Abstract
Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease that shows progressive muscle weakness. A few treatments exist including symptomatic therapies, which can prolong survival or reduce a symptom; however, no fundamental therapies have been found. As a therapeutic strategy, enhancing muscle force is important for patients’ quality of life. In this study, we focused on skeletal muscle-specific myosin regulatory light chain kinase (skMLCK), which potentially enhances muscle contraction, as overexpression of skMLCK was thought to improve muscle function. The adeno-associated virus serotype 6 encoding skMLCK (AAV6/skMLCK) and eGFP (control) was produced and injected intramuscularly into the lower limbs of SOD1G37R mice, which are a familial ALS model. AAV6/skMLCK showed the successful expression of skMLCK in the muscle tissues. Although the control did not affect the muscle force in both of the WT and SOD1G37R mice, AAV6/skMLCK enhanced the twitch force of SOD1G37R mice and the tetanic force of WT and SOD1G37R mice. These results indicate that overexpression of skMLCK can enhance the tetanic force of healthy muscle as well as rescue weakened muscle function. In conclusion, the gene transfer of skMLCK has the potential to be a new therapy for ALS as well as for other neuromuscular diseases.
Highlights
This study aims to investigate whether the skeletal muscle-type MLCK (skMLCK) gene transfer into the skeletal muscles of the SOD1G93A mice via AAV vector can improve muscle function
AAV9 vector containing laminin subunit alpha 1 (LAMA1) gene showed the recovery of muscle function in a mouse model of congenital muscular dystrophy type 1A (MDCA1A), which is caused by the LAMA2 gene mutation [26], probably due to the compensatory effect of LAMA1 for LAMA2 defect
Mice were demonstrated to be enhanced by the gene transfer of skMLCK. These results suggested that the increased regulatory light chains (RLC) phosphorylation may improve the tetanic force as well as the twitch force in the affected muscles due to Amyotrophic lateral sclerosis (ALS), which was consistent with the previous studies [18,21,22], and gene therapy with the AAV6-skMLCK vector could improve the affected muscle function of patients with various muscular diseases by enhancing the force development
Summary
The mutations in the Cu/Zn superoxide dismutase 1 (SOD1) gene are the most studied [6,7], with the frequency of SOD1 mutations reported to be from 12% to 23% and from 0% to 7% in patients with fALS and sALS, respectively [6]. A few treatments exist, including symptomatic therapies that can prolong survival or reduce a symptom [15], these cannot sufficiently rescue ALS patients from severe motor deficits and fatal paralysis. Despite such treatments, most patients die due to respiratory failure within 3–5 years of disease onset [1,2].
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