WWP2 deletion aggravates acute kidney injury by targeting CDC20/autophagy axis.

Ran You, Yanwei Li, Yuteng Jiang, Dandan Hu, Menglei Gu, Wei Zhou, Shengnan Zhang, Mi Bai, Yunwen Yang, Yue Zhang, Songming Huang, Zhanjun Jia, Aihua Zhang
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Abstract

Introduction: Acute kidney injury (AKI) is associated with high morbidity and mortality rates. The molecular mechanisms underlying AKI are currently being extensively investigated. WWP2 is an E3 ligase that regulates cell proliferation and differentiation. Whether WWP2 plays a regulatory role in AKI remains to be elucidated.

Objectives: We aimed to investigate the implication of WWP2 in AKI and its underlying mechanism in the present study.

Methods: We utilized renal tissues from patients with AKI and established AKI models in global or tubule-specific knockout (cKO) mice strains to study WWP2's implication in AKI. We also systemically analyzed ubiquitylation omics and proteomics to decipher the underlying mechanism.

Results: In the present study, we found that WWP2 expression significantly increased in the tubules of kidneys with AKI. Global or tubule-specific knockout of WWP2 significantly aggravated renal dysfunction and tubular injury in AKI kidneys, whereas WWP2 overexpression significantly protected tubular epithelial cells against cisplatin. WWP2 deficiency profoundly affected autophagy in AKI kidneys. Further analysis with ubiquitylation omics, quantitative proteomics and experimental validation suggested that WWP2 mediated poly-ubiquitylation of CDC20, a negative regulator of autophagy. CDC20 was significantly decreased in AKI kidneys, and selective inhibiting CDC20 with apcin profoundly alleviated renal dysfunction and tubular injury in the cisplatin model with or without WWP2 cKO, indicating that CDC20 may serve as a downstream target of WWP2 in AKI. Inhibiting autophagy with 3-methyladenine blocked apcin's protection against cisplatin-induced renal tubular cell injury. Activating autophagy by rapamycin significantly protected against cisplatin-induced AKI in WWP2 cKO mice, whereas inhibiting autophagy by 3-methyladenine further aggravated apoptosis in cisplatin-exposed WWP2 KO cells.

Conclusion: Taken together, our data indicated that the WWP2/CDC20/autophagy may be an essential intrinsic protective mechanism against AKI. Further activating WWP2 or inhibiting CDC20 may be novel therapeutic strategies for AKI.

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WWP2缺失通过靶向CDC20/自噬轴加重急性肾损伤
导言:急性肾损伤(AKI)与高发病率和高死亡率有关。目前,有关急性肾损伤的分子机制正在进行广泛研究。WWP2 是一种调节细胞增殖和分化的 E3 连接酶。WWP2 是否在 AKI 中发挥调控作用仍有待阐明:本研究旨在探讨 WWP2 在 AKI 中的作用及其内在机制:方法:我们利用AKI患者的肾脏组织以及在全基因敲除或肾小管特异性基因敲除(cKO)小鼠品系中建立的AKI模型来研究WWP2在AKI中的作用。我们还系统分析了泛素化omics和蛋白质组学,以破译其潜在机制:结果:在本研究中,我们发现 WWP2 在 AKI 肾小管中的表达明显增加。WWP2的全基因敲除或肾小管特异性敲除明显加重了AKI肾脏的肾功能障碍和肾小管损伤,而WWP2的过表达则明显保护肾小管上皮细胞免受顺铂的伤害。WWP2 缺乏会严重影响 AKI 肾脏的自噬。泛素泛素化全息、定量蛋白质组学和实验验证的进一步分析表明,WWP2介导了自噬负调控因子CDC20的多泛素化。在有或没有 WWP2 cKO 的顺铂模型中,CDC20 在 AKI 肾脏中明显减少,而用 apcin 选择性抑制 CDC20 能显著缓解肾功能障碍和肾小管损伤,这表明 CDC20 可能是 WWP2 在 AKI 中的下游靶点。用3-甲基腺嘌呤抑制自噬会阻断apcin对顺铂诱导的肾小管细胞损伤的保护作用。雷帕霉素激活自噬可显著保护 WWP2 cKO 小鼠免受顺铂诱导的 AKI,而 3-甲基腺嘌呤抑制自噬会进一步加剧顺铂暴露的 WWP2 KO 细胞的凋亡:综上所述,我们的数据表明,WWP2/CDC20/自噬可能是抗 AKI 的一个重要内在保护机制。进一步激活 WWP2 或抑制 CDC20 可能是治疗 AKI 的新策略。
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