Literature DB >> 27027288

Astrocyte scar formation aids central nervous system axon regeneration.

Mark A Anderson1, Joshua E Burda1, Yilong Ren1, Yan Ao1, Timothy M O'Shea1, Riki Kawaguchi2, Giovanni Coppola2, Baljit S Khakh3, Timothy J Deming4, Michael V Sofroniew1.   

Abstract

Transected axons fail to regrow in the mature central nervous system. Astrocytic scars are widely regarded as causal in this failure. Here, using three genetically targeted loss-of-function manipulations in adult mice, we show that preventing astrocyte scar formation, attenuating scar-forming astrocytes, or ablating chronic astrocytic scars all failed to result in spontaneous regrowth of transected corticospinal, sensory or serotonergic axons through severe spinal cord injury (SCI) lesions. By contrast, sustained local delivery via hydrogel depots of required axon-specific growth factors not present in SCI lesions, plus growth-activating priming injuries, stimulated robust, laminin-dependent sensory axon regrowth past scar-forming astrocytes and inhibitory molecules in SCI lesions. Preventing astrocytic scar formation significantly reduced this stimulated axon regrowth. RNA sequencing revealed that astrocytes and non-astrocyte cells in SCI lesions express multiple axon-growth-supporting molecules. Our findings show that contrary to the prevailing dogma, astrocyte scar formation aids rather than prevents central nervous system axon regeneration.

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Year:  2016        PMID: 27027288      PMCID: PMC5243141          DOI: 10.1038/nature17623

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  102 in total

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Journal:  Nat Neurosci       Date:  2006-10-22       Impact factor: 24.884

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  549 in total

Review 1.  Biomaterial Approaches to Modulate Reactive Astroglial Response.

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5.  Degeneration of white matter and gray matter revealed by diffusion tensor imaging and pathological mechanism after spinal cord injury in canine.

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Journal:  CNS Neurosci Ther       Date:  2018-08-03       Impact factor: 5.243

6.  A Reproducible New Model of Focal Ischemic Injury in the Marmoset Monkey: MRI and Behavioural Follow-Up.

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7.  Loss of TDP-43 in astrocytes leads to motor deficits by triggering A1-like reactive phenotype and triglial dysfunction.

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