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Spd1 积累会导致基因组不稳定,这与核糖核苷酸还原酶活性无关,但当脱氧核苷酸池升高时,Spd1 可发挥作用保护基因组。

Spd1 accumulation causes genome instability independently of ribonucleotide reductase activity but functions to protect the genome when deoxynucleotide pools are elevated.

机构信息

Cell Cycle and Genome Stability Group, Department of Biology, University of Copenhagen, Ole Maaløes Vej 5, 2200 Copenhagen N, Denmark.

出版信息

J Cell Sci. 2013 Nov 1;126(Pt 21):4985-94. doi: 10.1242/jcs.132837. Epub 2013 Aug 28.

DOI:10.1242/jcs.132837
PMID:23986475
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3820243/
Abstract

Cullin4, Ddb1 and Cdt2 are core subunits of the ubiquitin ligase complex CRL4(Cdt2), which controls genome stability by targeting Spd1 for degradation during DNA replication and repair in fission yeast. Spd1 has an inhibitory effect on ribonucleotide reductase (RNR), the activity of which is required for deoxynucleotide (dNTP) synthesis. The failure to degrade Spd1 in mutants where CRL4(Cdt2) is defective leads to DNA integrity checkpoint activation and dependency. This correlates with a lower dNTP pool. Pools are restored in a spd1-deleted background and this also suppresses checkpoint activation and dependency. We hypothesized that fission yeast with RNR hyperactivity would display a mutator phenotype on their own, but also possibly repress aspects of the phenotype associated with the inability to target Spd1 for degradation. Here, we report that a mutation in the R1 subunit of ribonucleotide reductase cdc22 (cdc22-D57N), which alleviated allosteric feedback inhibition, caused a highly elevated dNTP pool that was further increased by deleting spd1. The Δspd1 cdc22-D57N double mutant had elevated mutation rates and was sensitive to damaging agents that cause DNA strand breaks, demonstrating that Spd1 can protect the genome when dNTP pools are high. In ddb1-deleted cells, cdc22-D57N also potently elevated RNR activity, but failed to allow cell growth independently of the intact checkpoint. Our results provide evidence that excess Spd1 interferes with other functions in addition to its inhibitory effect on ribonucleotide reduction to generate replication stress and genome instability.

摘要

Cullin4、Ddb1 和 Cdt2 是泛素连接酶复合物 CRL4(Cdt2)的核心亚基,该复合物通过在裂殖酵母的 DNA 复制和修复过程中靶向 Spd1 进行降解,从而控制基因组稳定性。Spd1 对核糖核苷酸还原酶 (RNR) 具有抑制作用,而 RNR 的活性是脱氧核苷酸 (dNTP) 合成所必需的。在 CRL4(Cdt2)有缺陷的突变体中,Spd1 无法降解,导致 DNA 完整性检查点激活和依赖性。这与 dNTP 池较低有关。在 spd1 缺失的背景下,池被恢复,这也抑制了检查点的激活和依赖性。我们假设,RNR 超活性的裂殖酵母本身会表现出突变体表型,但也可能抑制与无法靶向 Spd1 进行降解相关的表型的某些方面。在这里,我们报告说,核糖核苷酸还原酶 cdc22(cdc22-D57N)的 R1 亚基的突变,缓解了变构反馈抑制,导致 dNTP 池显著升高,而 spd1 的缺失进一步增加了 dNTP 池。Δspd1 cdc22-D57N 双突变体具有较高的突变率,并且对导致 DNA 链断裂的损伤剂敏感,这表明当 dNTP 池较高时,Spd1 可以保护基因组。在 ddb1 缺失的细胞中,cdc22-D57N 也能强烈增加 RNR 活性,但在不完整的检查点的情况下,无法独立地允许细胞生长。我们的结果提供了证据,表明除了抑制核糖核苷酸还原以产生复制应激和基因组不稳定性之外,过量的 Spd1 还会干扰其除抑制核糖核苷酸还原以外的其他功能。

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