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Neuregulin and BDNF Induce a Switch to NMDA Receptor-Dependent Myelination by Oligodendrocytes
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نویسنده
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lundgaard i. ,luzhynskaya a. ,stockley j.h. ,wang z. ,evans k.a. ,swire m. ,volbracht k. ,gautier h.o.b. ,franklin r.j.m. ,ffrench-constant c. ,attwell d. ,káradóttir r.t.
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منبع
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plos biology - 2013 - دوره : 11 - شماره : 12
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چکیده
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Myelination is essential for rapid impulse conduction in the cns,but what determines whether an individual axon becomes myelinated remains unknown. here we show,using a myelinating coculture system,that there are two distinct modes of myelination,one that is independent of neuronal activity and glutamate release and another that depends on neuronal action potentials releasing glutamate to activate nmda receptors on oligodendrocyte lineage cells. neuregulin switches oligodendrocytes from the activity-independent to the activity-dependent mode of myelination by increasing nmda receptor currents in oligodendrocyte lineage cells 6-fold. with neuregulin present myelination is accelerated and increased,and nmda receptor block reduces myelination to far below its level without neuregulin. thus,a neuregulin-controlled switch enhances the myelination of active axons. in vivo,we demonstrate that remyelination after white matter damage is nmda receptor-dependent. these data resolve controversies over the signalling regulating myelination and suggest novel roles for neuregulin in schizophrenia and in remyelination after white matter damage. © 2013 lundgaard et al.
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آدرس
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wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge,united kingdom,center for translational neuromedicine,department of neurosurgery,university of rochester,rochester,ny, United States, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom, department of pathology,university of cambridge,cambridge,united kingdom,institut de biologie de l'ecole normale supérieure génomique fonctionnelle-cnrs,paris, France, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom, mrc centre for regenerative medicine,centre for multiple sclerosis research,university of edinburgh,edinburgh, United Kingdom, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom, mrc centre for regenerative medicine,centre for multiple sclerosis research,university of edinburgh,edinburgh, United Kingdom, department of neuroscience,physiology and pharmacology,university college london,london, United Kingdom, wellcome trust-medical research council (mrc) stem cell institute,john van geest centre for brain repair,and department of veterinary medicine,university of cambridge,cambridge, United Kingdom
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Authors
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