From the Department of Molecular Pharmacology and Irell and Manella Graduate School of Biological Sciences, Beckman Research Institute, City of Hope, Duarte, California 91010.
From the Department of Molecular Pharmacology and.
J Biol Chem. 2014 Jul 25;289(30):20757-72. doi: 10.1074/jbc.M114.555672. Epub 2014 Jun 6.
Krüppel-associated box domain-associated protein 1 (KAP1) is a universal transcriptional corepressor that undergoes multiple posttranslational modifications (PTMs), including SUMOylation and Ser-824 phosphorylation. However, the functional interplay of KAP1 PTMs in regulating KAP1 turnover during DNA damage response remains unclear. To decipher the role and cross-talk of multiple KAP1 PTMs, we show here that DNA double strand break-induced KAP1 Ser-824 phosphorylation promoted the recruitment of small ubiquitin-like modifier (SUMO)-targeted ubiquitin E3 ligase, ring finger protein 4 (RNF4), and subsequent RNF4-mediated, SUMO-dependent degradation. Besides the SUMO interacting motif (SIM), a previously unrecognized, but evolutionarily conserved, arginine-rich motif (ARM) in RNF4 acts as a novel recognition motif for selective target recruitment. Results from combined mutagenesis and computational modeling studies suggest that RNF4 utilizes concerted bimodular recognition, namely SIM for Lys-676 SUMOylation and ARM for Ser(P)-824 of simultaneously phosphorylated and SUMOylated KAP1 (Ser(P)-824-SUMO-KAP1). Furthermore, we proved that arginines 73 and 74 within the ARM of RNF4 are required for efficient recruitment to KAP1 or accelerated degradation of promyelocytic leukemia protein (PML) under stress. In parallel, results of bimolecular fluorescence complementation assays validated the role of the ARM in recognizing Ser(P)-824 in living cells. Taken together, we establish that the ARM is required for RNF4 to efficiently target Ser(P)-824-SUMO-KAP1, conferring ubiquitin Lys-48-mediated proteasomal degradation in the context of double strand breaks. The conservation of such a motif may possibly explain the requirement for timely substrate selectivity determination among a myriad of SUMOylated proteins under stress conditions. Thus, the ARM dynamically regulates the SIM-dependent recruitment of targets to RNF4, which could be critical to dynamically fine-tune the abundance of Ser(P)-824-SUMO-KAP1 and, potentially, other SUMOylated proteins during DNA damage response.
Krüppel 相关盒域相关蛋白 1(KAP1)是一种普遍的转录核心抑制剂,它经历多种翻译后修饰(PTMs),包括 SUMO 化和 Ser-824 磷酸化。然而,KAP1 PTM 在调节 DNA 损伤反应期间 KAP1 周转率中的功能相互作用仍然不清楚。为了解密多种 KAP1 PTM 的作用和串扰,我们在这里表明,DNA 双链断裂诱导的 KAP1 Ser-824 磷酸化促进了小泛素样修饰(SUMO)靶向泛素 E3 连接酶、环指蛋白 4(RNF4)的募集,以及随后的 RNF4 介导的、SUMO 依赖性降解。除了 SUMO 相互作用基序(SIM)之外,RNF4 中以前未被识别但进化上保守的精氨酸丰富基序(ARM)作为一种新的识别基序,用于选择性靶标募集。结合突变和计算建模研究的结果表明,RNF4 利用协调的双模块识别,即 SIM 用于 Lys-676 SUMOylation 和 ARM 用于同时磷酸化和 SUMO 化的 KAP1 的 Ser(P)-824(Ser(P)-824-SUMO-KAP1)。此外,我们证明 RNF4 中的 ARM 内的精氨酸 73 和 74 对于在应激下有效募集到 KAP1 或加速早幼粒细胞白血病蛋白(PML)的降解是必需的。平行地,双分子荧光互补测定的结果验证了 ARM 在活细胞中识别 Ser(P)-824 的作用。总之,我们确定 ARM 对于 RNF4 有效地靶向 Ser(P)-824-SUMO-KAP1 是必需的,赋予双链断裂情况下泛素 Lys-48 介导的蛋白酶体降解。这种基序的保守性可能解释了在应激条件下,众多 SUMO 化蛋白中及时确定底物选择性的必要性。因此,ARM 动态调节 RNF4 对靶标的 SIM 依赖性募集,这对于在 DNA 损伤反应期间动态微调 Ser(P)-824-SUMO-KAP1 和潜在的其他 SUMO 化蛋白的丰度可能是至关重要的。
