A role for Schwann cell-derived neuregulin-1 in remyelination

Autor: Viktorija Velanac, Michael W. Sereda, Ruth M. Stassart, Dies Meijer, Markus H. Schwab, Bastian G. Brinkmann, Klaus-Armin Nave, Robert Fledrich
Přispěvatelé: Molecular Genetics
Jazyk: angličtina
Rok vydání: 2012
Předmět:
Wallerian degeneration
genetics [Gene Expression Regulation]
metabolism [Octamer Transcription Factor-6]
Myelin
Mice
0302 clinical medicine
Mpz protein
mouse
Enzyme Inhibitors
Cells
Cultured
Myelin Sheath
metabolism [S100 Proteins]
Neurons
0303 health sciences
pathology [Axons]
Sciatic Nerve
metabolism [Neurons]
Pou3f1 protein
mouse
Locomotion
pharmacology [Culture Media
Conditioned]
etiology [Demyelinating Diseases]
ultrastructure [Axons]
drug effects [Recovery of Function]
drug effects [Signal Transduction]
Neuregulin-1
Schwann cell
drug effects [Schwann Cells]
physiology [Evoked Potentials
Motor]
genetics [Signal Transduction]
Statistics
Nonparametric
03 medical and health sciences
Microscopy
Electron
Transmission
metabolism [Myelin P0 Protein]
RNA
Messenger
Remyelination
Early Growth Response Protein 2
genetics [Neuregulin-1]
cytology [Ganglia
Spinal]
Recovery of Function
medicine.disease
Evoked Potentials
Motor
Electric Stimulation
Mice
Inbred C57BL
Ki-67 Antigen
nervous system
metabolism [NAV1.6 Voltage-Gated Sodium Channel]
NAV1.6 Voltage-Gated Sodium Channel
Culture Media
Conditioned
Octamer Transcription Factor-6
Neuroscience
030217 neurology & neurosurgery
Demyelinating Diseases
Time Factors
genetics [Locomotion]
metabolism [Myelin Sheath]
Egr2 protein
mouse
pharmacology [Enzyme Inhibitors]
metabolism [Myelin Basic Protein]
genetics [Hedgehog Proteins]
metabolism [Neuregulin-1]
Ganglia
Spinal
drug effects [Axons]
biology
General Neuroscience
S100 Proteins
medicine.anatomical_structure
cytology [Sciatic Nerve]
ultrastructure [Schwann Cells]
Peripheral nerve injury
physiopathology [Sciatic Neuropathy]
metabolism [Demyelinating Diseases]
Myelin P0 Protein
Signal Transduction
metabolism [Ki-67 Antigen]
Scn8a protein
mouse
Mice
Transgenic
metabolism [RNA
Messenger]
genetics [Recovery of Function]
Paracrine signalling
drug effects [Evoked Potentials
Motor]
metabolism [Schwann Cells]
ddc:570
pathology [Myelin Sheath]
mental disorders
medicine
drug effects [Neurons]
Animals
Hedgehog Proteins
Neuregulin 1
metabolism [Early Growth Response Protein 2]
030304 developmental biology
Nrg1 protein
mouse
Cell Proliferation
drug effects [Cell Proliferation]
Myelin Basic Protein
Axons
Rats
Disease Models
Animal
Animals
Newborn
Gene Expression Regulation
biology.protein
Schwann cell differentiation
pathology [Sciatic Neuropathy]
Schwann Cells
Sciatic Neuropathy
chemistry [Neurons]
Zdroj: Nature Neuroscience; Vol 16
Nature reviews / Neuroscience 16(1), 48-54 (2012). doi:10.1038/nn.3281
Nature Neuroscience, 16(1), 48-U76. Nature Publishing Group
ISSN: 1097-6256
DOI: 10.1038/nn.3281
Popis: After peripheral nerve injury, axons regenerate and become remyelinated by resident Schwann cells. However, myelin repair never results in the original myelin thickness, suggesting insufficient stimulation by neuronal growth factors. Upon testing this hypothesis, we found that axonal neuregulin-1 (NRG1) type III and, unexpectedly, also NRG1 type I restored normal myelination when overexpressed in transgenic mice. This led to the observation that Wallerian degeneration induced de novo NRG1 type I expression in Schwann cells themselves. Mutant mice lacking a functional Nrg1 gene in Schwann cells are fully myelinated but exhibit impaired remyelination in adult life. We suggest a model in which loss of axonal contact triggers denervated Schwann cells to transiently express NRG1 as an autocrine/paracrine signal that promotes Schwann cell differentiation and remyelination.
Databáze: OpenAIRE
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