State Key Laboratory of Agrobiotechnology and MOA Key Laboratory of Soil Microbiology, College of Biological Sciences, China Agricultural University, Beijing, 100193, China.
Department of Physiology, The University of Texas Southwestern Medical Center, Dallas, Texas, 75390, USA.
Environ Microbiol. 2020 Jan;22(1):76-90. doi: 10.1111/1462-2920.14821. Epub 2019 Oct 21.
Clearance and adaptation to reactive oxygen species (ROS) are crucial for cell survival. As in other eukaryotes, the Neurospora catalases are the main enzymes responsible for ROS clearance and their expression are tightly regulated by the growth and environmental conditions. The RNA polymerase II carboxyl terminal domain (RNAPII CTD) kinase complex (CTK complex) is known as a positive elongation factor for many inducible genes by releasing paused RNAPII near the transcription start site and promoting transcription elongation. However, here we show that deletion of CTK complex components in Neurospora led to high CAT-3 expression level and resistance to H O -induced ROS stress. The catalytic activity of CTK-1 is required for such a response. On the other hand, CTK-1 overexpression led to decreased expression of CAT-3. ChIP assays shows that CTK-1 phosphorylates the RNAPII CTD at Ser2 residues in the cat-3 ORF region during transcription elongation and deletion of CTK-1 led to dramatic decreases of SET-2 recruitment and H3K36me3 modification. As a result, histones at the cat-3 locus become hyperacetylated to promote its transcription. Together, these results demonstrate that the CTK complex is negative regulator of cat-3 expression by affecting its chromatin structure.
清除和适应活性氧(ROS)对细胞存活至关重要。与其他真核生物一样,Neurospora 的过氧化氢酶是主要负责清除 ROS 的酶,其表达受到生长和环境条件的严格调控。RNA 聚合酶 II 羧基末端结构域(RNAPII CTD)激酶复合物(CTK 复合物)是许多诱导基因的正延伸因子,通过在转录起始位点附近释放暂停的 RNAPII 并促进转录延伸来实现。然而,在这里我们表明,Neurospora 中 CTK 复合物成分的缺失导致 CAT-3 表达水平升高,并对 H O 诱导的 ROS 应激产生抗性。CTK-1 的催化活性对于这种反应是必需的。另一方面,CTK-1 的过表达导致 CAT-3 的表达降低。ChIP 分析表明,CTK-1 在转录延伸过程中磷酸化 CAT-3 ORF 区域的 RNAPII CTD 的 Ser2 残基,而 CTK-1 的缺失导致 SET-2 募集和 H3K36me3 修饰的急剧减少。结果,组蛋白在 cat-3 基因座上变得过度乙酰化,从而促进其转录。总之,这些结果表明 CTK 复合物通过影响其染色质结构成为 cat-3 表达的负调控因子。