Proietti-De-Santis Luca, Drané Pascal, Egly Jean-Marc
Institut de Génétique et de Biologie Moléculaire et Cellulaire, CNRS/INSERM, Illkirch, CU Strasbourg, France.
EMBO J. 2006 May 3;25(9):1915-23. doi: 10.1038/sj.emboj.7601071. Epub 2006 Apr 6.
The phenotype of the human genetic disorder Cockayne syndrome (CS) is not only due to DNA repair defect but also (and perhaps essentially) to a severe transcription initiation defect. After UV irradiation, even undamaged genes are not transcribed in CSB cells. Indeed, neither RNA pol II nor the associated basal transcription factors are recruited to the promoters of the housekeeping genes, around of which histone H4 acetylation is also deficient. Transfection of CSB restores the recruitment process of RNA pol II. On the contrary, the p53-responsive genes do not require CSB and are transcribed in both wild-type and CSB cells upon DNA damage. Altogether, our data highlight the pivotal role of CSB in initiating the transcriptional program of certain genes after UV irradiation, and also may explain some of the complex traits of CS patients.
人类遗传性疾病科凯恩综合征(CS)的表型不仅归因于DNA修复缺陷,还(或许本质上)归因于严重的转录起始缺陷。紫外线照射后,即使是未受损的基因在CSB细胞中也无法转录。实际上,RNA聚合酶II和相关的基础转录因子都不会被招募到管家基因的启动子区域,其周围的组蛋白H4乙酰化也存在缺陷。转染CSB可恢复RNA聚合酶II的招募过程。相反,p53反应性基因不需要CSB,并且在DNA损伤后野生型细胞和CSB细胞中均可转录。总之,我们的数据突出了CSB在紫外线照射后启动某些基因转录程序中的关键作用,也可能解释了CS患者的一些复杂特征。