OBJECTIVES: To determine the pathogenesis of anti-muscle-specific kinase (MuSK) myasthenia, a newly described severe form of myasthenia gravis associated with MuSK antibodies characterized by focal muscle weakness and wasting and absence of acetylcholine receptor antibodies, and to determine whether antibodies to MuSK, a crucial protein in the formation of the neuromuscular junction (NMJ) during development, can induce disease in the mature NMJ. Design, Setting, and PARTICIPANTS: Lewis rats were immunized with a single injection of a newly discovered splicing variant of MuSK, MuSK 60, which has been demonstrated to be expressed primarily in the mature NMJ. Animals were assessed clinically, serologically, and by repetitive stimulation of the median nerve. Muscle tissue was examined immunohistochemically and by electron microscopy. RESULTS: Animals immunized with 100 μg of MuSK 60 developed severe progressive weakness starting at day 16, with 100% mortality by day 27. The weakness was associated with high MuSK antibody titers, weight loss, axial muscle wasting, and decrementing compound muscle action potentials. Light and electron microscopy demonstrated fragmented NMJs with varying degrees of postsynaptic muscle end plate destruction along with abnormal nerve terminals, lack of registration between end plates and nerve terminals, local axon sprouting, and extrajunctional dispersion of cholinesterase activity. CONCLUSIONS: These findings support the role of MuSK antibodies in the human disease, demonstrate the role of MuSK not only in the development of the NMJ but also in the maintenance of the mature synapse, and demonstrate involvement of this disease in both presynaptic and postsynaptic components of the NMJ.
OBJECTIVES: To determine the pathogenesis of anti-muscle-specific kinase (MuSK) myasthenia, a newly described severe form of myasthenia gravis associated with MuSK antibodies characterized by focal muscle weakness and wasting and absence of acetylcholine receptor antibodies, and to determine whether antibodies to MuSK, a crucial protein in the formation of the neuromuscular junction (NMJ) during development, can induce disease in the mature NMJ. Design, Setting, and PARTICIPANTS: Lewis rats were immunized with a single injection of a newly discovered splicing variant of MuSK, MuSK 60, which has been demonstrated to be expressed primarily in the mature NMJ. Animals were assessed clinically, serologically, and by repetitive stimulation of the median nerve. Muscle tissue was examined immunohistochemically and by electron microscopy. RESULTS: Animals immunized with 100 μg of MuSK 60 developed severe progressive weakness starting at day 16, with 100% mortality by day 27. The weakness was associated with high MuSK antibody titers, weight loss, axial muscle wasting, and decrementing compound muscle action potentials. Light and electron microscopy demonstrated fragmented NMJs with varying degrees of postsynaptic muscle end plate destruction along with abnormal nerve terminals, lack of registration between end plates and nerve terminals, local axon sprouting, and extrajunctional dispersion of cholinesterase activity. CONCLUSIONS: These findings support the role of MuSK antibodies in the human disease, demonstrate the role of MuSK not only in the development of the NMJ but also in the maintenance of the mature synapse, and demonstrate involvement of this disease in both presynaptic and postsynaptic components of the NMJ.
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