Mechanism-based Rescue of Munc18-1 Dysfunction in Varied Encephalopathies by Chemical Chaperones

Overview

Journal Nat Commun

Specialty Biology

Date 2018 Sep 30

PMID 30266908

Citations 43

Authors

Noah Guy Lewis Guiberson

Andre Pineda

Debra Abramov

Parinati Kharel

Kathryn E Carnazza

Rachel T Wragg

Jeremy S Dittman

Jacqueline Burre

Affiliations

Soon will be listed here.

Abstract

Heterozygous de novo mutations in the neuronal protein Munc18-1 are linked to epilepsies, intellectual disability, movement disorders, and neurodegeneration. These devastating diseases have a poor prognosis and no known cure, due to lack of understanding of the underlying disease mechanism. To determine how mutations in Munc18-1 cause disease, we use newly generated S. cerevisiae strains, C. elegans models, and conditional Munc18-1 knockout mouse neurons expressing wild-type or mutant Munc18-1, as well as in vitro studies. We find that at least five disease-linked missense mutations of Munc18-1 result in destabilization and aggregation of the mutant protein. Aggregates of mutant Munc18-1 incorporate wild-type Munc18-1, depleting functional Munc18-1 levels beyond hemizygous levels. We demonstrate that the three chemical chaperones 4-phenylbutyrate, sorbitol, and trehalose reverse the deficits caused by mutations in Munc18-1 in vitro and in vivo in multiple models, offering a novel strategy for the treatment of varied encephalopathies.

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