2016
DOI: 10.1113/jp270874
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The repair Schwann cell and its function in regenerating nerves

Abstract: Nerve injury triggers the conversion of myelin and non‐myelin (Remak) Schwann cells to a cell phenotype specialized to promote repair. Distal to damage, these repair Schwann cells provide the necessary signals and spatial cues for the survival of injured neurons, axonal regeneration and target reinnervation. The conversion to repair Schwann cells involves de‐differentiation together with alternative differentiation, or activation, a combination that is typical of cell type conversions often referred to as (dir… Show more

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Cited by 892 publications
(1,002 citation statements)
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References 89 publications
(198 reference statements)
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“…Regenerative properties of the PNS after lesion are to a large extent due to the plasticity of SCs that first dedifferentiate and convert into repair cells in response to injury to foster and guide axonal regrowth, and second redifferentiate to remyelinate regenerated axons [3,5,7,10]. These different key steps of the regeneration process involve the dynamic regulation of many genes and thus the timed action of several transcription factors, which are known to promote either SC de-differentiation or redifferentiation after lesion.…”
Section: Functions Of Chromatin-remodeling Enzymes In Scs After Lesionmentioning
confidence: 99%
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“…Regenerative properties of the PNS after lesion are to a large extent due to the plasticity of SCs that first dedifferentiate and convert into repair cells in response to injury to foster and guide axonal regrowth, and second redifferentiate to remyelinate regenerated axons [3,5,7,10]. These different key steps of the regeneration process involve the dynamic regulation of many genes and thus the timed action of several transcription factors, which are known to promote either SC de-differentiation or redifferentiation after lesion.…”
Section: Functions Of Chromatin-remodeling Enzymes In Scs After Lesionmentioning
confidence: 99%
“…By contrast, myelin is detrimental for axonal regrowth after lesion, because it contains growth inhibitory proteins [5]. However, SCs react quickly to an axonal lesion by dedifferentiating, digesting their own myelin -a process called myelinophagy [6] -and converting into repair cells [7,8] that foster axonal regrowth and guide axons back to their former target [9,10]. SCs then remyelinate regenerated axons (Figure 2).…”
mentioning
confidence: 99%
“…The myelin protein zero (MPZ), myelin basic protein (MBP), and myelin associated glycoprotein (MAG) are downregulated. Neurotrophic factors such as nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), glial-derived neurotrophic factor (GDNF), neurotrophin-3 (NT3), and vascular endothelial growth factor (VEGF) are upregulated [6,20]. Growth associated protein (GAP-43) is upregulated in injured peripheral nerve, and in the growth cone [21,22].…”
Section: Nerve Injury and Regenerationmentioning
confidence: 99%
“…Growth associated protein (GAP-43) is upregulated in injured peripheral nerve, and in the growth cone [21,22]. SCs also activate innate immunity by releasing cytokines such as tumor necrosis factor α (TNF α) and interleukin-1α and β which promote recruitment of macrophages and stimulate axonal regeneration [6].…”
Section: Nerve Injury and Regenerationmentioning
confidence: 99%
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