DNM2 lipid binding drives centronuclear myopathy and represents a potential therapeutic target
Raquel Gómez-Oca, Xènia Massana-Muñoz, David Reiss, Juliana De Carvalho Neves, Nadege Diedhiou, Roberto Silva-Rojas, Belinda S. Cowling, Marie Goret, Jocelyn Laporte
Raquel Gómez-Oca, Xènia Massana-Muñoz, David Reiss, Juliana De Carvalho Neves, Nadege Diedhiou, Roberto Silva-Rojas, Belinda S. Cowling, Marie Goret, Jocelyn Laporte
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Research Article Genetics Muscle biology

DNM2 lipid binding drives centronuclear myopathy and represents a potential therapeutic target

Abstract

Centronuclear myopathies (CNMs) are rare congenital disorders characterized by muscle weakness, fiber hypotrophy, and organelle mislocalization. Most cases arise from mutations in MTM1 or DNM2, encoding myotubularin and dynamin-2, respectively. DNM2 is a GTPase that binds lipids, oligomerizes around membranes, and mediates fission. We previously showed that DNM2 levels are elevated in MTM1-CNM patients and Mtm1–/y mice, and that normalizing DNM2 rescues disease phenotypes. However, the specific DNM2 functions driving pathology remain unclear. Here, we expressed AAV-delivered WT and DNM2 mutants in WT and Mtm1–/y mouse muscles to disrupt specific DNM2 molecular functions. In WT mice, overexpression of WT DNM2 and most mutants induced CNM-like phenotypes, including reduced force, fiber hypotrophy, and centralized nuclei, consistent with gain-of-function mechanisms. The lipid-binding-defective mutant K562E did not induce disease-like phenotype. In Mtm1–/y mice, K562E mutant markedly improved muscle force, mass, and fiber size, while others failed to rescue. Therefore, we generated Mtm1–/y Dnm2K562E/+ mice, which showed full rescue of survival, motor function, and muscle force, with improved muscle mass, fiber size, and organelle positioning despite persistently elevated DNM2 levels. This study reveals that DNM2 lipid binding, not protein abundance or GTPase activity, drives pathology, and represents the most rational therapeutic target for DNM2 therapy in MTM1-CNM.

Authors

Raquel Gómez-Oca, Xènia Massana-Muñoz, David Reiss, Juliana De Carvalho Neves, Nadege Diedhiou, Roberto Silva-Rojas, Belinda S. Cowling, Marie Goret, Jocelyn Laporte

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Figure 7

Systemic expression of the CMT neuropathy mutant K562 improves muscle atrophy and CNM histopathology in Mtm1–/y Dnm2K562E/+ mice.

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Systemic expression of the CMT neuropathy mutant K562 improves muscle at...
(A) TA mass normalized to body mass at 8 weeks (6 ≤ n ≤ 14). (B) Distribution of TA fibers based on their MinFeret diameter (5 ≤ n ≤ 8). (C) Proportion of small fibers (MinFeret < 35 μm) in TA sections (5 ≤ n ≤ 8). (D) TA transversal sections stained with H&E and SDH. White arrows indicate mislocalization. Scale bars: 50 μm. (E) Percentage of myofibers with mislocalized nuclei (5 ≤ n ≤ 7). (F) Percentage of myofibers with abnormal SDH oxidative activity (5 ≤ n ≤ 8). Each dot represents 1 mouse. Values are shown as mean ± SD; *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001. (A) One-way ANOVA. (E) Brown-Forsythe ANOVA. (C and F) Kruskal-Wallis test.