Remyelination Protects Neurons from DLK-mediated Neurodegeneration

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Oct 24

PMID 39443516

Authors

Greg J Duncan

Sam D Ingram

Katie Emberley

Jo Hill

Christian Cordano

Ahmed Abdelhak

Michael McCane

Jennifer E Jenks

Nora Jabassini

Kirtana Ananth

Skylar J Ferrara

Brittany Stedelin

Benjamin Sivyer

Sue A Aicher

Thomas S Scanlan

Trent A Watkins

Anusha Mishra

Jonathan W Nelson

Ari J Green

Ben Emery

Affiliations

Soon will be listed here.

Abstract

Chronic demyelination and oligodendrocyte loss deprive neurons of crucial support. It is the degeneration of neurons and their connections that drives progressive disability in demyelinating disease. However, whether chronic demyelination triggers neurodegeneration and how it may do so remain unclear. We characterize two genetic mouse models of inducible demyelination, one distinguished by effective remyelination and the other by remyelination failure and chronic demyelination. While both demyelinating lines feature axonal damage, mice with blocked remyelination have elevated neuronal apoptosis and altered microglial inflammation, whereas mice with efficient remyelination do not feature neuronal apoptosis and have improved functional recovery. Remyelination incapable mice show increased activation of kinases downstream of dual leucine zipper kinase (DLK) and phosphorylation of c-Jun in neuronal nuclei. Pharmacological inhibition or genetic disruption of DLK block c-Jun phosphorylation and the apoptosis of demyelinated neurons. Together, we demonstrate that remyelination is associated with neuroprotection and identify DLK inhibition as protective strategy for chronically demyelinated neurons.

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