Pharmacoproteomics Pinpoints HSP70 Interaction for Correction of the Most Frequent Wilson Disease-causing Mutant of ATP7B

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2020 Dec 8

PMID 33288711

Citations 7

Authors

Mafalda Concilli

Raffaella Petruzzelli

Silvia Parisi

Federico Catalano

Francesco Sirci

Francesco Napolitano

Mario Renda

Luis J V Galietta

Diego di Bernardo

Roman S Polishchuk

Affiliations

Soon will be listed here.

Abstract

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.

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