Jin‐Hong Shin scite author profile

Dystrophin deficiency results in lethal Duchenne muscular dystrophy (DMD). Substituting missing dystrophin with abbreviated microdystrophin has dramatically alleviated disease in mouse DMD models. Unfortunately, translation of microdystrophin therapy has been unsuccessful in dystrophic dogs, the only large mammalian model. Approximately 70% of the dystrophin-coding sequence is removed in microdystrophin. Intriguingly, loss of ≥50% dystrophin frequently results in severe disease in patients. To test whether the small gene size constitutes a fundamental design error for large mammalian muscle, we performed a comprehensive study using 22 dogs (8 normal and 14 dystrophic). We delivered the ΔR2-15/ΔR18-19/ΔR20-23/ΔC microdystrophin gene to eight extensor carpi ulnaris (ECU) muscles in six dystrophic dogs using Y713F tyrosine mutant adeno-associated virus (AAV)-9 (2.6 × 10(13) viral genome (vg) particles/muscle). Robust expression was observed 2 months later despite T-cell infiltration. Major components of the dystrophin-associated glycoprotein complex (DGC) were restored by microdystrophin. Treated muscle showed less inflammation, fibrosis, and calcification. Importantly, therapy significantly preserved muscle force under the stress of repeated cycles of eccentric contraction. Our results have established the proof-of-concept for microdystrophin therapy in dystrophic muscles of large mammals and set the stage for clinical trial in human patients.

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AAV-microdystrophin Therapy Improves Cardiac Performance in Aged Female mdx Mice

Bostick

Shin

Yue

et al. 2011

Molecular Therapy

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Dystrophin deficiency leads to lethal dilated Duchenne cardiomyopathy. A promising therapy is to deliver a highly abbreviated microdystrophin gene to the heart using adeno-associated virus (AAV). Microdystrophin has been shown to mitigate dystrophin-deficient skeletal muscle disease. However, it is not clear whether microdystrophin is equally effective in treating Duchenne cardiomyopathy. To evaluate microdystrophin therapy in the heart, we injected 5 × 10(12) viral genome particles/mouse of AAV-9 ΔR4-23/ΔC microdystrophin vector via tail vein to ~16-20-month-old (average 18.7-month-old) female mdx mice, a manifesting model of Duchenne cardiomyopathy. Cardiac transduction and heart function were examined at 2-8 months after gene transfer. We observed robust myocardial microdystrophin expression. Electrocardiography (ECG) and left ventricular catheter hemodynamic assays also revealed significant improvement. Furthermore, AAV-microdystrophin therapy prevented dobutamine-stress induced acute cardiac death. We demonstrate for the first time that AAV microdystrophin therapy significantly ameliorates functional deficiency in a phenotypic model of Duchenne cardiomyopathy. Our results support further exploration of microdystrophin therapy to treat Duchenne cardiomyopathy.

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Genetic Variants Associated with Episodic Ataxia in Korea

Choi

Kim

et al. 2017

Sci Rep

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Episodic ataxia (EA) is a rare neurological condition characterized by recurrent spells of truncal ataxia and incoordination. Five genes (KCNA1, CACNA1A, CACNB4, SLC1A3, and UBR4) have been linked to EA. Despite extensive efforts to genetically diagnose EA, many patients remain still undiagnosed. Whole-exome sequencing was carried out in 39 Korean patients with EA to identify pathogenic mutations of the five known EA genes. We also evaluated 40 candidate genes that cause EA as a secondary phenotype or cerebellar ataxia. Eighteen patients (46%) revealed genetic information useful for establishing a molecular diagnosis of EA. In 11 patients, 16 pathogenic mutations were detected in three EA genes. These included nine mutations in CACNA1A, three in SLC1A3, and four in UBR4. Three patients had mutations in two genes, either CACNA1A and SLC1A3 or CACNA1A and UBR4, suggesting that SLC1A3 and UBR4 may act as genetic modifiers with synergic effects on the abnormal presynaptic activity caused by CACNA1A mutations. In seven patients with negative results for screening of EA genes, potential pathogenic mutations were identified in the candidate genes ATP1A2, SCN1A, TTBK2, TGM6, FGF14, and KCND3. This study demonstrates the genetic heterogeneity of Korean EA, and indicates that whole-exome sequencing may be useful for molecular genetic diagnosis of EA.

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Safety and efficacy of cipaglucosidase alfa plus miglustat versus alglucosidase alfa plus placebo in late-onset Pompe disease (PROPEL): an international, randomised, double-blind, parallel-group, phase 3 trial

Schöser¹,

Roberts²,

Byrne³

et al. 2021

The Lancet Neurology

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An intronic LINE-1 element insertion in the dystrophin gene aborts dystrophin expression and results in Duchenne-like muscular dystrophy in the corgi breed

Smith

Yue

Woods³

et al. 2011

Laboratory Investigation

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Duchenne muscular dystrophy (DMD) is a dystrophin-deficient lethal muscle disease. To date, the catastrophic muscle wasting phenotype has only been seen in dystrophin-deficient humans and dogs. While Duchenne-like symptoms have been observed in more than a dozen dog breeds, the mutation is often not known and research colonies are rarely established. Here we report an independent canine DMD model originally derived from the Pembroke Welsh corgi breed. The affected dogs presented clinical signs of muscular dystrophy. Immunostaining revealed the absence of dystrophin and up-regulation of utrophin. Histopathologic examination showed variable fiber size, central nucleation, calcification, fibrosis, neutrophil and macrophage infiltration and cardiac focal vacuolar degeneration. Carrier dogs also displayed mild myopathy. The mutation was identified as a long interspersed repetitive element-1 (LINE-1) insertion in intron 13 which introduced a new exon containing an in-frame stop codon. Similar mutations have been seen in human patients. A colony was generated by crossing carrier females with normal males. Affected puppies had a normal birth weight but they experienced a striking growth delay in the first 5 days. In summary, the new corgi DMD model offers an excellent opportunity to study DMD pathogenesis and to develop novel therapies.

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Safe and bodywide muscle transduction in young adult Duchenne muscular dystrophy dogs with adeno-associated virus

Yue¹,

Pan²,

Hakim³

et al. 2015

Hum. Mol. Genet.

103

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The ultimate goal of muscular dystrophy gene therapy is to treat all muscles in the body. Global gene delivery was demonstrated in dystrophic mice more than a decade ago using adeno-associated virus (AAV). However, translation to affected large mammals has been challenging. The only reported attempt was performed in newborn Duchenne muscular dystrophy (DMD) dogs. Unfortunately, AAV injection resulted in growth delay, muscle atrophy and contracture. Here we report safe and bodywide AAV delivery in juvenile DMD dogs. Three ∼2-m-old affected dogs received intravenous injection of a tyrosine-engineered AAV-9 reporter or micro-dystrophin (μDys) vector at the doses of 1.92-6.24 × 10(14) viral genome particles/kg under transient or sustained immune suppression. DMD dogs tolerated injection well and their growth was not altered. Hematology and blood biochemistry were unremarkable. No adverse reactions were observed. Widespread muscle transduction was seen in skeletal muscle, the diaphragm and heart for at least 4 months (the end of the study). Nominal expression was detected in internal organs. Improvement in muscle histology was observed in μDys-treated dogs. In summary, systemic AAV gene transfer is safe and efficient in young adult dystrophic large mammals. This may translate to bodywide gene therapy in pediatric patients in the future.

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Phenotypic variability in Kennedy's disease: implication of the early diagnostic features

et al. 2005

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AAV micro-dystrophin gene therapy alleviates stress-induced cardiac death but not myocardial fibrosis in > 21-m-old mdx mice, an end-stage model of Duchenne muscular dystrophy cardiomyopathy

Bostick

Shin²,

Yue

et al. 2012

Journal of Molecular and Cellular Cardiology

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Duchenne muscular dystrophy (DMD) is a fatal genetic disease caused by the absence of the sarcolemmal protein dystrophin. Dilated cardiomyopathy leading to heart failure is a significant source of morbidity and mortality in DMD. We recently demonstrated amelioration of DMD heart disease in 16 to 20-m-old dystrophin-null mdx mice using adeno-associated virus (AAV) mediated micro-dystrophin gene therapy. DMD patients show severe heart disease near the end of their life expectancy. Similarly, mdx mice exhibit profoundly worsening heart disease when they reach beyond 21 months of age. To more rigorously test micro-dystrophin therapy, we treated mdx mice that were between 21.2 to 22.7-m-old (average, 22.1 ± 0.2 months; N=8). The ΔR4-23/ΔC micro-dystrophin gene was packaged in the cardiotropic AAV-9 virus. 5 × 1012 viral genome particles/mouse were delivered to mdx mice via the tail vein. AAV transduction, myocardial fibrosis and heart function were examined 1.7 ± 0.2 months after gene therapy. Efficient micro-dystrophin expression was observed in the myocardium of treated mice. Despite the robust dystrophin expression, myocardial fibrosis was not mitigated. Most hemodynamic parameters were not improved either. However, ECG abnormalities were partially corrected. Importantly, treated mice became more resistant to dobutamine-induced cardiac death. In summary, we have revealed for the first time the potential benefits and limitations of AAV micro-dystrophin therapy in end-stage Duchenne dilated cardiomyopathy. Our findings have important implications for the use of AAV gene therapy in dilated cardiomyopathy and heart failure.

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Jin‐Hong Shin

Microdystrophin Ameliorates Muscular Dystrophy in the Canine Model of Duchenne Muscular Dystrophy

AAV-microdystrophin Therapy Improves Cardiac Performance in Aged Female mdx Mice

Genetic Variants Associated with Episodic Ataxia in Korea

Safety and efficacy of cipaglucosidase alfa plus miglustat versus alglucosidase alfa plus placebo in late-onset Pompe disease (PROPEL): an international, randomised, double-blind, parallel-group, phase 3 trial

An intronic LINE-1 element insertion in the dystrophin gene aborts dystrophin expression and results in Duchenne-like muscular dystrophy in the corgi breed

Safe and bodywide muscle transduction in young adult Duchenne muscular dystrophy dogs with adeno-associated virus

Phenotypic variability in Kennedy's disease: implication of the early diagnostic features

AAV micro-dystrophin gene therapy alleviates stress-induced cardiac death but not myocardial fibrosis in > 21-m-old mdx mice, an end-stage model of Duchenne muscular dystrophy cardiomyopathy

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