DUSP3 modulates IRES-dependent translation of mRNAs through dephosphorylation of the HNRNPC protein in cells under genotoxic stimulus

IF 2.4 4区生物学 Q4 CELL BIOLOGY Biology of the Cell Pub Date : 2024-03-27 DOI:10.1111/boc.202300128

Pault Y. M. Ferruzo, Viktor K. Boell, Lilian C. Russo, Carla C. Oliveira, Fabio L. Forti

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Abstract

Background Information

The dual-specificity phosphatase 3 (DUSP3) regulates cell cycle progression, proliferation, senescence, and DNA repair pathways under genotoxic stress. This phosphatase interacts with HNRNPC protein suggesting an involvement in the regulation of HNRNPC-ribonucleoprotein complex stability. In this work, we investigate the impact of DUSP3 depletion on functions of HNRNPC aiming to suggest new roles for this enzyme.

Results

The DUSP3 knockdown results in the tyrosine hyperphosphorylation state of HNRNPC increasing its RNA binding ability. HNRNPC is present in the cytoplasm where it interacts with IRES trans-acting factors (ITAF) complex, which recruits the 40S ribosome on mRNA during protein synthesis, thus facilitating the translation of mRNAs containing IRES sequence in response to specific stimuli. In accordance with that, we found that DUSP3 is present in the 40S, monosomes and polysomes interacting with HNRNPC, just like other previously identified DUSP3 substrates/interacting partners such as PABP and NCL proteins. By downregulating DUSP3, Tyr-phosphorylated HNRNPC preferentially binds to IRES-containing mRNAs within ITAF complexes preferentially in synchronized or stressed cells, as evidenced by the higher levels of proteins such as c-MYC and XIAP, but not their mRNAs such as measured by qPCR. Under DUSP3 absence, this increased phosphorylated-HNRNPC/RNA interaction reduces HNRNPC-p53 binding in presence of RNAs releasing p53 for specialized cellular responses. Similarly, to HNRNPC, PABP physically interacts with DUSP3 in an RNA-dependent manner.

Conclusions and Significance

Overall, DUSP3 can modulate cellular responses to genotoxic stimuli at the translational level by maintaining the stability of HNRNPC-ITAF complexes and regulating the intensity and specificity of RNA interactions with RRM-domain proteins.

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在基因毒性刺激下，DUSP3通过使细胞中的HNRNPC蛋白去磷酸化来调节依赖于IRES的mRNA翻译。

背景信息双特异性磷酸酶 3（DUSP3）调节细胞周期的进展、增殖、衰老以及基因毒性应激下的 DNA 修复途径。这种磷酸酶与 HNRNPC 蛋白相互作用，表明它参与了 HNRNPC 核蛋白复合物稳定性的调控。在这项工作中，我们研究了 DUSP3 缺失对 HNRNPC 功能的影响，旨在为这种酶提出新的作用：结果：敲除 DUSP3 会导致 HNRNPC 处于酪氨酸过度磷酸化状态，从而增强其 RNA 结合能力。HNRNPC存在于细胞质中，它与IRES反式作用因子（ITAF）复合物相互作用，后者在蛋白质合成过程中将40S核糖体募集到mRNA上，从而在特定刺激下促进含有IRES序列的mRNA的翻译。据此，我们发现 DUSP3 存在于 40S、单体和多聚体中，与 HNRNPC 相互作用，就像之前发现的其他 DUSP3 底物/相互作用伙伴（如 PABP 和 NCL 蛋白）一样。通过下调 DUSP3，Tyr 磷酸化的 HNRNPC 在同步或受压细胞中会优先与 ITAF 复合物内含 IRES 的 mRNA 结合，这体现在 c-MYC 和 XIAP 等蛋白质的水平较高，但通过 qPCR 测定，它们的 mRNA 水平并不高。在 DUSP3 缺失的情况下，磷酸化-HNRNPC/RNA 相互作用的增加减少了 HNRNPC-p53 与 RNA 的结合，从而释放出 p53 用于专门的细胞反应。与 HNRNPC 类似，PABP 也以 RNA 依赖性方式与 DUSP3 发生物理相互作用：总之，DUSP3 可通过维持 HNRNPC-ITAF 复合物的稳定性以及调节 RNA 与 RRM 域蛋白相互作用的强度和特异性，在翻译水平上调节细胞对基因毒性刺激的反应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biology of the Cell 生物-细胞生物学

CiteScore

5.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The journal publishes original research articles and reviews on all aspects of cellular, molecular and structural biology, developmental biology, cell physiology and evolution. It will publish articles or reviews contributing to the understanding of the elementary biochemical and biophysical principles of live matter organization from the molecular, cellular and tissues scales and organisms. This includes contributions directed towards understanding biochemical and biophysical mechanisms, structure-function relationships with respect to basic cell and tissue functions, development, development/evolution relationship, morphogenesis, stem cell biology, cell biology of disease, plant cell biology, as well as contributions directed toward understanding integrated processes at the organelles, cell and tissue levels. Contributions using approaches such as high resolution imaging, live imaging, quantitative cell biology and integrated biology; as well as those using innovative genetic and epigenetic technologies, ex-vivo tissue engineering, cellular, tissue and integrated functional analysis, and quantitative biology and modeling to demonstrate original biological principles are encouraged.

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