"Repair Co-ordination of Radiation-Induced Clustered Damage In Mammalian Genomes"
“哺乳动物基因组中辐射诱导的聚集性损伤的修复协调”
基本信息
- 批准号:8858589
- 负责人:
- 金额:$ 33.1万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2012
- 资助国家:美国
- 起止时间:2012-03-05 至 2017-02-28
- 项目状态:已结题
- 来源:
- 关键词:ATM activationBindingBiological AssayCell Cycle CheckpointCell SurvivalCellsComet AssayComplexDNADNA LigasesDNA LigationDNA Repair PathwayDNA glycosylaseDNA-(apurinic or apyrimidinic site) lyaseDNA-Directed DNA PolymeraseDNA-PKcsDNA-dependent protein kinaseDataDiagnostic ProcedureDouble Strand Break RepairEnvironmentEnzymesExcisionG22P1 geneGenomeGenomicsGoalsHealthHeterogeneous-Nuclear Ribonucleoprotein UIn VitroIonizing radiationJointsKineticsLeadLesionLigationMammalsMapsMediatingModificationMolecularNormal CellNuclear ExtractNucleotidesPARP inhibitionPathway interactionsPharmaceutical PreparationsPhosphorylationPhosphotransferasesPlasmidsPolymeraseProcessProteinsProtocols documentationRadiationRadiation AccidentsRadiation ToleranceRadioprotectionRadioresistanceRadiosensitizationRecruitment ActivityRelative (related person)Repair ComplexReporterResourcesSignal TransductionSingle Strand Break RepairSiteTestingTherapeuticTherapeutic InterventionTissuesToxic effectTranslationsTravelXRCC1 geneXRCC4 geneXRCC5 genebasecytotoxicexperiencegenome integrityhomologous recombinationhuman APEX1 proteinimprovedin vivoinnovationirradiationmammalian genomemutantneoplastic cellnew therapeutic targetnovelnovel strategiesoxidationpreventrepairedsealsugartargeted sequencingtumor
项目摘要
DESCRIPTION (provided by applicant): Clusters of genomic damage induced by therapeutic and environmental ionizing radiation (IR)/radiomimetic drugs include double-strand breaks (DSBs) with nonligatable ends, and more abundant clusters of base/sugar oxidation products, abasic (AP) sites and single-strand breaks (SSBs). Highly cytotoxic DSBs, also formed during SSB replication, activate cell-cycle checkpoints and promote DSB repair (DSBR), which in mammalian genomes occurs via nonhomologous end joining (NHEJ) in all cells, and by error-free homologous recombination (HR) in S/G2 cells. Alternative end joining (Alt-EJ) also repairs DSBs, including those generated during the repair of bi-stranded non-DSB lesion clusters by DNA glycosylases (DGs), AP-endonuclease (APE1), and others via the BER/SSBR pathway. NHEJ-initiating Ku inhibits Alt-EJ which using microhomology- based SSBR is more error prone than NHEJ. Radiosensitivity caused by DG/APE1 deficiency and of HR negative tumors by inhibition of PARP-1-initiated SSBR indicates Alt-EJ/SSBR's significant contribution to radioresistance, which must be coordinated with NHEJ, the predominant DSBR pathway in mammals.BER prior to NHEJ would cause secondary DSBs which near preexisting DSBs would lead to larger deletions. This project's central hypothesis is that NHEJ precedes Alt-EJ/BER, coordinated by Ku (Ku70/80), which recruits DNA-PKcs at the DSB, followed by the DSB's end processing and re-ligation by DNA ligase4/XRCC4/XLF. Based on our preliminary studies showing that: (a) Ku present in DG/APE1 immunocomplexes (ICs) inhibits them; (b) the Ku IC from irradiated cells performs NHEJ of a novel linearized plasmid substrate with dirty ends, whose in-cell repair involves both NHEJ and Alt-EJ, we hypothesize that hnRNP-U, present in Ku IC only after irradiation, and phosphorylated by DNA-PK during NHEJ, relieves Ku inhibition, thus acting as a molecular switch for transition to Alt-EJ/BER which utilizes SSBR proteins and a distinct set of end-processing enzymes. We will test various facets of this comprehensive hypothesis by pursuing three aims: Aim 1. To assess the contribution of Alt-EJ to radioresistance and its requirements in repairing radiation damage using reporter plasmid assays in-cell and in vitro, in parallel with analysis of cell genome repair, and to show that Alt-EJ/BER is additive to NHEJ in radioprotection. Aim 2. To test the hypothesis that hnRNP-U and Ku together coordinate NHEJ and Alt-EJ via DNA-PK-mediated phosphorylation. Aim 3. To test the hypothesis that NHEJ and Alt-EJ/BER proteins form repair-competent, dynamic complexes modulated by radiation/enediyne drugs involving physical interaction with Ku. We will characterize the end- processing enzymes and gap-filling DNA polymerase(s) for Alt-EJ. These studies will profoundly enhance our understanding of the repair of complex radiation-induced genomic damage, and of the contribution of Alt-EJ to radioresistance of tumors, and help identify novel therapeutic targets such as Ku for simultaneous radiosensitization of tumors and radioprotection of normal cells.
描述(由申请人提供):由治疗性和环境电离辐射(IR)/模拟辐射药物引起的基因组损伤簇包括具有不可连接末端的双链断裂(DSBs),以及更丰富的碱基/糖氧化产物簇,碱性(AP)位点和单链断裂(SSBs)。高细胞毒性的DSB也在SSB复制过程中形成,激活细胞周期点并促进DSB修复(DSBR),这在哺乳动物基因组中通过所有细胞的非同源末端连接(NHEJ)和S/G2细胞的无错误同源重组(HR)发生。选择性末端连接(Alt-EJ)也修复dsb,包括DNA糖基化酶(DGs)、ap内切酶(APE1)和其他通过BER/SSBR途径修复双链非dsb病变簇时产生的dsb。NHEJ-启动Ku抑制Alt-EJ,使用基于微同源性的SSBR比NHEJ更容易出错。DG/APE1缺乏和HR阴性肿瘤通过抑制parp -1启动的SSBR引起的放射敏感性表明,Alt-EJ/SSBR对放射耐药有重要贡献,这必须与哺乳动物中主要的DSBR通路NHEJ协调。在NHEJ之前的BER会引起继发性dsb,而在先前存在的dsb附近会导致更大的缺失。本研究的中心假设是NHEJ先于Alt-EJ/BER,由Ku (Ku70/80)协调,Ku在DSB上招募DNA- pkcs,随后DSB的末端加工和DNA连接酶4/XRCC4/XLF的重新连接。我们的初步研究表明:(a)存在于DG/APE1免疫复合物(ICs)中的Ku抑制它们;(b)来自辐照细胞的Ku IC对一种具有脏端的新型线性化质粒底物进行NHEJ,其细胞内修复涉及NHEJ和Alt-EJ,我们假设hnRNP-U仅在辐照后存在于Ku IC中,并在NHEJ期间被DNA-PK磷酸化,从而减轻了Ku的抑制,从而作为过渡到Alt-EJ/BER的分子开关,该转换利用SSBR蛋白和一组独特的末端加工酶。我们将通过追求三个目标来测试这个综合假设的各个方面:目标1。利用细胞内和体外报告质粒分析,结合细胞基因组修复分析,评估Alt-EJ对辐射抗性的贡献及其在修复辐射损伤中的要求,并表明Alt-EJ/BER在辐射防护中是NHEJ的添加剂。目标2。验证hnRNP-U和Ku通过dna - pk介导的磷酸化共同协调NHEJ和Alt-EJ的假设。目标3。为了验证NHEJ和Alt-EJ/BER蛋白形成修复能力强的动态复合物的假设,该复合物由辐射/烯二炔药物调节,涉及与Ku的物理相互作用。我们将描述Alt-EJ的末端加工酶和缺口填充DNA聚合酶。这些研究将大大提高我们对复杂辐射诱导的基因组损伤修复的认识,以及Alt-EJ对肿瘤放射耐药的贡献,并有助于确定新的治疗靶点,如Ku,以同时实现肿瘤的放射增敏和正常细胞的放射保护。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Sankar Mitra其他文献
Sankar Mitra的其他文献
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{{ truncateString('Sankar Mitra', 18)}}的其他基金
Repair of Oxidative Genome Damage Associated with Gene Activation
修复与基因激活相关的氧化基因组损伤
- 批准号:
8639248 - 财政年份:2014
- 资助金额:
$ 33.1万 - 项目类别:
Repair of Oxidative Genome Damage Associated with Gene Activation
修复与基因激活相关的氧化基因组损伤
- 批准号:
8837028 - 财政年份:2014
- 资助金额:
$ 33.1万 - 项目类别:
Repair of Oxidative Genome Damage Associated with Gene Activation
修复与基因激活相关的氧化基因组损伤
- 批准号:
9207767 - 财政年份:2014
- 资助金额:
$ 33.1万 - 项目类别:
"Repair Co-ordination of Radiation-Induced Clustered Damage In Mammalian Genomes"
“哺乳动物基因组中辐射诱导的聚集性损伤的修复协调”
- 批准号:
9010941 - 财政年份:2012
- 资助金额:
$ 33.1万 - 项目类别:
"Repair Co-ordination of Radiation-Induced Clustered Damage In Mammalian Genomes"
“哺乳动物基因组中辐射诱导的聚集性损伤的修复协调”
- 批准号:
8438375 - 财政年份:2012
- 资助金额:
$ 33.1万 - 项目类别:
"Repair Co-ordination of Radiation-Induced Clustered Damage In Mammalian Genomes"
“哺乳动物基因组中辐射诱导的聚集性损伤的修复协调”
- 批准号:
8618870 - 财政年份:2012
- 资助金额:
$ 33.1万 - 项目类别:
"Repair Co-ordination of Radiation-Induced Clustered Damage In Mammalian Genomes"
“哺乳动物基因组中辐射诱导的聚集性损伤的修复协调”
- 批准号:
8752282 - 财政年份:2012
- 资助金额:
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A Novel Pathway Involving ATM, PP1 and I-2
涉及 ATM、PP1 和 I-2 的新途径
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$ 33.1万 - 项目类别:
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ATM 激酶有丝分裂激活的机制
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8234167 - 财政年份:2009
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$ 33.1万 - 项目类别:
Mechanisms of Mitotic Activation of the ATM kinase
ATM 激酶有丝分裂激活的机制
- 批准号:
8461074 - 财政年份:2009
- 资助金额:
$ 33.1万 - 项目类别:
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