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

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

doi:10.1172/jci44021

Cited by 127 publications

(147 citation statements)

References 45 publications

(51 reference statements)

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“…Moreover, PIKfyve depletion mimicked the peripheral accumulation of TfR-endosomes, although less prominently than the loss of MTM1, while exocytosis was not affected (Figure 26a-c). Thus, we conclude that exit from endosomes en route to late endosomes/ lysosomes functions as a save guard in MTM1-depleted cells to avoid accumulation of early endosomal PI(3)P. Despite the fact that PI(3,5)P 2 could be an additional substrate for MTM1 3-phosphatase activity in vitro (Cao, Backer et al 2008;Hnia, Tronchere et al 2011), lowering endosomal PI(3,5)P 2 levels by co-depletion of PIKfyve did not affect phenotypic changes observed upon loss of MTM1. Thus, endosomal defects caused by loss of MTM1 are primarily due to elevated PI(3)P, but not PI(3,5)P 2 levels.…”

Section: Pi(3)p Levels Can Be Manipulated By Genetic and Pharmacologimentioning

confidence: 80%

“…Taken together, these data indicates that balancing PI(3)P-level is essential for endomembranes traffic. (Hnia, Tronchere et al 2011). Although the primary and most striking phenotype of MTM1-loss-of-function affects muscle fibers, patients with a milder form of XLCNM carrying MTM1 missense mutations develop additional symptoms such as liver dysfunction (Herman, Finegold et al 1999).…”

Section: Mtm1 Regulates Endosomal Pi(3)p Turnover and Membrane Dynamicsmentioning

confidence: 99%

“…In addition to these defects (see Figure 40, (1)), the pathophysiology of XLCNM patients include: (2) mitochondrial redistribution and dysfunction; (3) defects in myofibrillar force generation; (4) atrophy; and (5) defects in autophagy induction and autophagic flux ( Figure 40) (Ravenscroft, Laing et al 2015 (Hnia, Tronchere et al 2011). …”

Section: Common Features Of Mtm1 Deficiency Cause Xlcnm Pathologiesmentioning

confidence: 99%

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A phosphoinositide conversion mechanism for exit from endosomes

Ketel¹,

Krauß²,

Nicot³

et al. 2016

Nature

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I owe special thanks to Marnix Wieffer and Michael Krauß, who spent a lot of time helping me to get started in the lab, to overcome numerous experimental problem, I was not sure how to deal with, and frequently joined in discussions about my project with excellent advice. I am really grateful for your experimental support, Michael, and the time you invested in the project during our paper revision.Further, I would like to thank Jocelyn Laporte and his group, especially Anne-Sophie Nicot, at the IGBMC in Strasbourg for their support and a very fruitful collaboration, and Carsten Schultz and his group at the EMBL in Heidelberg for their support and constant supply with PIP/AMs. I owe special thanks to Dmytro Puchkov for the ultrastructural analysis and Eberhard Krause for mass spectrometry done within this project. I also need to acknowledge Markus Wenk and Federico Torta at the Singapore Lipidomics Incubator for joining the project at a very late stage, when we urgently needed help from lipidomics specialists. It was a pity that experiments did not work out as planned.I would further like to express my gratitude to two very skilled technicians in the AG Haucke lab: Silke Zillmann and Delia Löwe. Without your help it would have been impossible to achieve so much within the limited amount of time I had during the paper revision. by VPS34-IN1 treatment................................................... 52 2.3.11 Fluorescence microscopy................................................................................. 53 2.3.12 Flow cytometry............................................................................................ III SummaryPhosphoinositides (PIs) are a minor class of short-lived phospholipids that serve as crucial signposts of membrane identity. Thereby, PIs full fill important functions in cell signaling and membrane transport. PI 4-phosphates such as phosphatitylinositol-4-phosphate (PI(4)P) and phosphatitylinositol-4,5-bisphosphate (PI(4,5)P 2 ) are enriched at the plasma membrane (PM), on secretory organelles and lysosomes, while PI 3-phosphates, i.e.phosphatitylinositol-3-phosphate (PI(3)P), are a hallmark of the endosomal system.Directional transport between these compartments, thus, requires regulated PI conversion.However, PI conversion in exit from PI(3)P-enriched endosomes en route to the PI(4)P-and PI(4,5)P 2 -positive PM in endosomal recycling remained unknown.Here, we report that cargo exit from endosomes requires removal of PI(3)P by the PI(3)P 3-phosphatase myotubularin 1 (MTM1), and concomitant PI(4)P synthesis by PI 4-kinase type II α (PI4K2α). Loss of MTM1 causes endosomal accumulation of PI(3)P and PI(3)P effector proteins, i.e. sorting nexins, Kif16b-mediated outward traffic of PI(3)P containing endosomes and sub-plasmalemmal accumulation of exocytosis-deficient endosomes. As PI4K2α associates with MTM1 and thereby facilitates membrane recruitment of MTM1, these phenotypic changes are mimicked by loss of PI4K2α. The conversion of PI(3)P-to-PI(4)P is paralleled by a switch i...

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Section: Pi(3)p Levels Can Be Manipulated By Genetic and Pharmacologimentioning

confidence: 80%

Section: Mtm1 Regulates Endosomal Pi(3)p Turnover and Membrane Dynamicsmentioning

confidence: 99%

Section: Common Features Of Mtm1 Deficiency Cause Xlcnm Pathologiesmentioning

confidence: 99%

See 1 more Smart Citation

A phosphoinositide conversion mechanism for exit from endosomes

Ketel¹,

Krauß²,

Nicot³

et al. 2016

Nature

Self Cite

161

177

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show abstract

“…La seconde voie semble indé-pendante de la desmine et son méca-nisme reste encore à élucider. En conclusion, cette étude a identifié un partenariat inattendu entre deux protéines impliquées dans des pathologies musculaires différentes [7]. Ce lien l'effet de MTM1 sur les filaments de desmine.…”

Section: Mtm1f238fs Mtm1r241cunclassified

“…La desmine : un nouveau partenaire musculaire de MTM1 Par une approche de double hybride dans la levure, nous avons identifié la desmine comme un ligand potentiel de MTM1 [7]. Cette protéine appartient à la famille des filaments intermédiaires.…”

unclassified