Telethon Institute of Genetics and Medicine, Pozzuoli, Naples 80078, Italy.
Department of Molecular Medicine and Medical Biotechnology, University of Naples Federico II, Naples 80131, Italy.
Proc Natl Acad Sci U S A. 2020 Dec 22;117(51):32453-32463. doi: 10.1073/pnas.2006648117. Epub 2020 Dec 7.
Pathogenic mutations in the copper transporter have been hypothesized to affect its protein interaction landscape contributing to loss of function and, thereby, to hepatic copper toxicosis in Wilson disease. Although targeting mutant interactomes was proposed as a therapeutic strategy, druggable interactors for rescue of ATP7B mutants remain elusive. Using proteomics, we found that the frequent H1069Q substitution promotes ATP7B interaction with HSP70, thus accelerating endoplasmic reticulum (ER) degradation of the mutant protein and consequent copper accumulation in hepatic cells. This prompted us to use an HSP70 inhibitor as bait in a bioinformatics search for structurally similar Food and Drug Administration-approved drugs. Among the hits, domperidone emerged as an effective corrector that recovered trafficking and function of ATP7B-H1069Q by impairing its exposure to the HSP70 proteostatic network. Our findings suggest that HSP70-mediated degradation can be safely targeted with domperidone to rescue ER-retained ATP7B mutants and, hence, to counter the onset of Wilson disease.
铜转运蛋白的致病突变被假设会影响其蛋白相互作用谱,导致功能丧失,从而导致威尔逊病中的肝铜毒性。尽管靶向突变相互作用组被提议作为一种治疗策略,但仍难以找到可用于挽救 ATP7B 突变体的药物靶标。使用蛋白质组学,我们发现频繁的 H1069Q 取代促进了 ATP7B 与 HSP70 的相互作用,从而加速了突变蛋白的内质网 (ER) 降解,导致肝细胞内铜的积累。这促使我们使用 HSP70 抑制剂作为诱饵,在生物信息学中搜索结构相似的美国食品和药物管理局批准的药物。在这些命中药物中,多潘立酮作为一种有效的校正剂脱颖而出,通过抑制其暴露于 HSP70 蛋白稳态网络,恢复了 ATP7B-H1069Q 的运输和功能。我们的研究结果表明,可以安全地用多潘立酮靶向 HSP70 介导的降解,以挽救 ER 滞留的 ATP7B 突变体,从而阻止威尔逊病的发生。