Department of Biochemistry, University of Colorado, Boulder, Colorado 80303, USA.
Department of Molecular, Cellular, and Developmental Biology, University of Colorado, Boulder, Colorado 80309, USA.
Genes Dev. 2020 Nov 1;34(21-22):1452-1473. doi: 10.1101/gad.341545.120. Epub 2020 Oct 15.
CDK7 associates with the 10-subunit TFIIH complex and regulates transcription by phosphorylating the C-terminal domain (CTD) of RNA polymerase II (RNAPII). Few additional CDK7 substrates are known. Here, using the covalent inhibitor SY-351 and quantitative phosphoproteomics, we identified CDK7 kinase substrates in human cells. Among hundreds of high-confidence targets, the vast majority are unique to CDK7 (i.e., distinct from other transcription-associated kinases), with a subset that suggest novel cellular functions. Transcription-associated factors were predominant CDK7 substrates, including SF3B1, U2AF2, and other splicing components. Accordingly, widespread and diverse splicing defects, such as alternative exon inclusion and intron retention, were characterized in CDK7-inhibited cells. Combined with biochemical assays, we establish that CDK7 directly activates other transcription-associated kinases CDK9, CDK12, and CDK13, invoking a "master regulator" role in transcription. We further demonstrate that TFIIH restricts CDK7 kinase function to the RNAPII CTD, whereas other substrates (e.g., SPT5 and SF3B1) are phosphorylated by the three-subunit CDK-activating kinase (CAK; CCNH, MAT1, and CDK7). These results suggest new models for CDK7 function in transcription and implicate CAK dissociation from TFIIH as essential for kinase activation. This straightforward regulatory strategy ensures CDK7 activation is spatially and temporally linked to transcription, and may apply toward other transcription-associated kinases.
CDK7 与 10 亚基 TFIIH 复合物结合,并通过磷酸化 RNA 聚合酶 II(RNAPII)的 C 端结构域(CTD)来调节转录。已知的 CDK7 底物较少。在这里,我们使用共价抑制剂 SY-351 和定量磷酸蛋白质组学,在人细胞中鉴定了 CDK7 激酶底物。在数百个高可信度的靶标中,绝大多数是 CDK7 特有的(即与其他转录相关激酶不同),其中一部分提示了新的细胞功能。转录相关因子是 CDK7 的主要底物,包括 SF3B1、U2AF2 和其他剪接成分。因此,在 CDK7 抑制的细胞中,广泛存在和多样化的剪接缺陷,如选择性外显子包含和内含子保留,被描述出来。结合生化测定,我们确定 CDK7 直接激活其他转录相关激酶 CDK9、CDK12 和 CDK13,在转录中发挥“主调控器”的作用。我们进一步证明 TFIIH 将 CDK7 激酶功能限制在 RNAPII CTD 上,而其他底物(如 SPT5 和 SF3B1)则由三亚基 CDK 激活激酶(CAK;CCNH、MAT1 和 CDK7)磷酸化。这些结果为 CDK7 在转录中的功能提出了新的模型,并暗示 CAK 从 TFIIH 解离对于激酶激活至关重要。这种简单的调控策略确保了 CDK7 的激活与转录在空间和时间上相关联,并且可能适用于其他转录相关激酶。
