Dynamin-2 reduction rescues the skeletal myopathy of a SPEG-deficient mouse model
Qifei Li, Jasmine Lin, Jeffrey J. Widrick, Shiyu Luo, Gu Li, Yuanfan Zhang, Jocelyn Laporte, Mark A. Perrella, Xiaoli Liu, Pankaj B. Agrawal
Qifei Li, Jasmine Lin, Jeffrey J. Widrick, Shiyu Luo, Gu Li, Yuanfan Zhang, Jocelyn Laporte, Mark A. Perrella, Xiaoli Liu, Pankaj B. Agrawal
View: Text | PDF
Research Article Muscle biology Therapeutics

Dynamin-2 reduction rescues the skeletal myopathy of a SPEG-deficient mouse model

Abstract

Striated preferentially expressed protein kinase (SPEG), a myosin light chain kinase, is mutated in centronuclear myopathy (CNM) and/or dilated cardiomyopathy. No precise therapies are available for this disorder, and gene replacement therapy is not a feasible option due to the large size of SPEG. We evaluated the potential of dynamin-2 (DNM2) reduction as a potential therapeutic strategy because it has been shown to revert muscle phenotypes in mouse models of CNM caused by MTM1, DNM2, and BIN1 mutations. We determined that SPEG-β interacted with DNM2, and SPEG deficiency caused an increase in DNM2 levels. The DNM2 reduction strategy in Speg-KO mice was associated with an increase in life span, body weight, and motor performance. Additionally, it normalized the distribution of triadic proteins, triad ultrastructure, and triad number and restored phosphatidylinositol-3-phosphate levels in SPEG-deficient skeletal muscles. Although DNM2 reduction rescued the myopathy phenotype, it did not improve cardiac dysfunction, indicating a differential tissue-specific function. Combining DNM2 reduction with other strategies may be needed to target both the cardiac and skeletal defects associated with SPEG deficiency. DNM2 reduction should be explored as a therapeutic strategy against other genetic myopathies (and dystrophies) associated with a high level of DNM2.

Authors

Qifei Li, Jasmine Lin, Jeffrey J. Widrick, Shiyu Luo, Gu Li, Yuanfan Zhang, Jocelyn Laporte, Mark A. Perrella, Xiaoli Liu, Pankaj B. Agrawal

×

Figure 1

DNM2 expression and distribution in skeletal muscle from Speg-KO and WT mice.

Options: View larger image (or click on image) Download as PowerPoint
DNM2 expression and distribution in skeletal muscle from Speg-KO and WT ...
(A) SPEG-β and DNM2 coimmunoprecipitated from differentiated C2C12 myotube lysates with the use of rabbit anti-SPEG generated against a FLAG-tagged aortic preferentially expressed gene-1 fusion protein and anti-DNM2 antibodies. (B) Western blot analysis for DNM2 protein in Speg-KO skeletal muscles. Left panel shows representative image of DNM2 protein in Speg-KO versus WT quadriceps. Tubulin is used as a loading control. Right panel represents quantification of DNM2 expression relative to the expression of tubulin. Speg-KO mice demonstrated an average of 1.7-fold increase in DNM2 expression over WT in quadriceps and gastrocnemius muscles (**P ˂ 0.01, n = 7 per group; unpaired 2-tailed t test). (C) Immunostaining for DNM2 protein in tibialis anterior (TA) muscle from Speg-KO and WT mice (over 100 fibers were analyzed from each group, n = 3 per group). Speg-KO mice displayed an abnormal DNM2 accumulation (denoted by asterisks). Scale bars: 100 μm.