Title : Collagen Q is a Key Player for Developing Rational Therapy for Congenital Myasthenia and for Dissecting the Mechanisms of Anti-MuSK Myasthenia Gravis - Ohno_2014_J.Mol.Neurosci_53_359 |
Author(s) : Ohno K , Ito M , Kawakami Y , Ohtsuka K |
Ref : Journal of Molecular Neuroscience , 53 :359 , 2014 |
Abstract :
Acetylcholinesterase (AChE) at the neuromuscular junction (NMJ) is anchored to the synaptic basal lamina via a triple helical collagen Q (ColQ) in the form of asymmetric AChE (AChE/ColQ). We exploited the proprietary NMJ-targeting signals of ColQ to treat congenital myasthenia and to explore the mechanisms of autoimmune myasthenia gravis (MG). Mutations in COLQ cause congenital endplate AChE deficiency (CEAD). First, a single intravenous administration of adeno-associated virus serotype 8 (AAV8)-COLQ to Colq-/- mice normalized motor functions, synaptic transmission, and partly the NMJ ultrastructure. Additionally, injection of purified recombinant AChE/ColQ protein complex into gluteus maximus accumulated AChE in non-injected forelimbs. Second, MuSK antibody-positive MG accounts for 5-15 % of MG. In vitro overlay of AChE/ColQ to muscle sections of Colq-/- mice, as well as in vitro plate-binding of MuSK to ColQ, revealed that MuSK-IgG blocks binding of ColQ to MuSK in a dose-dependent manner. Passive transfer of MuSK-IgG to wild-type mice markedly reduced the size and intensity of ColQ signals at NMJs. MuSK-IgG thus interferes with binding of ColQ to MuSK. Elucidation of molecular mechanisms of specific binding of ColQ to NMJ enabled us to ameliorate devastating myasthenic symptoms of Colq-/- mice and also to reveal underlying mechanisms of anti-MuSK-MG. |
PubMedSearch : Ohno_2014_J.Mol.Neurosci_53_359 |
PubMedID: 24234034 |
Ohno K, Ito M, Kawakami Y, Ohtsuka K (2014)
Collagen Q is a Key Player for Developing Rational Therapy for Congenital Myasthenia and for Dissecting the Mechanisms of Anti-MuSK Myasthenia Gravis
Journal of Molecular Neuroscience
53 :359
Ohno K, Ito M, Kawakami Y, Ohtsuka K (2014)
Journal of Molecular Neuroscience
53 :359