Muscular dystrophies are debilitating disorders that result in progressive weakness and degeneration of skeletal muscle. Although the genetic mutations and clinical abnormalities of a variety of neuromuscular diseases are well known, no curative therapies have been developed to date. The advent of genome editing technology provides new opportunities to correct the underlying mutations responsible for many monogenic neuromuscular diseases. For example, Duchenne muscular dystrophy, which is caused by mutations in the dystrophin gene, has been successfully corrected in mice, dogs, and human cells through CRISPR/Cas9 editing. In this Review, we focus on the potential for, and challenges of, correcting muscular dystrophies by editing disease-causing mutations at the genomic level. Ideally, because muscle tissues are extremely long-lived, CRISPR technology could offer a one-time treatment for muscular dystrophies by correcting the culprit genomic mutations and enabling normal expression of the repaired gene.

Chemello F., Bassel-Duby R., Olson E.N. (2020). Correction of muscular dystrophies by CRISPR gene editing. THE JOURNAL OF CLINICAL INVESTIGATION, 130(6), 2766-2776 [10.1172/JCI136873].

Correction of muscular dystrophies by CRISPR gene editing

Chemello F.
Primo
;
2020

Abstract

Muscular dystrophies are debilitating disorders that result in progressive weakness and degeneration of skeletal muscle. Although the genetic mutations and clinical abnormalities of a variety of neuromuscular diseases are well known, no curative therapies have been developed to date. The advent of genome editing technology provides new opportunities to correct the underlying mutations responsible for many monogenic neuromuscular diseases. For example, Duchenne muscular dystrophy, which is caused by mutations in the dystrophin gene, has been successfully corrected in mice, dogs, and human cells through CRISPR/Cas9 editing. In this Review, we focus on the potential for, and challenges of, correcting muscular dystrophies by editing disease-causing mutations at the genomic level. Ideally, because muscle tissues are extremely long-lived, CRISPR technology could offer a one-time treatment for muscular dystrophies by correcting the culprit genomic mutations and enabling normal expression of the repaired gene.
2020
Chemello F., Bassel-Duby R., Olson E.N. (2020). Correction of muscular dystrophies by CRISPR gene editing. THE JOURNAL OF CLINICAL INVESTIGATION, 130(6), 2766-2776 [10.1172/JCI136873].
Chemello F.; Bassel-Duby R.; Olson E.N.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/956189
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