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Exon-skipping advances for Duchenne muscular dystrophy
Author(s) -
Lucía Echevarría,
Philippine Aupy,
Aurélie Goyenvalle
Publication year - 2018
Publication title -
human molecular genetics
Language(s) - Uncategorized
Resource type - Journals
SCImago Journal Rank - 2.811
H-Index - 276
eISSN - 1460-2083
pISSN - 0964-6906
DOI - 10.1093/hmg/ddy171
Subject(s) - exon skipping , duchenne muscular dystrophy , dystrophin , biology , antisense therapy , exon , bioinformatics , computational biology , muscular dystrophy , genome editing , drug discovery , genetics , oligonucleotide , crispr , gene , alternative splicing , locked nucleic acid
Duchenne muscular dystrophy (DMD) is a fatal genetic disorder characterized by progressive muscle wasting that has currently no cure. Exon-skipping strategy represents one of the most promising therapeutic approaches that aim to restore expression of a shorter but functional dystrophin protein. The antisense field has remarkably progress over the last years with recent accelerated approval of the first antisense oligonucleotide-based therapy for DMD, Exondys 51, though the therapeutic benefit remains to be proved in patients. Despite clinical advances, the poor effective delivery to target all muscle remains the main hurdle for antisense drug therapy. This review describes the antisense-based exon-skipping approach for DMD, from proof-of-concept to first marketed drug. We discuss the main obstacles to achieve a successful exon-skipping therapy and the latest advances of the international community to develop more powerful chemistries and more sophisticated delivery systems in order to increase potency, bioavailability and safety. Finally, we highlight the importance of collaborative efforts and early dialogue between drug developers and regulatory agencies in order to overcome difficulties, find appropriate outcome markers and collect useful data.

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