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)

Accumulated evidence indicates that proliferating cell nuclear antigen (PCNA) is an auxiliary protein of DNA polymerase delta and forms tight association with DNA replication sites during DNA replication or DNA repair synthesis. In this study, such PCNA complex formation was investigated by the indirect immunofluorescence method, using both normal human fibroblasts and those derived from a xeroderma pigmentosum group A (XP-A) patient. XP-A fibroblasts in both proliferating and quiescent states did not show any differences from normal fibroblasts in the properties of PCNA-staining in the untreated conditions. The PCNA complex formation was induced in quiescent normal fibroblasts by both ultraviolet light (UV)- and X-irradiation, whereas in XP-A fibroblasts it was induced by X-irradiation, but not by UV-irradiation. However, PCNA complex was induced in quiescent XP-A fibroblasts by UV-irradiation when the cells had previously incorporated 5-bromodeoxyuridine (BrdU). These observations indicate a close correlation of PCNA complex formation and unscheduled DNA synthesis (UDS). Thus, it was concluded that PCNA complex formation was commonly induced in at least three conditions to produce UDS in spite of different types of DNA damages and DNA repair mechanisms.
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PMID:Induction of proliferating cell nuclear antigen (PCNA) complex formation in quiescent fibroblasts from a xeroderma pigmentosum patient. 134 2

We examined the relationship between the formation of proliferating cell nuclear antigen (PCNA) complex with DNA and nucleotide excision repair in human fibroblasts following ultraviolet light (uv) irradiation. PCNA complex formation was detected by the immunofluorescence method after methanol fixation and nucleotide excision repair activity was detected as the unscheduled DNA synthesis (UDS) by autoradiography labeled with [3H]thymidine. Quiescent normal cells showed a strong punctuated pattern of PCNA staining 5 min to 3 h and UDS 3 h after 10 J/m2 of uv irradiation, but they no longer showed PCNA staining and UDS 24 h after irradiation. In contrast, xeroderma pigmentosum group A (XP-A) cells, which lack UDS activity, did not show PCNA staining up to 30 min after irradiation; however, unexpectedly, they were stained 3 h and even 24 h after irradiation with their staining pattern being different from that in normal cells. Namely, the fluorescence spots in XP-A cells were larger in size and much smaller in number than those in normal cells. When XP-A cells were fused with normal cells with polyethylene glycol treatment, nuclei of XP-A cells showed a PCNA staining pattern similar to that of normal cells at 30 min, which was no longer detected 24 h after irradiation. These results suggest that there exist two types of PCNA complex formation, nucleotide excision repair-related and -unrelated, in human fibroblasts following uv irradiation.
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PMID:Two types of proliferating cell nuclear antigen (PCNA) complex formation in quiescent normal and xeroderma pigmentosum group A fibroblasts following ultraviolet light (uv) irradiation. 135 58

We examined the role of the factor deficient in xeroderma pigmentosum group A (XP-A) cells in the formation of proliferating cell nuclear antigen (PCNA) complex with DNA in the DNA repair process in human fibroblasts following cis-diamminedichloroplatinum (CDDP)-treatment. Immunofluorescence staining after methanol fixation was used to detect the PCNA complex formation. When quiescent normal cells were PCNA-stained at 3 h after 100 microM CDDP treatment for 1 h, almost all nuclei of the cells showed a punctuated staining pattern. On the other hand, nuclei of XP-A cells were not stained. These results were the same with the findings following 10J/m2 of ultraviolet light (UV)-irradiation. The quantitative analysis of the PCNA immunofluorescence intensity of normal cells revealed that the mean intensity was increased by 4.8 times by the CDDP-treatment and 6.1 times by the UV-irradiation, compared with that of untreated cells. The intensities among nuclei ranged widely in both treatments. In contrast, the mean intensity was not increased in XP-A cells by the same treatments. However, when XP-A cells were fused with normal cells with polyethylene glycol (PEG) treatment, the nuclei of the XP-A cells showed positive PCNA-staining following CDDP-treatment or UV-irradiation in almost all cases. These results suggest that the PCNA complex formation may play a role in the DNA repair process after the step where the factor deficient in XP-A cells is involved following CDDP-treatment as well as following UV-irradiation.
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PMID:Restoration of proliferating cell nuclear antigen (PCNA) complex formation in xeroderma pigmentosum group A cells following cis-diamminedichloroplatinum (II)-treatment by cell fusion with normal cells. 135 71

We have previously shown (Smith et al., 1994) that antibodies raised against the growth arrest and DNA damage inducible protein Gadd45 co-precipitate proliferating cell nuclear antigen (PCNA), a protein involved in DNA replication and repair. Here we demonstrate that Gadd45 can directly bind to PCNA using a Far-western blotting approach. In this assay, a Gadd45 bacterial expression vector was modified to allow synthesis of purified 32P-labeled Gadd45 fusion protein. This protein was used to detect filter bound PCNA protein, while filter bound Gadd45 protein could also be detected by free PCNA molecules. Using recombinant proteins in conjunction with immunoprecipitation and immunoblotting, we show that Gadd45 competes with p21 for binding to PCNA and conversely, p21 blocks the ability of Gadd45 to bind PCNA. In addition, p21 appears to disrupt PCNA trimers whereas Gadd45 has a lesser effect. PCNA trimer disruption was also observed in UV-irradiated cells but not in repair-defective xeroderma pigmentosum group A (XP-A) cells.
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PMID:Direct interaction of Gadd45 with PCNA and evidence for competitive interaction of Gadd45 and p21Waf1/Cip1 with PCNA. 747 10

During nucleotide excision repair, damaged DNA is incised on both sides of a lesion and an oligomer containing the damage is excised and replaced by repair DNA synthesis. The latter step is accomplished in vitro by proteins that include the DNA polymerase accessory factor PCNA, which binds to DNA ends to initiate repair synthesis. An increased association of PCNA with nuclei occurs after UV irradiation of nonreplicating DNA in normal human fibroblasts, probably following incision of damaged DNA. This property was used to detect the catalysis of nucleotide excision repair incisions in damaged DNA in vivo, by immunostaining of quiescent human fibroblasts with the widely available PC10 antibody. We summarize here a comprehensive survey of PCNA immunostaining in repair-defective xeroderma pigmentosum (XP) cells in comparison to normal cells. XP-A and XP-G cells were completely defective in staining for PCNA 30 min after UV irradiation. This strongly suggests that XPA and XPG proteins are absolutely required in cells before any incisions can be formed in damaged DNA. XP-B, XP-C, XP-D, and XP-F cells showed an intermediate level of staining for PCNA after UV irradiation, indicative of partial incision capacity in those cells. UV-irradiated XP-E and XP-V cells showed normal PCNA immunostaining levels, consistent with evidence that the corresponding factors are not essential for the incision step of repair. The results provide further evidence for the involvement of PCNA in the repair process in vivo and give an alternative to traditional approaches for measurement of nucleotide excision repair capability.
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PMID:Detection of nucleotide excision repair incisions in human fibroblasts by immunostaining for PCNA. 749 31

Nucleotide excision repair is the principal way by which human cells remove UV damage from DNA. Human cell extracts were fractionated to locate active components, including xeroderma pigmentosum (XP) and ERCC factors. The incision reaction was then reconstituted with the purified proteins RPA, XPA, TFIIH (containing XPB and XPD), XPC, UV-DDB, XPG, partially purified ERCC1/XPF complex, and a factor designated IF7. UV-DDB (related to XPE protein) stimulated repair but was not essential. ERCC1- and XPF-correcting activity copurified with an ERCC1-binding polypeptide of 110 kDa that was absent in XP-F cell extract. Complete repair synthesis was achieved by combining these factors with DNA polymerase epsilon, RFC, PCNA, and DNA ligase I. The reconstituted core reaction requires about 30 polypeptides.
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PMID:Mammalian DNA nucleotide excision repair reconstituted with purified protein components. 769 16

The mammalian ERCC1-encoded polypeptide is required for nucleotide excision repair of damaged DNA and is homologous to Saccharomyces cerevisiae RAD10, which functions in repair and mitotic intrachromosomal recombination. Rodent cells representing repair complementation group 1 have nonfunctional ERCC1. We report that repair of UV-irradiated DNA can be reconstituted by combining rodent group 1 cell extracts with correcting protein from HeLa cells. Background repair was minimized by employing fractionated rodent cell extracts supplemented with human replication proteins RPA and PCNA. Group 1-correcting activity has a native molecular mass of 100 kDa and contains the 33 kDa ERCC1 polypeptide, as well as complementing activities for extracts from rodent group 4 and xeroderma pigmentosum group F (XP-F) cells. Extracts of group 1, group 4 or XP-F cells do not complement one another in vitro, although they complement extracts from other groups. The amount of ERCC1 detectable by immunoblotting is reduced in group 1, group 4 and XP-F extracts. Recombinant ERCC1 from Escherichia coli only weakly corrected the group 1 defect. The data suggest that ERCC1 is part of a functional protein complex with group 4 and XP-F correcting activities. The latter two may be equivalent to one another and analogous to S. cerevisiae RAD1.
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PMID:Co-correction of the ERCC1, ERCC4 and xeroderma pigmentosum group F DNA repair defects in vitro. 825 90

The repair of X-ray-induced DNA damage related to the proliferating cell nuclear antigen (PCNA) was characterized in human diploid fibroblasts by an indirect immunofluorescence method. PCNA staining induced by X rays was lost after DNase I treatment but not after RNase treatment. The staining was not induced when ATP was depleted or the temperature was lowered to 0 degrees C during the X irradiation. When cells were incubated at 37 degrees C after X irradiation, PCNA staining diminished gradually and was almost entirely absent 12-15 h later. On the other hand, PCNA staining persisted during aphidicolin treatment even 20 h after X irradiation. Induction of PCNA staining was not affected by the aphidicolin treatment. Cycloheximide treatment did not affect induction of the staining either, but did inhibit the disappearance of the staining. There was no difference in the staining pattern and time course of PCNA staining after X irradiation between normal and xeroderma pigmentosum group A (XP-A) cells. These results imply that PCNA-dependent, aphidicolin-sensitive DNA polymerases may be involved in repair of X-ray-induced DNA damage in vivo, but the repair initiation step could be different from that of nucleotide excision repair initiated by XP proteins.
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PMID:Characterization of X-ray-induced immunostaining of proliferating cell nuclear antigen in human diploid fibroblasts. 853 40

To investigate the relationship between proliferating cell nuclear antigen (PCNA) complex formation and dual incisions in the nucleotide excision repair (NER) process, xeroderma pigmentosum group G (XP-G), XP-F, and XP-G equivalent mouse UV-sensitive mutant ERCC group 5 cells were utilized as a model in this study. These cells are deficient in endonucleases related to 3' (XP-G and ERCC group 5) or 5' (XP-F) incision of the DNA lesions in the NER process. PCNA complex formation was detected by an indirect immunofluorescence method after the cells were fixed in methanol. When Sps1 (XP-G) and XL216-7 (ERCC group 5) cells were UV irradiated, neither of them showed PCNA staining. In contrast, SFN4 (a human normal strain) and heterokaryons of Sps1 and XP96TO (XP-A) cells fused by polyethylene glycol treatment showed PCNA staining following UV irradiation. Furthermore, XLgfPAneo1 cells, derived from XL216-7 cells transfected with a plasmid containing mouse ERCC5 (xpg) cDNA, also restored staining and UV sensitivity. On the other hand, we observed a very faint PCNA staining in XP2YO (XP-F) cells, expressing no detectable ERCC1 or XPF protein, after UV irradiation. X rays induced PCNA staining in all cell lines with a similar staining pattern, and radiosensitivity was exactly the same between XL216-7 and XLgfPAneo1 cells. These results may have implications for the NER process in vivo in that coordinately occurring dual incisions by XPG and XPF/ERCC1 proteins play an important role in inducing PCNA complex formation, but the step may not be required for PCNA-dependent repair of X-ray-induced DNA damage.
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PMID:Roles of XPG and XPF/ERCC1 endonucleases in UV-induced immunostaining of PCNA in fibroblasts. 866 Sep 47

We have investigated the relationship between XPA gene mutations and PCNA complex formation in the nucleotide excision repair (NER) process utilizing cells derived from various xeroderma pigmentosum group A (XP-A) patients. The PCNA complex formation was detected by PCNA immunostaining following methanol fixation. Results indicated that UV-induced PCNA staining at early stages was well correlated to the function of XPA protein and provided evidence that XPA protein-related recognition step was tightly linked to PCNA-associated events in the NER process in vivo.
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PMID:Effect of XPA gene mutations on UV-induced immunostaining of PCNA in fibroblasts from xeroderma pigmentosum group A patients. 881 38

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