Cellular and molecular alterations to muscles and neuromuscular synapses in Megf10-related myopathy
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ABSTRACT: Loss-of-function mutations in MEGF10 lead to a rare and understudied neuromuscular disorder known as MEGF10-related myopathy. There are no treatments for the progressive respiratory distress, motor impairment, and structural abnormalities in muscles caused by the loss of MEGF10 function. In this study, we asked whether mice lacking MEGF10 (MEGF10 KO) could be used as a model to generate preclinical insights to treat MEGF10-related myopathy. We deployed cellular and molecular assays to examine juvenile, young adult, and middle-aged Megf10 constitutive knockout (KO) mice. We found fewer muscle fibers in developing and adult Megf10 KO mice, supporting published studies that MEGF10 regulates myogenesis by affecting satellite cell differentiation. Interestingly, muscle fibers do not exhibit morphological hallmarks of atrophy in either young adult or middle-aged Megf10 KO mice. We next examined the neuromuscular junction (NMJ), in which MEGF10 has been shown to concentrate postnatally, using light and electron microscopy. We found early and progressive degenerative features at the NMJs of Megf10 KO mice. These include increased postsynaptic fragmentation, axon terminals failing to completely appose the postsynaptic region and perisynaptic Schwann cells intruding into the NMJ synaptic cleft. These findings strongly suggest that the NMJ is a site of postnatal pathology in MEGF10-related myopathy. We next sought to identify molecular mechanisms altered in muscles lacking Megf10 using RNA-seq. We discovered genes and pathways associated with myogenesis, skeletal muscle health, and NMJ stability dysregulated in Megf10 KO mice compared to wild-type mice. Altogether, these data support using MEGF10 KO mice to discover and test potential treatments for MEGF10-related myopathy.
ORGANISM(S): Mus musculus
PROVIDER: GSE256199 | GEO | 2024/02/20
REPOSITORIES: GEO
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