Immortalized human myotonic dystrophy muscle cell lines to assess therapeutic compounds.

Arandel Ludovic,De Dea Diniz Damily,Rau Frédérique,Deleuze Jean-Francois,Klein F Arnaud,Puymirat Jack,Battail Christophe,Matloka Magdalena,Boland Anne,Naouar Naïra,Mouly Vincent,Tarnopolsky Mark,Polay-Espinosa Micaela,Jollet Arnaud,Bazinet Audrey,Furling Denis,Edom-Vovard Frédérique,Mamchaoui Kamel

doi:10.1242/dmm.027367

Abstract

ABSTRACTMyotonic dystrophy type 1 (DM1) and type 2 (DM2) are autosomal dominant neuromuscular diseases caused by microsatellite expansions and belong to the family of RNA-dominant disorders. Availability of cellular models in which the DM mutation is expressed within its natural context is essential to facilitate efforts to identify new therapeutic compounds. Here, we generated immortalized DM1 and DM2 human muscle cell lines that display nuclear RNA aggregates of expanded repeats, a hallmark of myotonic dystrophy. Selected clones of DM1 and DM2 immortalized myoblasts behave as parental primary myoblasts with a reduced fusion capacity of immortalized DM1 myoblasts when compared with control and DM2 cells. Alternative splicing defects were observed in differentiated DM1 muscle cell lines, but not in DM2 lines. Splicing alterations did not result from differentiation delay because similar changes were found in immortalized DM1 transdifferentiated fibroblasts in which myogenic differentiation has been forced by overexpression of MYOD1. As a proof-of-concept, we show that antisense approaches alleviate disease-associated defects, and an RNA-seq analysis confirmed that the vast majority of mis-spliced events in immortalized DM1 muscle cells were affected by antisense treatment, with half of them significantly rescued in treated DM1 cells. Immortalized DM1 muscle cell lines displaying characteristic disease-associated molecular features such as nuclear RNA aggregates and splicing defects can be used as robust readouts for the screening of therapeutic compounds. Therefore, immortalized DM1 and DM2 muscle cell lines represent new models and tools to investigate molecular pathophysiological mechanisms and evaluate the in vitro effects of compounds on RNA toxicity associated with myotonic dystrophy mutations.

Highlights

Myotonic dystrophy (DM) including both type 1 and type 2 forms is one of the most prevalent muscular dystrophies in adults
Generation of immortalized human DM muscle cell lines To establish DM myoblast cell lines, primary muscle cell cultures obtained from muscle biopsies of DM patients carrying either a DM1 mutation with 2600 CTG or a DM2 mutation with 4000 CCTG were selected
We investigated whether the molecular hallmarks of DM such as nuclear RNA aggregates and alternative splicing misregulation were found in these muscle cell lines

Summary

Introduction

Myotonic dystrophy (DM) including both type 1 and type 2 forms is one of the most prevalent muscular dystrophies in adults. The type 2 form (DM2) is due to a large CCTG expansion that can reach up to 11,000 repeats in the first intron of the CNBP gene (Liquori et al, 2001). Both DM forms share similar clinical features; differences exist such as age of onset or pattern of muscle wasting that affects predominantly distal muscles in DM1 and proximal muscles in DM2 (Day and Ranum, 2005). Clinical symptoms are milder in DM2 than in DM1 and, in contrast to DM1, there is no congenital form in DM2

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