Cell Signaling Unit, Departament de Ciències Experimentals i de la Salut, Universitat Pompeu Fabra, Barcelona E-08003, Spain.
Nature. 2013 Jan 3;493(7430):116-9. doi: 10.1038/nature11675. Epub 2012 Nov 25.
Upon environmental changes or extracellular signals, cells are subjected to marked changes in gene expression. Dealing with high levels of transcription during replication is critical to prevent collisions between the transcription and replication pathways and avoid recombination events. In response to osmostress, hundreds of stress-responsive genes are rapidly induced by the stress-activated protein kinase (SAPK) Hog1 (ref. 6), even during S phase. Here we show in Saccharomyces cerevisae that a single signalling molecule, Hog1, coordinates both replication and transcription upon osmostress. Hog1 interacts with and phosphorylates Mrc1, a component of the replication complex. Phosphorylation occurs at different sites to those targeted by Mec1 upon DNA damage. Mrc1 phosphorylation by Hog1 delays early and late origin firing by preventing Cdc45 loading, as well as slowing down replication-complex progression. Regulation of Mrc1 by Hog1 is completely independent of Mec1 and Rad53. Cells carrying a non-phosphorylatable allele of MRC1 (mrc1(3A)) do not delay replication upon stress and show a marked increase in transcription-associated recombination, genomic instability and Rad52 foci. In contrast, mrc1(3A) induces Rad53 and survival in the presence of hydroxyurea or methyl methanesulphonate. Therefore, Hog1 and Mrc1 define a novel S-phase checkpoint independent of the DNA-damage checkpoint that permits eukaryotic cells to prevent conflicts between DNA replication and transcription, which would otherwise lead to genomic instability when both phenomena are temporally coincident.
在环境变化或细胞外信号的作用下,细胞的基因表达会发生显著变化。在复制过程中应对高水平转录对于防止转录和复制途径之间的碰撞以及避免重组事件至关重要。在应对渗透压胁迫时,数百个应激响应基因被应激激活蛋白激酶(SAPK) Hog1(参考文献 6)迅速诱导,即使在 S 期也是如此。在这里,我们在酿酒酵母中表明,单个信号分子 Hog1 在渗透压胁迫下协调复制和转录。Hog1 与复制复合物的组成部分 Mrc1 相互作用并磷酸化。磷酸化发生的位点与 Mec1 在 DNA 损伤时靶向的位点不同。Hog1 对 Mrc1 的磷酸化通过阻止 Cdc45 加载以及减缓复制复合物的进展,延迟早期和晚期起始原点的启动。Hog1 对 Mrc1 的调控完全独立于 Mec1 和 Rad53。携带非磷酸化 MRC1 等位基因(mrc1(3A))的细胞在应激时不会延迟复制,并且转录相关重组、基因组不稳定性和 Rad52 焦点明显增加。相比之下,mrc1(3A) 在羟脲或甲磺酸甲酯存在的情况下诱导 Rad53 和存活。因此,Hog1 和 Mrc1 定义了一种新型的 S 期检查点,该检查点独立于 DNA 损伤检查点,使真核细胞能够防止 DNA 复制和转录之间的冲突,否则当这两种现象同时发生时,会导致基因组不稳定。
