Elexacaftor/VX-445介导的CFTR相互作用组重塑揭示了由突变特异性翻译动力学驱动的差异校正。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105242
Minsoo Kim, Eli Fritz McDonald, Carleen Mae P Sabusap, Bibek Timalsina, Disha Joshi, Jeong S Hong, Andras Rab, Eric J Sorscher, Lars Plate
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引用次数: 0

摘要

囊性纤维化(CF)是最常见的致命遗传疾病之一,囊性纤维化跨膜传导调节因子(CFTR)基因有2000多个突变。药理学伴侣,如鲁马卡福(VX-809)、替扎卡夫(VX-661)和伊莱卡夫(VX-445),通过稳定CFTR来治疗突变诱导的缺陷,被称为纠正剂。这些校正器改善了适当的折叠,从而促进了加工和运输,以增加细胞表面上功能性CFTR的量。然而,CFTR变体对每个校正器显示出不同的反应。在这里,我们报道了变体P67L和L206W对VX-809的反应类似,但对VX-445的反应不同,当用VX-445治疗时,P67L表现出很少的挽救作用。我们研究了这些变体中的校正因子如何改变CFTR生物发生的潜在细胞机制。亲和纯化质谱与同量序串联质谱标签复用用于量化变体P67L和L206W之间的CFTR蛋白质-蛋白质相互作用变化。VX-445以CFTR变体依赖的方式促进独特的蛋白稳定因子相互作用,特别是在翻译、折叠和降解途径中。许多被siRNA敲除的相互作用蛋白,如核糖体亚基蛋白,适度挽救了完全糖基化的P67L。重要的是,这些敲除使P67L对VX-445敏感,并进一步增强了该变体的贩运校正。蛋白质翻译的部分抑制也使P67L-CFTR对VX-445校正轻度敏感,支持翻译动力学在VX-445的拯救机制中的作用。我们的结果提供了对VX-445生物学作用机制的更好理解,并揭示了可能使无反应的CFTR变体对已知和可用的校正剂敏感的细胞靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Elexacaftor/VX-445-mediated CFTR interactome remodeling reveals differential correction driven by mutation-specific translational dynamics.

Elexacaftor/VX-445-mediated CFTR interactome remodeling reveals differential correction driven by mutation-specific translational dynamics.

Elexacaftor/VX-445-mediated CFTR interactome remodeling reveals differential correction driven by mutation-specific translational dynamics.

Elexacaftor/VX-445-mediated CFTR interactome remodeling reveals differential correction driven by mutation-specific translational dynamics.

Cystic fibrosis (CF) is one of the most prevalent lethal genetic diseases with over 2000 identified mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. Pharmacological chaperones such as lumacaftor (VX-809), tezacaftor (VX-661), and elexacaftor (VX-445) treat mutation-induced defects by stabilizing CFTR and are called correctors. These correctors improve proper folding and thus facilitate processing and trafficking to increase the amount of functional CFTR on the cell surface. Yet, CFTR variants display differential responses to each corrector. Here, we report that variants P67L and L206W respond similarly to VX-809 but divergently to VX-445 with P67L exhibiting little rescue when treated with VX-445. We investigate the underlying cellular mechanisms of how CFTR biogenesis is altered by correctors in these variants. Affinity purification-mass spectrometry multiplexed with isobaric tandem mass tags was used to quantify CFTR protein-protein interaction changes between variants P67L and L206W. VX-445 facilitates unique proteostasis factor interactions especially in translation, folding, and degradation pathways in a CFTR variant-dependent manner. A number of these interacting proteins knocked down by siRNA, such as ribosomal subunit proteins, moderately rescued fully glycosylated P67L. Importantly, these knockdowns sensitize P67L to VX-445 and further enhance the trafficking correction of this variant. Partial inhibition of protein translation also mildly sensitizes P67L CFTR to VX-445 correction, supporting a role for translational dynamics in the rescue mechanism of VX-445. Our results provide a better understanding of VX-445 biological mechanism of action and reveal cellular targets that may sensitize nonresponsive CFTR variants to known and available correctors.

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