Caroline Huzé scite author profile

BackgroundAmyotrophic lateral sclerosis (ALS), the most frequent adult onset motor neuron disease, is associated with hypermetabolism linked to defects in muscle mitochondrial energy metabolism such as ATP depletion and increased oxygen consumption. It remains unknown whether muscle abnormalities in energy metabolism are causally involved in the destruction of neuromuscular junction (NMJ) and subsequent motor neuron degeneration during ALS.Methodology/Principal FindingsWe studied transgenic mice with muscular overexpression of uncoupling protein 1 (UCP1), a potent mitochondrial uncoupler, as a model of muscle restricted hypermetabolism. These animals displayed age-dependent deterioration of the NMJ that correlated with progressive signs of denervation and a mild late-onset motor neuron pathology. NMJ regeneration and functional recovery were profoundly delayed following injury of the sciatic nerve and muscle mitochondrial uncoupling exacerbated the pathology of an ALS animal model.Conclusions/SignificanceThese findings provide the proof of principle that a muscle restricted mitochondrial defect is sufficient to generate motor neuron degeneration and suggest that therapeutic strategies targeted at muscle metabolism might prove useful for motor neuron diseases.

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Identification of an Agrin Mutation that Causes Congenital Myasthenia and Affects Synapse Function

Huzé

Bauché

Richard

et al. 2009

The American Journal of Human Genetics

152

116

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We report the case of a congenital myasthenic syndrome due to a mutation in AGRN, the gene encoding agrin, an extracellular matrix molecule released by the nerve and critical for formation of the neuromuscular junction. Gene analysis identified a homozygous missense mutation, c.5125G>C, leading to the p.Gly1709Arg variant. The muscle-biopsy specimen showed a major disorganization of the neuromuscular junction, including changes in the nerve-terminal cytoskeleton and fragmentation of the synaptic gutters. Experiments performed in nonmuscle cells or in cultured C2C12 myotubes and using recombinant mini-agrin for the mutated and the wild-type forms showed that the mutated form did not impair the activation of MuSK or change the total number of induced acetylcholine receptor aggregates. A solid-phase assay using the dystrophin glycoprotein complex showed that the mutation did not affect the binding of agrin to alpha-dystroglycan. Injection of wild-type or mutated agrin into rat soleus muscle induced the formation of nonsynaptic acetylcholine receptor clusters, but the mutant protein specifically destabilized the endogenous neuromuscular junctions. Importantly, the changes observed in rat muscle injected with mutant agrin recapitulated the pre- and post-synaptic modifications observed in the patient. These results indicate that the mutation does not interfere with the ability of agrin to induce postsynaptic structures but that it dramatically perturbs the maintenance of the neuromuscular junction.

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A Mutation Causes MuSK Reduced Sensitivity to Agrin and Congenital Myasthenia

et al. 2013

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Congenital myasthenic syndromes (CMSs) are a heterogeneous group of genetic disorders affecting neuromuscular transmission. The agrin/muscle-specific kinase (MuSK) pathway is critical for proper development and maintenance of the neuromuscular junction (NMJ). We report here an Iranian patient in whom CMS was diagnosed since he presented with congenital and fluctuating bilateral symmetric ptosis, upward gaze palsy and slowly progressive muscle weakness leading to loss of ambulation. Genetic analysis of the patient revealed a homozygous missense mutation c.2503A>G in the coding sequence of MUSK leading to the p.Met835Val substitution. The mutation was inherited from the two parents who were heterozygous according to the notion of consanguinity. Immunocytochemical and electron microscopy studies of biopsied deltoid muscle showed dramatic changes in pre- and post-synaptic elements of the NMJs. These changes induced a process of denervation/reinnervation in native NMJs and the formation, by an adaptive mechanism, of newly formed and ectopic NMJs. Aberrant axonal outgrowth, decreased nerve terminal ramification and nodal axonal sprouting were also noted. In vivo electroporation of the mutated MuSK in a mouse model showed disorganized NMJs and aberrant axonal growth reproducing a phenotype similar to that observed in the patient’s biopsy specimen. In vitro experiments showed that the mutation alters agrin-dependent acetylcholine receptor aggregation, causes a constitutive activation of MuSK and a decrease in its agrin- and Dok-7-dependent phosphorylation.

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Identification of an Agrin Mutation that Causes Congenital Myasthenia and Affects Synapse Function

Huzé¹,

Bauché²,

Richard³

et al. 2009

The American Journal of Human Genetics

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Correction: A Mutation Causes MuSK Reduced Sensitivity to Agrin and Congenital Myasthenia

Ammar¹,

Soltanzadeh²,

Bauché³

et al. 2013

PLoS ONE

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Modalités et outils d’observation de la jonction neuromusculaire

Rigoard¹,

Buffenoir²,

Bauché³

et al. 2009

Neurochirurgie

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Dupuis¹,

Jose-Luis²,

Echaniz‐Laguna³

et al.

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Vers une approche métabolique du centre locomoteur autonome chez l’animal : le modèle d’hémisection médullaire chez le rat

et al. 2009

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Caroline Huzé

Muscle Mitochondrial Uncoupling Dismantles Neuromuscular Junction and Triggers Distal Degeneration of Motor Neurons

Identification of an Agrin Mutation that Causes Congenital Myasthenia and Affects Synapse Function

A Mutation Causes MuSK Reduced Sensitivity to Agrin and Congenital Myasthenia

Identification of an Agrin Mutation that Causes Congenital Myasthenia and Affects Synapse Function

Correction: A Mutation Causes MuSK Reduced Sensitivity to Agrin and Congenital Myasthenia

Modalités et outils d’observation de la jonction neuromusculaire

Untitled

Vers une approche métabolique du centre locomoteur autonome chez l’animal : le modèle d’hémisection médullaire chez le rat

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