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AAV1.NT-3 gene therapy for X-linked Charcot–Marie–Tooth neuropathy type 1

Burçak Özeş, Morgan Myers, Kyle Moss, Jennifer L. McKinney, Alicia Ridgley, Lei Chen, Shasha Bai, Charles K. Abrams, Mona M. Freidin, Jerry R. Mendell, Zarife Sahenk

2021Gene Therapy40 citationsDOIOpen Access PDF

Abstract

Abstract X-linked Charcot-Marie-Tooth neuropathy (CMTX) is caused by mutations in the gene encoding Gap Junction Protein Beta-1 (GJB1)/Connexin32 (Cx32) in Schwann cells. Neurotrophin-3 (NT-3) is an important autocrine factor supporting Schwann cell survival and differentiation and stimulating axon regeneration and myelination. Improvements in these parameters have been shown previously in a CMT1 model, Trembler J mouse, with NT-3 gene transfer therapy. For this study, scAAV1.tMCK.NT-3 was delivered to the gastrocnemius muscle of 3-month-old Cx32 knockout (KO) mice. Measurable levels of NT-3 were found in the serum at 6-month post gene delivery. The outcome measures included functional, electrophysiological and histological assessments. At 9-months of age, NT-3 treated mice showed no functional decline with normalized compound muscle action potential amplitudes. Myelin thickness and nerve conduction velocity significantly improved compared with untreated cohort. A normalization toward age-matched wildtype histopathological parameters included increased number of Schmidt-Lanterman incisures, and muscle fiber diameter. Collectively, these findings suggest a translational application to CMTX1.

Topics & Concepts

Nerve conduction velocityBiologySchwann cellAxonPeripheral myelin protein 22MyelinEndocrinologyInternal medicineCompound muscle action potentialSciatic nerveNeurotrophin-3Genetic enhancementPathologyAnatomyNeuroscienceElectrophysiologyGeneticsMedicineNeurotrophic factorsGeneBrain-derived neurotrophic factorCentral nervous systemReceptorHereditary Neurological DisordersBotulinum Toxin and Related Neurological DisordersNerve injury and regeneration