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1.
The viability of non-homologous end-joining (NHEJ)-defective mice suggests that homologous recombination (HR) might take over its role in DNA repair. To test this hypothesis, we examined gene targeting frequencies (TF) in DNA-PK(cs), Ku80 and poly(ADP-ribose) polymerase (PARP-1) nullizygous cells. We observed a 3-fold TF increase in PARP-1 knockout embryonic stem (ES) cells, which is consistent with the predicted role of PARP-1 as a switch between HR and NHEJ. To a lesser extent, such effect could be reproduced upon chemical inhibition of PARP-1. However, TF was not enhanced in Ku80- or DNA-PK(cs)-defective cells. Our study also suggests an unexpected involvement of DNA-PK(cs) in HR. 相似文献
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DNA依赖性蛋白激酶(DNA-dependent protein kinase,DNA-PK)是由3个亚基组成的丝/苏氨酸蛋白激酶,属于磷脂酰肌醇-3激酶相关激酶家族(phosphatidylinositol 3-kinase-related kinases,PIKK),是基因组DNA损伤修复过程中的关键蛋白激酶,参与并决定着非同源末端连接DNA损伤修复通路的整个进程.此外DNA-PK还参与了电离辐射诱导的凋亡信号转导通路,免疫细胞V(D)J重组、免疫细胞分化、胰岛素刺激下的细胞应答等过程,具有维持端粒稳定性的功能.DNA-PK活性的升高会降低肿瘤对放射的敏感性,其活性主要受自身磷酸化调控,此外活性氧、EGFR、MG132抑制剂、PP1γ1和PP5等蛋白磷酸酶也有调控DNA-PK活性的作用. 相似文献
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Janette van der Linden;Sanne J. M. Stefens;José María Heredia-Genestar;Yanto Ridwan;Renata M. C. Brandt;Nicole van Vliet;Isa de Beer;Bibi S. van Thiel;Herman Steen;Caroline Cheng;Anton J. M. Roks;A. H. Jan Danser;Jeroen Essers;Ingrid van der Pluijm; 《Aging cell》2024,23(5):e14126
Cardiovascular diseases are the number one cause of death globally. The most important determinant of cardiovascular health is a person's age. Aging results in structural changes and functional decline of the cardiovascular system. DNA damage is an important contributor to the aging process, and mice with a DNA repair defect caused by Ercc1 deficiency display hypertension, vascular stiffening, and loss of vasomotor control. To determine the underlying cause, we compared important hallmarks of vascular aging in aortas of both Ercc1Δ/− and age-matched wildtype mice. Additionally, we investigated vascular aging in 104 week old wildtype mice. Ercc1Δ/− aortas displayed arterial thickening, a loss of cells, and a discontinuous endothelial layer. Aortas of 24 week old Ercc1Δ/− mice showed phenotypical switching of vascular smooth muscle cells (VSMCs), characterized by a decrease in contractile markers and a decrease in synthetic markers at the RNA level. As well as an increase in osteogenic markers, microcalcification, and an increase in markers for damage induced stress response. This suggests that Ercc1Δ/− VSMCs undergo a stress-induced contractile-to-osteogenic phenotype switch. Ercc1Δ/− aortas showed increased MMP activity, elastin fragmentation, and proteoglycan deposition, characteristic of vascular aging and indicative of age-related extracellular matrix remodeling. The 104 week old WT mice showed loss of cells, VSMC dedifferentiation, and senescence. In conclusion, Ercc1Δ/− aortas rapidly display many characteristics of vascular aging, and thus the Ercc1Δ/− mouse is an excellent model to evaluate drugs that prevent vascular aging in a short time span at the functional, histological, and cellular level. 相似文献
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Mallikarjun Patil Navjotsingh Pabla Han-Fei Ding Zheng Dong 《Cell cycle (Georgetown, Tex.)》2013,12(16):2608-2616
NIMA-related kinases (Neks) play divergent roles in mammalian cells. While several Neks regulate mitosis, Nek1 was reported to regulate DNA damage response, centrosome duplication and primary cilium formation. Whether Nek1 participates in cell cycle regulation is not known. Here we report that loss of Nek1 results in severe proliferation defect due to a delay in S-phase of the cell cycle. Nek1-deficient cells show replication stress and checkpoint activation under normal growth conditions. Nek1 accumulates on the chromatin during normal DNA replication. In response to replication stress, Nek1 is further activated for chromatin localization. Nek1 interacts with Ku80 and, in Nek1-deficient cells chromatin localization of Ku80 and several other DNA replication factors is significantly reduced. Thus, Nek1 may facilitate S-phase progression by interacting with Ku80 and regulating chromatin loading of replication factors. 相似文献
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The Ku heterodimer, composed of Ku70 and Ku80, is the initiating factor of the nonhomologous end joining (NHEJ) double-strand break (DSB) repair pathway. Ku is also thought to impede the homologous recombination (HR) repair pathway via inhibition of DNA end resection. Using the cell-free Xenopus laevis egg extract system, we had previously discovered that Ku80 becomes polyubiquitylated upon binding to DSBs, leading to its removal from DNA and subsequent proteasomal degradation. Here we show that the Skp1-Cul1-F box (SCF) E3 ubiquitin ligase complex is required for Ku80 ubiquitylation and removal from DNA. A screen for DSB-binding F box proteins revealed that the F box protein Fbxl12 was recruited to DNA in a DSB- and Ku-sensitive manner. Immunodepletion of Fbxl12 prevented Cul1 and Skp1 binding to DSBs and Ku80 ubiquitylation, indicating that Fbxl12 is the F box protein responsible for Ku80 substrate recognition. Unlike typical F box proteins, the F box of Fbxl12 was essential for binding to both Skp1 and its substrate Ku80. Besides Fbxl12, six other chromatin-binding F box proteins were identified in our screen of a subset of Xenopus F box proteins: β-TrCP, Fbh1, Fbxl19, Fbxo24, Fbxo28 and Kdm2b. Our study unveils a novel function for the SCF ubiquitin ligase in regulating the dynamic interaction between DNA repair machineries and DSBs. 相似文献
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Sibani S Rampakakis E Di Paola D Zannis-Hadjopoulos M 《Journal of cellular biochemistry》2008,104(3):773-784
DNA replication initiates at origins within the genome. The late-firing murine adenosine deaminase (mAdA) origin is located within a 2 kb fragment of DNA, making it difficult to examine by realtime technology. In this study, fine mapping of the mAdA region by measuring the abundance of nascent strand DNA identified two origins, mAdA-1 and mAdA-C, located 397 bp apart from each other. Both origins conferred autonomous replication to plasmids transfected in murine embryonic fibroblasts (MEFs), and exhibited similar activities in vivo and in vitro. Furthermore, both were able to recruit the DNA replication initiator proteins Cdc6 and Ku in vitro, similar to other bona fide replication origins. When tested in a murine Ku80(-/-) cell line, both origins exhibited replication activities comparable to those observed in wildtype cells, as did the hypoxanthine-guanine phosphoribosyltransferase (HPRT) and c-myc origins. This contrasts with previously published studies using Ku80-deficient human cells lines and suggests differences in the mechanism of initiation of DNA replication between the murine and human systems. 相似文献
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Ku plays a key role in multiple nuclear processes, e.g., DNA double-strand break (DSB) repair. The regulation mechanism of the localizations of Ku70 and Ku80 plays a key role in regulating the multiple functions of Ku. Although numerous biochemical studies in vitro have elucidated the DNA binding mechanism of Ku, no accumulation mechanisms of Ku70 and Ku80 at DSBs have been clarified in detail in vivo. In this study, we examined the accumulation mechanism of Ku80 at DSBs in living cells. EGFP-Ku80 accumulation at DSBs began immediately after irradiation. On the other hand, our data show that Ku70 alone, which has DNA binding activity independent of Ku80, cannot accumulate at the DSBs, whereas Ku70 bound to Ku80 can. The deletion of the C-terminal DNA-PKcs-binding domain and the mutation at the SUMOylation site of Ku80 had no effect on Ku80 accumulation. Unexpectedly, N-terminal deletion mutants of Ku80 fully lost their accumulation activity, although the mutants retained their Ku70 binding activity. Altogether, these data demonstrate that Ku80 is essential for Ku70 accumulation at DSBs. Furthermore, three domains of Ku80, i.e., the N-terminal α/β, the DNA-binding, and Ku70-binding domains, seem to necessary for the accumulation at or recognition of DSBs in the early stage after irradiation. 相似文献
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Free circulating or cell‐free DNA (cfDNA), possibly from dying cells that release their contents into the blood as they break down, have become of major interest as a source for noninvasive diagnostics. Recent work demonstrated the uptake of human cfDNA in mouse cells in vitro and in vivo, accompanied by the activation of a cellular DNA damage response (DDR) and the appearance of apoptotic proteins in the host cells. By acting as a source of mobile genetic elements, cfDNA could be a continuous source of DNA mutagenesis of healthy cells in the body throughout life, promoting progressive cellular aging in vivo. As such, cfDNA may causally contribute to multiple aging‐related diseases, such as cancer, diabetes, and Alzheimer's disease. 相似文献
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Coilin is a nuclear protein that plays a role in Cajal body formation. The function of nucleoplasmic coilin is unknown. Here we report that coilin interacts with Ku70 and Ku80, which are major players in the DNA repair process. Ku proteins compete with SMN and SmB′ proteins for coilin interaction sites. The binding domain on coilin for Ku proteins cannot be localized to one discrete region, and only full-length coilin is capable of inhibiting in vitro non-homologous DNA end joining (NHEJ). Since Ku proteins do not accumulate in CBs, these findings suggest that nucleoplasmic coilin participates in the regulation of DNA repair.
Structured summary
MINT-8052983:coilin (uniprotkb:P38432) physically interacts (MI:0915) with SmB′ (uniprotkb:P14678) by pull down (MI:0096)MINT-8052941:coilin (uniprotkb:P38432) physically interacts (MI:0915) with Ku70 (uniprotkb:P12956) by competition binding (MI:0405)MINT-8052765:coilin (uniprotkb:P38432) physically interacts (MI:0915) with Ku80 (uniprotkb:P13010) by pull down (MI:0096)MINT-8052971:coilin (uniprotkb:P38432) physically interacts (MI:0915) with SMN (uniprotkb:Q16637) by pull down (MI:0096)MINT-8052957:coilin (uniprotkb:P38432) physically interacts (MI:0915) with Ku80 (uniprotkb:P13010) by competition binding (MI:0405)MINT-8052894, MINT-8052908:coilin (uniprotkb:P38432) binds (MI:0407) to Ku80 (uniprotkb:P13010) by pull down (MI:0096)MINT-8052804:coilin (uniprotkb:P38432) physically interacts (MI:0915) with Ku80 (uniprotkb:P13010) by anti bait coimmunoprecipitation (MI:0006)MINT-8052925:coilin (uniprotkb:P38432) binds (MI:0407) to Ku70 (uniprotkb:P12956) by pull down (MI:0096)MINT-8052786:Ku80 (uniprotkb:P13010) physically interacts (MI:0914) with coilin (uniprotkb:P38432) and Ku70 (uniprotkb:P12956) by anti bait coimmunoprecipitation (MI:0006)MINT-8052776:coilin (uniprotkb:P38432) physically interacts (MI:0915) with Ku70 (uniprotkb:P12956) by pull down (MI:0096) 相似文献11.
Alana Sherker Natasha Chaudhary Salom Adam Anne Margriet Heijink Sylvie M Noordermeer Amlie Fradet&#x;Turcotte Daniel Durocher 《EMBO reports》2021,22(12)
The tumor suppressor BRCA1 accumulates at sites of DNA damage in a ubiquitin‐dependent manner. In this work, we revisit the role of RAP80 in promoting BRCA1 recruitment to damaged chromatin. We find that RAP80 acts redundantly with the BRCA1 RING domain to promote BRCA1 recruitment to DNA damage sites. We show that that RNF8 E3 ligase acts upstream of both the RAP80‐ and RING‐dependent activities, whereas RNF168 acts uniquely upstream of the RING domain. BRCA1 RING mutations that do not impact BARD1 interaction, such as the E2 binding‐deficient I26A mutation, render BRCA1 unable to accumulate at DNA damage sites in the absence of RAP80. Cells that combine BRCA1 I26A and mutations that disable the RAP80–BRCA1 interaction are hypersensitive to PARP inhibition and are unable to form RAD51 foci. Our results suggest that in the absence of RAP80, the BRCA1 E3 ligase activity is necessary for recognition of histone H2A Lys13/Lys15 ubiquitylation by BARD1, although we cannot rule out the possibility that the BRCA1 RING facilitates ubiquitylated nucleosome recognition in other ways. 相似文献
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《Molecular cell》2021,81(24):4979-4993.e7
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Matthew J. Yousefzadeh Jing Zhao Christina Bukata Erin A. Wade Sara J. McGowan Luise A. Angelini Michael P. Bank Aditi U. Gurkar Collin A. McGuckian Mariah F. Calubag Jonathan I. Kato Christin E. Burd Paul D. Robbins Laura J. Niedernhofer 《Aging cell》2020,19(3)
Senescent cells accumulate with age in vertebrates and promote aging largely through their senescence‐associated secretory phenotype (SASP). Many types of stress induce senescence, including genotoxic stress. ERCC1‐XPF is a DNA repair endonuclease required for multiple DNA repair mechanisms that protect the nuclear genome. Humans or mice with reduced expression of this enzyme age rapidly due to increased levels of spontaneous, genotoxic stress. Here, we asked whether this corresponds to an increased level of senescent cells. p16Ink4a and p21Cip1 mRNA were increased ~15‐fold in peripheral lymphocytes from 4‐ to 5‐month‐old Ercc1?/? and 2.5‐year‐old wild‐type (WT) mice, suggesting that these animals exhibit a similar biological age. p16Ink4a and p21Cip1 mRNA were elevated in 10 of 13 tissues analyzed from 4‐ to 5‐month‐old Ercc1?/? mice, indicating where endogenous DNA damage drives senescence in vivo. Aged WT mice had similar increases of p16Ink4a and p21Cip1 mRNA in the same 10 tissues as the mutant mice. Senescence‐associated β–galactosidase activity and p21Cip1 protein also were increased in tissues of the progeroid and aged mice, while Lamin B1 mRNA and protein levels were diminished. In Ercc1?/Δ mice with a p16Ink4a luciferase reporter, bioluminescence rose steadily with age, particularly in lung, thymus, and pancreas. These data illustrate where senescence occurs with natural and accelerated aging in mice and the relative extent of senescence among tissues. Interestingly, senescence was greater in male mice until the end of life. The similarities between Ercc1?/? and aged WT mice support the conclusion that the DNA repair‐deficient mice accurately model the age‐related accumulation of senescent cells, albeit six‐times faster. 相似文献
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Roles of the AtErcc1 protein in recombination 总被引:9,自引:1,他引:9
Atercc1, the recently characterized Arabidopsis homologue of the Ercc1 (Rad10) protein, is a key component of nucleotide excision repair as part of a structure-specific endonuclease which cleaves 5' to UV photoproducts in DNA. This endonuclease also acts in removing overhanging non-homologous DNA 'tails' in synapsed recombination intermediates. We have previously demonstrated this recombination function of the Arabidopsis thaliana Xpf homologue, AtRad1p, and show here that recombination between plasmid DNA substrates containing non-homologous tails is specifically reduced 12-fold in atercc1 mutant plants compared with the wild type. Furthermore, using chromosomal tandem-repeat recombination substrates, we show that AtErcc1p is required for bleomycin induction of mitotic recombination in the chromosomal context. This work thus confirms both the specific and general recombination roles of the Atercc1 protein in recombination in Arabidopsis . 相似文献
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During mitosis, the phosphatidylinositol-3 (PI-3) family-related DNA damage checkpoint kinases ATM and ATR were found on the centrosomes of human cells. ATRIP, an interaction partner of ATR, as well as Chk1 and Chk2, the downstream targets of ATR or ATM, were also localized to the centrosomes. Surprisingly, the DNA-PK inhibitor vanillin enhanced the level of ATM on centrosomes. Accordingly, DNA-PKcs, the catalytic subunit of DNA-PK, was also found on the centrosomes. Vanillin altered the phosphorylation of Chk2 in the centrosomes and in whole cell extracts. Nucleoplasmic ATM co-immunoprecipitated with Ku70/86, the DNA binding subunits of DNA-PK, while vanillin diminished this association. Vanillin did not affect microtubule polymerization at the centrosomes but, surprisingly, caused a transient enhancement of alpha-tubulin foci in the nucleus. Interestingly, gamma-tubulin was also present in the nucleus and co-immunoprecipitated with ATR or BRCA1. DNA damage led to a reduction of the mentioned checkpoint proteins on the centrosomes but increased the level of gamma-tubulin at this organelle. Taken together, these results indicate that DNA damage checkpoint proteins may control the formation of gamma-tubulin and/or the kinetics of microtubule formation at the centrosomes, and thereby couple them to the DNA damage response. 相似文献
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Aging is associated with accumulation of genomic rearrangements consistent with aberrant repair of DNA breaks. We have shown previously that DNA repair by non-homologous end joining (NHEJ) becomes less efficient and more error-prone in senescent cells. Here, we show that the levels of Ku70 and Ku80 drop approximately twofold in replicatively senescent cells. Intracellular distribution of Ku also changes. In the young cells roughly half of Ku is located in the nucleus and half in the cytoplasm. In senescent cells the nuclear levels of Ku do not change, while the cytoplasmic Ku fraction disappears. Upon treatment with gamma-irradiation, in the young cells cytoplasmic Ku moved into the nuclear and membrane fractions, while no change in the Ku distribution occurred in senescent cells. Upon treatment with UVC Ku moved out of the nucleus in the young cells, while most Ku remained nuclear in senescent cells. This suggests that the nuclear Ku in senescent cells is unable to respond to DNA damage. We hypothesize that overall decline in Ku levels changes in Ku intracellular distribution, and the loss of appropriate response of Ku to DNA damage in senescent cells contribute to the decline of NHEJ and to age-related genomic instability. 相似文献
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Repair of DNA double-strand breaks by the non-homologous end-joining pathway (NHEJ) requires a minimal set of proteins including DNA-dependent protein kinase (DNA-PK), DNA-ligase IV and XRCC4 proteins. DNA-PK comprises Ku70/Ku80 heterodimer and the kinase subunit DNA-PKcs (p460). Here, by monitoring protein assembly from human nuclear cell extracts on DNA ends in vitro, we report that recruitment to DNA ends of the XRCC4-ligase IV complex responsible for the key ligation step is strictly dependent on the assembly of both the Ku and p460 components of DNA-PK to these ends. Based on co-immunoprecipitation experiments, we conclude that interactions of Ku and p460 with components of the XRCC4-ligase IV complex are mainly DNA-dependent. In addition, under p460 kinase permissive conditions, XRCC4 is detected at DNA ends in a phosphorylated form. This phosphorylation is DNA-PK-dependent. However, phosphorylation is dispensable for XRCC4-ligase IV loading to DNA ends since stable DNA-PK/XRCC4-ligase IV/DNA complexes are recovered in the presence of the kinase inhibitor wortmannin. These findings extend the current knowledge of the assembly of NHEJ repair proteins on DNA termini and substantiate the hypothesis of a scaffolding role of DNA-PK towards other components of the NHEJ DNA repair process. 相似文献