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PrimPol 缺陷细胞在紫外线损伤后表现出明显的 G2 期检查点反应。

PrimPol-deficient cells exhibit a pronounced G2 checkpoint response following UV damage.

作者信息

Bailey Laura J, Bianchi Julie, Hégarat Nadia, Hochegger Helfrid, Doherty Aidan J

机构信息

a Genome Damage and Stability Centre, School of Life Sciences, University of Sussex , Brighton , UK.

b Present address: Department of Oncology-Pathology, Cancer Center Karolinska, Karolinska Institutet , Stockholm , Sweden.

出版信息

Cell Cycle. 2016;15(7):908-18. doi: 10.1080/15384101.2015.1128597. Epub 2015 Dec 22.

DOI:10.1080/15384101.2015.1128597
PMID:26694751
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4889237/
Abstract

PrimPol is a recently identified member of the archaeo-eukaryote primase (AEP) family of primase-polymerases. It has been shown that this mitochondrial and nuclear localized enzyme plays roles in the maintenance of both unperturbed replication fork progression and in the bypass of lesions after DNA damage. Here, we utilized an avian (DT40) knockout cell line to further study the consequences of loss of PrimPol (PrimPol(-/-)) on the downstream maintenance of cells after UV damage. We report that PrimPol(-/-) cells are more sensitive to UV-C irradiation in colony survival assays than Pol η-deficient cells. Although this increased UV sensitivity is not evident in cell viability assays, we show that this discrepancy is due to an enhanced checkpoint arrest after UV-C damage in the absence of PrimPol. PrimPol(-/-) arrested cells become stalled in G2, where they are protected from UV-induced cell death. Despite lacking an enzyme required for the bypass and maintenance of replication fork progression in the presence of UV damage, we show that PrimPol(-/-) cells actually have an advantage in the presence of a Chk1 inhibitor due to their slow progression through S-phase.

摘要

PrimPol是最近发现的古菌-真核生物引发酶(AEP)家族中引发酶-聚合酶的成员。研究表明,这种定位于线粒体和细胞核的酶在维持正常复制叉进展以及DNA损伤后绕过损伤位点的过程中发挥作用。在此,我们利用一种禽类(DT40)基因敲除细胞系,进一步研究PrimPol缺失(PrimPol(-/-))对紫外线损伤后细胞下游维持的影响。我们报告称,在集落存活试验中,PrimPol(-/-)细胞对紫外线C照射比缺乏Pol η的细胞更敏感。尽管在细胞活力试验中这种紫外线敏感性增加并不明显,但我们表明这种差异是由于在没有PrimPol的情况下,紫外线C损伤后检查点阻滞增强所致。PrimPol(-/-)阻滞的细胞停滞在G2期,在此阶段它们受到保护,免受紫外线诱导的细胞死亡。尽管在紫外线损伤存在的情况下缺乏复制叉进展绕过和维持所需的酶,但我们表明PrimPol(-/-)细胞在存在Chk1抑制剂的情况下实际上具有优势,因为它们通过S期的进程缓慢。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/40be/4889237/3e91d5c4bc2c/kccy-15-07-1128597-g001.jpg

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