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Pivot Concepts:
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Target Concepts:
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Query: UMLS:C0268140 (
XPF
)
549
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Impaired DNA damage repair, especially deficient transcription-coupled nucleotide excision repair, leads to segmental progeroid syndromes in human patients as well as in rodent models. Furthermore, DNA double-strand break signalling has been pinpointed as a key inducer of cellular senescence. Several recent findings suggest that another DNA repair pathway, interstrand cross-link (ICL) repair, might also contribute to cell and organism aging. Therefore, we summarize and discuss here that (i) systemic administration of anti-cancer chemotherapeutics, in many cases DNA cross-linking drugs, induces premature progeroid frailty in long-term survivors; (ii) that ICL-inducing 8-methoxy-psoralen/UVA phototherapy leads to signs of premature skin aging as prominent long-term side effect and (iii) that mutated factors involved in ICL repair like ERCC1/
XPF
, the Fanconi anaemia proteins,
WRN
and SNEV lead to reduced replicative life span in vitro and segmental progeroid syndromes in vivo. However, since ICL-inducing drugs cause damage different from ICL and since all currently known ICL repair factors work in more than one pathway, further work will be needed to dissect the actual contribution of ICL damage to aging.
...
PMID:Contributions of DNA interstrand cross-links to aging of cells and organisms. 1808 60
Werner syndrome (WS) is a rare, segmental progeroid syndrome caused by defects in the
WRN
gene, which encodes a RecQ helicase.
WRN
has roles in many aspects of DNA metabolism including DNA repair and recombination. In this study, we exploited two different recombination assays previously used to describe a role for the structure-specific endonuclease ERCC1-
XPF
in mitotic and targeted homologous recombination. We constructed Chinese hamster ovary (CHO) cell lines isogenic with the cell lines used in these previous studies by depleting
WRN
using shRNA vectors. When intrachromosomal, mitotic recombination was assayed in
WRN
-depleted CHO cells, a hyperrecombination phenotype was observed, and a small number of aberrant recombinants were generated. Targeted homologous recombination was also examined in
WRN
-depleted CHO cells using a plasmid-chromosome targeting assay. In these experiments, loss of
WRN
resulted in a significant decrease in nonhomologous integration events and ablation of recombinants that required random integration of the corrected targeting vector. Aberrant recombinants were also recovered, but only from
WRN
-depleted cells. The pleiotropic recombination phenotypes conferred by
WRN
depletion, reflected in distinct homologous and nonhomologous recombination pathways, suggest a role for
WRN
in processing specific types of homologous recombination intermediates as well as an important function in nonhomologous recombination.
...
PMID:Depletion of Werner helicase results in mitotic hyperrecombination and pleiotropic homologous and nonhomologous recombination phenotypes. 2070 36
Computational image analysis is used in many areas of biological and medical research, but advanced techniques including machine learning remain underutilized. Here, we used automated segmentation and shape analyses, with pre-defined features and with computer generated components, to compare nuclei from various premature aging disorders caused by alterations in nuclear proteins. We considered cells from patients with Hutchinson-Gilford progeria syndrome (HGPS) with an altered nucleoskeletal protein; a mouse model of XFE progeroid syndrome caused by a deficiency of ERCC1-
XPF
DNA repair nuclease; and patients with Werner syndrome (WS) lacking a functional
WRN
exonuclease and helicase protein. Using feature space analysis, including circularity, eccentricity, and solidity, we found that XFE nuclei were larger and significantly more elongated than control nuclei. HGPS nuclei were smaller and rounder than the control nuclei with features suggesting small bumps. WS nuclei did not show any significant shape changes from control. We also performed principle component analysis (PCA) and a geometric, contour based metric. PCA allowed direct visualization of morphological changes in diseased nuclei, whereas standard, feature-based approaches required pre-defined parameters and indirect interpretation of multiple parameters. Both methods yielded similar results, but PCA proves to be a powerful pre-analysis methodology for unknown systems.
...
PMID:Computational image analysis of nuclear morphology associated with various nuclear-specific aging disorders. 2212 59
DNA interstrand crosslinks (ICLs) are generated by endogenous sources and chemotherapeutics, and pose a threat to genome stability and cell survival. Using Caenorhabditis elegans mutants, we identify DNA repair factors that protect against the genotoxicity of ICLs generated by trioxsalen/ultraviolet A (TMP/UVA) during development and aging. Mutations in nucleotide excision repair (NER) components (e.g. XPA-1 and
XPF
-1) imparted extreme sensitivity to TMP/UVA relative to wild-type animals, manifested as developmental arrest, defects in adult tissue morphology and functionality, and shortened lifespan. Compensatory roles for global-genome (XPC-1) and transcription-coupled (CSB-1) NER in ICL sensing were exposed. The analysis also revealed contributions of homologous recombination (BRC-1/BRCA1), the MUS-81, EXO-1, SLX-1 and FAN-1 nucleases, and the DOG-1 (FANCJ) helicase in ICL resolution, influenced by the replicative-status of the cell/tissue. No obvious or critical role in ICL repair was seen for non-homologous end-joining (cku-80) or base excision repair (nth-1, exo-3), the Fanconi-related proteins BRC-2 (BRCA2/FANCD1) and FCD-2 (FANCD2), the
WRN
-1 or HIM-6 (BLM) helicases, or the GEN-1 or MRT-1 (SNM1) nucleases. Our efforts uncover replication-dependent and -independent ICL repair networks, and establish nematodes as a model for investigating the repair and consequences of DNA crosslinks in metazoan development and in adult post-mitotic and proliferative germ cells.
...
PMID:Systematic analysis of DNA crosslink repair pathways during development and aging in Caenorhabditis elegans. 2893 97
A systematical bioinformatics and meta-analysis were carried out to establish our understanding of possible relationships between DNA repair genes and the development of cancer. The bioinformatics analysis confirmed that lower
XPA
and
XPC
levels and higher
XPD
,
XPF
, and
WRN
levels were observed in 19 types of cancer, and subsequently results indicated that elevated
XPA
and
XPC
had a better impact on overall survival, however, higher
XPD
,
XPF
, and
WRN
showed worse influence on cancer prognosis. The meta-analysis included 58 eligible studies demonstrated that harboring
XPA
rs10817938,
XPD
rs238406 increased overall cancer risk, however,
XPA
rs2808668 SNP in overall cancer analysis and
XPF
rs3136038 in the digestive system remarkably reduced the cancer risk. Moreover, no correlation was investigated for
XPC
rs1870134,
WRN
rs1346044 and rs1801195. These suggest that the DNA repair gene was associated with carcinogenesis, and contribute to the prognosis, and the critical SNPs further involved in affecting cancer risk.
...
PMID:Associations of mRNA expression of DNA repair genes and genetic polymorphisms with cancer risk: a bioinformatics analysis and meta-analysis. 3133 76
