EMC3调节与间质性肺病相关的SFTPCI73T突变的迁移和肺毒性。

Xiaofang Tang,Wei Wei,Yuqing Sun,Timothy E Weaver,Ernesto S Nakayasu,Geremy Clair,John M Snowball,Cheng-Lun Na,Karen S Apsley,Emily P Martin,Darrell N Kotton,Konstantinos-Dionysios Alysandratos,Jiuzhou Huo,Jeffery D Molkentin,William A Gower,Xinhua Lin,Jeffrey A Whitsett
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摘要

表面活性物质蛋白 C 基因(SFTPC)最常见的突变 SFTPCI73T 可导致间质性肺病,但治疗方法却很少。我们曾证实,多蛋白内质网膜复合物(EMC)的重要组成部分 EMC3 是肺泡 2 型上皮细胞(AT2)出生时表面活性物质平衡所必需的。在本研究中,我们研究了 EMC3 在控制 SFTPCI73T 代谢及其相关肺泡功能障碍中的作用。我们利用一个表型为 I73T 突变的基因敲入小鼠模型证明,在 AT2 细胞中有条件地缺失 Emc3 可挽救新生小鼠和成年小鼠的肺泡重塑/简化缺陷。蛋白质组分析表明,Emc3的缺失逆转了囊泡运输途径的破坏,并挽救了与I73T突变相关的线粒体功能障碍。亲和纯化-质谱分析确定了肺AT2细胞中潜在的与EMC3相互作用的蛋白质,包括含缬氨酸蛋白(VCP)及其相互作用体。用特异性 VCP 抑制剂 CB5083 处理 SftpcI73T 基因敲入小鼠和 SFTPCI73T 表达的 iAT2 细胞(来源于 SFTPCI73T 患者特异性 iPSCs),可分别恢复肺泡结构和 SFTPCI73T 转运。综上所述,本研究发现了 EMC 复合物和 VCP 在与疾病相关的 SFTPCI73T 突变体的新陈代谢中的作用,为 SFTPCI73T 相关的间质性肺病提供了新的治疗靶点。
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EMC3 regulates trafficking and pulmonary toxicity of the SFTPCI73T mutation associated with interstitial lung disease.
The most common mutation in surfactant protein C gene (SFTPC), SFTPCI73T, causes interstitial lung disease with few therapeutic options. We previously demonstrated that EMC3, an important component of the multiprotein endoplasmic reticulum membrane complex (EMC), is required for surfactant homeostasis in alveolar type 2 epithelial (AT2) cells at birth. In the present study, we investigated the role of EMC3 in the control of SFTPCI73T metabolism and its associated alveolar dysfunction. Using a knock-in mouse model phenocopying the I73T mutation, we demonstrated that conditional deletion of Emc3 in AT2 cells rescued alveolar remodeling/simplification defects in neonatal and adult mice. Proteomic analysis revealed that Emc3 depletion reversed the disruption of vesicle trafficking pathways and rescued the mitochondrial dysfunction associated with I73T mutation. Affinity purification-mass spectrometry analysis identified potential EMC3 interacting proteins in lung AT2 cells, including Valosin Containing Protein (VCP) and its interactors. Treatment of SftpcI73T knock-in mice and SFTPCI73T expressing iAT2 cells derived from SFTPCI73T patient-specific iPSCs with the specific VCP inhibitor CB5083 restored alveolar structure and SFTPCI73T trafficking respectively. Taken together, the present work identifies the EMC complex and VCP in the metabolism of the disease-associated SFTPCI73T mutant, providing novel therapeutical targets for SFTPCI73T-associated interstitial lung disease.
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