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HDAC6 Inhibition Corrects Electrophysiological and Axonal Transport Deficits in a Human Stem Cell‐Based Model of Charcot‐Marie‐Tooth Disease (Type 2D)

Alec S.T. Smith, Jong Hyun Kim, Changho Chun, Ava Gharai, Hyo Won Moon, Eun Young Kim, Soo Hyun Nam, Nina Ha, Ju Young Song, Ki Wha Chung, Hyun Myung Doo, Jennifer Hesson, Julie Mathieu, Mark Bothwell, Byung‐Ok Choi, Deok‐Ho Kim

2021Advanced Biology24 citationsDOIOpen Access PDF

Abstract

Abstract Charcot‐Marie‐Tooth disease type 2D (CMT2D), is a hereditary peripheral neuropathy caused by mutations in the gene encoding glycyl‐tRNA synthetase ( GARS1 ). Here, human induced pluripotent stem cell (hiPSC)‐based models of CMT2D bearing mutations in GARS1 and their use for the identification of predictive biomarkers amenable to therapeutic efficacy screening is described. Cultures containing spinal cord motor neurons generated from this line exhibit network activity marked by significant deficiencies in spontaneous action potential firing and burst fire behavior. This result matches clinical data collected from a patient bearing a GARS1 P724H mutation and is coupled with significant decreases in acetylated α‐tubulin levels and mitochondrial movement within axons. Treatment with histone deacetylase 6 inhibitors, tubastatin A and CKD504, improves mitochondrial movement and α‐tubulin acetylation in these cells. Furthermore, CKD504 treatment enhances population‐level electrophysiological activity, highlighting its potential as an effective treatment for CMT2D.

Topics & Concepts

HDAC6Induced pluripotent stem cellElectrophysiologyBiologyCompound muscle action potentialStem cellAcetylationMutationNeuroscienceCell biologyHistone deacetylaseHistoneGeneticsGeneEmbryonic stem cellSignaling Pathways in DiseaseHereditary Neurological DisordersNeurogenetic and Muscular Disorders Research
HDAC6 Inhibition Corrects Electrophysiological and Axonal Transport Deficits in a Human Stem Cell‐Based Model of Charcot‐Marie‐Tooth Disease (Type 2D) | Litcius