Animal models of Duchenne muscular dystrophy: From basic mechanisms to gene therapy
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TLDR
The field has reached the stage at which the results in mdx mice can be validated and scaled-up in symptomatic large animals, and the canine DMD (cDMD) model will be excellent for these studies.Abstract:
Duchenne muscular dystrophy (DMD) is a progressive muscle-wasting disorder. It is caused by loss-of-function mutations in the dystrophin gene. Currently, there is no cure. A highly promising therapeutic strategy is to replace or repair the defective dystrophin gene by gene therapy. Numerous animal models of DMD have been developed over the last 30 years, ranging from invertebrate to large mammalian models. mdx mice are the most commonly employed models in DMD research and have been used to lay the groundwork for DMD gene therapy. After ~30 years of development, the field has reached the stage at which the results in mdx mice can be validated and scaled-up in symptomatic large animals. The canine DMD (cDMD) model will be excellent for these studies. In this article, we review the animal models for DMD, the pros and cons of each model system, and the history and progress of preclinical DMD gene therapy research in the animal models. We also discuss the current and emerging challenges in this field and ways to address these challenges using animal models, in particular cDMD dogs.read more
Citations
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TL;DR: The nearly 30 years of research partly outlined here exemplifies the road that similar current gene discovery protocols will be expected to travel, albeit much more rapidly owing to improved diagnosis of genetic disorders and an understanding of the spectrum of mutations thought to cause them.
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Dystrophin–glycoprotein complex sequesters Yap to inhibit cardiomyocyte proliferation
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References
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Journal ArticleDOI
Dystrophin: The protein product of the duchenne muscular dystrophy locus
TL;DR: The identification of the mdx mouse as an animal model for DMD has important implications with regard to the etiology of the lethal DMD phenotype, and the protein dystrophin is named because of its identification via the isolation of the Duchenne muscular dystrophy locus.
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Regulation of skeletal muscle mass in mice by a new TGF-beta superfamily member.
TL;DR: Results suggest that GDF-8 functions specifically as a negative regulator of skeletal muscle growth, which is significantly larger than wild-type animals and show a large and widespread increase in skeletal muscle mass.
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Complete cloning of the Duchenne muscular dystrophy (DMD) cDNA and preliminary genomic organization of the DMD gene in normal and affected individuals.
TL;DR: The 14 kb human Duchenne muscular dystrophy cDNA corresponding to a complete representation of the fetal skeletal muscle transcript has been cloned and the majority of deletions are concentrated in a single genomic segment corresponding to only 2 kb of the transcript.
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X chromosome-linked muscular dystrophy (mdx) in the mouse.
TL;DR: Linkage analysis with four X chromosome loci indicates that mdx maps in the Hq Bpa region of the mouse X chromosome, which gives a gene order of mdx-Tfm-Pgk-1-Ags, the same as for the equivalent genes on the human X chromosome.
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Novel adeno-associated viruses from rhesus monkeys as vectors for human gene therapy
TL;DR: Vectors based on AAV7 and AAV8 should be considered for human gene therapy because of low reactivity to antibodies directed to human AAVs and because gene transfer efficiency in muscle was similar to that obtained with the best known serotype, whereas, in liver, gene transfer was substantially higher than previously described.