Myotubularin controls desmin intermediate filament architecture and mitochondrial dynamics in human and mouse skeletal muscle
Karim Hnia, … , Jean Louis Mandel, Jocelyn Laporte
Karim Hnia, … , Jean Louis Mandel, Jocelyn Laporte
Published December 6, 2010
Citation Information: J Clin Invest. 2011;121(1):70-85. https://doi.org/10.1172/JCI44021.
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Research Article Muscle biology Article has an altmetric score of 7

Myotubularin controls desmin intermediate filament architecture and mitochondrial dynamics in human and mouse skeletal muscle

Abstract

Muscle contraction relies on a highly organized intracellular network of membrane organelles and cytoskeleton proteins. Among the latter are the intermediate filaments (IFs), a large family of proteins mutated in more than 30 human diseases. For example, mutations in the DES gene, which encodes the IF desmin, lead to desmin-related myopathy and cardiomyopathy. Here, we demonstrate that myotubularin (MTM1), which is mutated in individuals with X-linked centronuclear myopathy (XLCNM; also known as myotubular myopathy), is a desmin-binding protein and provide evidence for direct regulation of desmin by MTM1 in vitro and in vivo. XLCNM-causing mutations in MTM1 disrupted the MTM1-desmin complex, resulting in abnormal IF assembly and architecture in muscle cells and both mouse and human skeletal muscles. Adeno-associated virus–mediated ectopic expression of WT MTM1 in Mtm1-KO muscle reestablished normal desmin expression and localization. In addition, decreased MTM1 expression and XLCNM-causing mutations induced abnormal mitochondrial positioning, shape, dynamics, and function. We therefore conclude that MTM1 is a major regulator of both the desmin cytoskeleton and mitochondria homeostasis, specifically in skeletal muscle. Defects in IF stabilization and mitochondrial dynamics appear as common physiopathological features of centronuclear myopathies and desmin-related myopathies.

Authors

Karim Hnia, Helene Tronchère, Kinga K. Tomczak, Leonela Amoasii, Patrick Schultz, Alan H. Beggs, Bernard Payrastre, Jean Louis Mandel, Jocelyn Laporte

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Figure 7

MTM1 has a role in mitochondrial dynamics in muscle cells.

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MTM1 has a role in mitochondrial dynamics in muscle cells. (A) Effect of...
(A) Effect of MTM1 mutations on mitochondrial morphology in C2C12 cells. Single cells are outlined. Scale bar: 10 μm. (B) Quantitation of mitochondrial phenotypes observed as normal or collapsed. More than 100 cells per transfection were counted for 2 independent experiments. Nontransfected (NT) cells served as a control. *P ≤ 0.05. (C) Confocal microscopy images after MitoTracker Red staining showed accumulation/collapse of mitochondria at the perinuclear region in Mtm1-KO and -KD myoblasts. Scale bar: 20 μm. Also shown is quantitation of mitochondrial phenotypes observed over 2 independent experiments, as well as position of mitochondria with respect to nuclei (0 μm) in control and Mtm1-KD C2C12 cells. *P ≤ 0.05. (D) Overexpression of MTM1-WT, but not MTM1-S209A, in Mtm1-KD cells restored mitochondrial morphology. Single cells are outlined (original magnification, ×63). Boxed regions are shown at higher magnification at right (scale bar: 10 μm). (E) Ultrastructural observations of Mtm1-KD cells by electron microscopy revealed the presence of swollen mitochondria (arrowheads). Boxed regions are shown at higher magnification below (original magnification, ×20,000). Scale bars: 1 μm.