紫外线照射的人类细胞中复制动力学的检查点调控

Checkpoint regulation of replication dynamics in UV-irradiated human cells.

作者信息

Chastain Paul D, Heffernan Timothy P, Nevis Kathleen R, Lin Li, Kaufmann William K, Kaufman David G, Cordeiro-Stone Marila

机构信息

Department of Pathology and Laboratory Medicine, University of North Carolina School of Medicine, Chapel Hill, North Carolina 27599-7525 USA.

出版信息

Cell Cycle. 2006 Sep;5(18):2160-7. doi: 10.4161/cc.5.18.3236. Epub 2006 Sep 15.

DOI:10.4161/cc.5.18.3236

PMID:16969085

Abstract

At any moment during S phase, regions of genomic DNA are in various stages of replication (i.e., initiation, chain elongation, and termination). These stages may be differentially inhibited after treatment with various carcinogens that damage DNA such as UV. We used visualization of active replication units in combed DNA fibers, in combination with quantitative analyses of the size distributions of nascent DNA, to evaluate the role of S-checkpoint proteins in UV-induced inhibition of DNA replication. When HeLa cells were exposed to a low fluence (1 J/m(2)) of 254 nm UV light (UVC), new initiation events were severely inhibited (5-6-fold reduction). A larger fluence of UVC (10 J/m(2)) resulted in stronger inhibition of the overall rate of DNA synthesis without decreasing further the frequency of replicon initiation events. Incubation of HeLa cells with caffeine and knockdown of ATR or Chk1 kinases reversed the UVC-induced inhibition of initiation of new replicons. These findings illustrate the concordance of data derived from different experimental approaches, thus strengthening the evidence that the activation of the intra-S checkpoint by UVC is dependent on the ATR and Chk1 kinases.

摘要

在S期的任何时刻，基因组DNA区域都处于复制的不同阶段（即起始、链延伸和终止）。在用各种损伤DNA的致癌物（如紫外线）处理后，这些阶段可能会受到不同程度的抑制。我们利用梳理后的DNA纤维中活性复制单元的可视化，结合新生DNA大小分布的定量分析，来评估S期检查点蛋白在紫外线诱导的DNA复制抑制中的作用。当HeLa细胞暴露于低通量（1 J/m²）的254 nm紫外线（UVC）时，新的起始事件受到严重抑制（降低5 - 6倍）。更大通量的UVC（10 J/m²）导致DNA合成总体速率受到更强抑制，但并未进一步降低复制子起始事件的频率。用咖啡因孵育HeLa细胞以及敲低ATR或Chk1激酶可逆转UVC诱导的新复制子起始抑制。这些发现说明了来自不同实验方法的数据的一致性，从而强化了UVC激活S期内检查点依赖于ATR和Chk1激酶的证据。

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紫外线照射的人类细胞中复制动力学的检查点调控

Checkpoint regulation of replication dynamics in UV-irradiated human cells.

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