molecular analysis of the HPRT mutations in five clones with undetectable HPRT activity showed that four had large deletions. Two bleomycin-generated isolates were both found to have an approximately 28-kb intragenic deletion beginning with the first intron near exon 1 and ending within the fourth intron near exon 4. Messenger RNA from these clones was truncated by approximately 370 nucleotides. Our findings indicate that these two clones originated from the same mutational event within a founder cell. The three EMS-induced mutants fell into two classes: a putative point mutation or small deletion and two complete gene deletions.
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PMID:Ethyl methane sulfonate- and bleomycin-generated deletion mutations at HPRT locus in xeroderma pigmentosum complementation group D fibroblasts. 247 61

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 resistance. 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.
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PMID:Lack of complementation between xeroderma pigmentosum complementation groups D and H. 260 86

Repair-proficient human cells can be sensitized to exposure to UV radiation at 254 nm by postirradiation incubation in the presence of the eukaryotic alpha polymerase inhibitor, aphidicolin. The degree of sensitization has been examined in cells cultured from humans suffering from various types of sun-sensitive syndromes. Xeroderma pigmentosum (XP) variant and Bloom's cell lines (both excision proficient) were strongly sensitized by aphidicolin. An excision repair proficient Cockayne's cell line and a deficient XPD line were both sensitized to a level similar to the sensitivity of excision deficient XPA cells. In contrast, three XPC cell lines which show intermediate UV-induced repair replication and UV sensitivity were sensitized little (in one case) or not at all (in two cases) to UV by postirradiation inhibition of the alpha polymerase. These results lead us to conclude that there are two independent pathways of biologically effective excision repair, the major one of which involves the alpha polymerase and a second, less efficient and slower pathway which is independent of the alpha polymerase and which is the only pathway operating in two of the three XPC strains tested. The rates of biologically effective excision repair were similar in normal, XP variant, and Cockayne's cell lines, but these rates were considerably higher than published rates of dimer excision measured under similar conditions.
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PMID:Evidence for two independent pathways of biologically effective excision repair from its rate and extent in cells cultured from sun-sensitive humans. 310 32

The capacity of a variety of human fibroblasts to incise DNA following exposure to far ultraviolet-light is determined from the rate of single-strand DNA break accumulation in the presence of DNA synthesis inhibitors. We have quantitated incision, one of the early steps in the UV excision repair pathway, in cells form normal, xeroderma pigmentosum groups C, D, G, H and variant individuals, and in the parents of one XPA patient. On the basis of the estimated initial rates of incision the different XP cells examined in this work can be ranked as follows: XP variant much greater than XPH greater than XPH greater than XPD greater than XPC greater than XPG greater than XPA. In each cell strain breaks accumulate immediately after irradiation over a range of 0.5-20 Jm-2 with the exception of the XPC strain examined, where there is an initial delay of 15 min. The rate of incision in XPA heterozygote cells is roughly half that of normal fibroblasts. Analysis of the kinetics of break accumulation over short intervals after irradiation permits estimation of the apparent enzymatic parameters, Km and Vmax, for the incision step. The approximate values of Km and Vmax for normal and XP variant are similar while for the heterozygotes of an XPA individual Km values are normal (around 1 Jm-2), but there is only half the amount of normal enzyme activity. XPD and H cells express low levels of active enzyme, between 5 and 15% of that of the normal, but while the Km of XPH is very similar to that of normal cells, that of two XPD strains examined is between 2- and 3-fold higher.
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PMID:Kinetic analysis of UV-induced incision discriminates between fibroblasts from different xeroderma pigmentosum complementation groups, XPA heterozygotes and normal individuals. 334 9

Two intraspecific human cell hybrids, HD2 and HD1A, produced from fusion between HeLa cells and xeroderma pigmentosum fibroblasts, express XPD-like rates of excision repair and hypersensitivity to UV-radiation. In the present paper we describe unusual patterns of UV-induced mutation in both cell lines. Though HD2 very closely resembles XPD both phenotypically and genetically, in UV-dose response it is hypomutable at the loci for ouabain and diphtheria toxin resistance. At equitoxic dose, however, it shows normal mutability, HD1A, by contrast, is hypermutable as a function either of UV dose or in terms of equitoxicity for these genes. HD1A's mutator phenotype is a dominant characteristic and is not associated with grossly abnormal DNA precursor pool imbalance. The possibility remains that DNA polymerase infidelity underlies its hypermutability.
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PMID:Abnormal mutation frequencies in human repair-defective hybrid cell lines. 362 40

Hybrids formed between HeLa cells and fibroblasts from xeroderma pigmentosum group D show either HeLa sensitivity or XPD-like hypersensitivity to u.v. radiation and corresponding high or low excision repair capability. Hybrids with low repair are presumed to have lost, via chromosome segregation, the HeLa wild type D alleles. In this paper we analyse the u.v. sensitivity and excision repair capability of another hybrid, HD1A, derived spontaneously from the normally sensitive hybrid HD1. While HD1A closely resembles the XPD phenotype in terms of u.v. sensitivity and excision repair it differs from XPD because of its ability to reactivate u.v.-irradiated adenovirus 2 to an extent similar to that of its HeLa parent. This capacity functionally dissociates excision repair of chromatin-based damage from damage in a viral environment. Moreover, on the basis of complementation studies the excision repair of genomic damage by HD1A is subtly different from that of a true XPD-like hybrid, HD2. The data are discussed in terms of a second change in the defective D allele of the HD1A cell.
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PMID:Analysis of DNA repair in XP-HeLa hybrids; lack of correlation between excision repair of u.v. damage and adenovirus reactivation in an XP(D)-like cell line. 375 74

In the Chinese hamster ovary (CHO) cell line, various mutations affecting DNA repair have been obtained. Mutants that belong to 5 genetic complementation groups for ultraviolet (UV) sensitivity and resemble the cells from individuals having the cancer-prone genetic disorder xeroderma pigmentosum (XP) were previously identified. Each mutant is defective in the incision step of nucleotide excision repair and hypersensitive to bulky DNA lesions. These UV mutants can be divided into two subgroups; only Groups 2 and 4 are extremely sensitive to mitomycin C and other DNA cross-linking agents. The clear-cut phenotypes of the CHO mutants have allowed us to construct hybrid cells by fusion with human lymphocytes and thereby identify which human chromosomes carry genes that correct the CHO mutations. The first two mutations analyzed, UV20 (excision-repair deficient; UV Group 2) and EM9, which has a very high frequency of sister chromatid exchange (SCE), are both corrected by chromosome 19. Efforts are underway to isolate complementing repair genes by DNA-mediated gene transfer. The human gene that corrects mutant EM9 and the hamster gene that corrects UV135 (UV Group 5) have been introduced by cotransfer of genomic DNA and the dominant selectable marker gpt (guanine phosphoribosyltransferase) gene. In each case, the DNA repair function was co-selected based on resistance to 5-chlorodeoxyuridine (CldUrd) or repeated UV irradiation, respectively. The presence of a functional human repair gene in the EM9 transformants is shown by the presence of common human DNA sequences on some fragments produced by restriction enzyme cleavage. In UV135, transfer of a repair gene is indicated by a colony distribution containing "jackpots" and by instability of the resistant phenotype.
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PMID:DNA repair genes of mammalian cells. 376 40

Fusion between HeLa and fibroblasts from complementation group D xeroderma pigmentosum (XPD) followed by challenge with small doses of ultraviolet light (u.v.) results in the production of hybrid cells expressing either HeLa (HD1) or XPD-like (HD2) sensitivity to u.v. and related repair capacity. Assays used included unscheduled DNA synthesis (UDS), DNA break accumulation in the presence of inhibitors of DNA repair synthesis and host cell reactivation of irradiated adenovirus. Complementation assay in heterokaryons reveals limited ability of HD2 to restore UDS in XPD nuclei. We believe this complementation is more apparent than real since proliferating hybrids of HD2 and XPD parentage are without exception u.v.-sensitive and express limited excision repair. On the other hand hybrids between HD2 and XPC, XPE or XPF fibroblasts show true complementation resulting in a return to normal u.v. sensitivity and elevated repair ability.
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PMID:Xeroderma pigmentosum D-HeLa hybrids with low and high ultraviolet sensitivity associated with normal and diminished DNA repair ability, respectively. 406 82

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