2016
DOI: 10.1016/j.nepig.2016.10.002
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Epigenetic profiling reveals a developmental decrease in promoter accessibility during cortical maturation in vivo

Abstract: Axon regeneration in adult central nervous system (CNS) is limited in part by a developmental decline in the ability of injured neurons to re-express needed regeneration associated genes (RAGs). Adult CNS neurons may lack appropriate pro-regenerative transcription factors, or may display chromatin structure that restricts transcriptional access to RAGs. Here we performed epigenetic profiling around the promoter regions of key RAGs, and found progressive restriction across a time course of cortical maturation. … Show more

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Cited by 30 publications
(49 citation statements)
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“…Importantly, co-expression of ATF3 and JUN can cooperate to improve regeneration in DRG neurons to a greater extent than can be achieved by the expression of either transcription factor alone 114 . However, this cooperative effect does not occur in cortical neurons 110 . These results make it clear that the extent to which genetic manipulation can impact regeneration is strongly influenced by cellular context and the competency of the neurons to respond (BOX 3).…”
Section: Transcriptional Changesmentioning
confidence: 84%
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“…Importantly, co-expression of ATF3 and JUN can cooperate to improve regeneration in DRG neurons to a greater extent than can be achieved by the expression of either transcription factor alone 114 . However, this cooperative effect does not occur in cortical neurons 110 . These results make it clear that the extent to which genetic manipulation can impact regeneration is strongly influenced by cellular context and the competency of the neurons to respond (BOX 3).…”
Section: Transcriptional Changesmentioning
confidence: 84%
“…Interestingly, JUN and ATF3 are sufficient to promote regeneration only under certain cellular conditions. Although overexpression of ATF3 can promote peripheral nerve regeneration 109 , it fails to do so in several models of CNS injury 110,111 . Conversely, JUN overexpression can promote regeneration in cultured cortical 110,112,113 and DRG neurons 114 ; however, as described above, its activation downstream of DLK also promotes cell death in RGCs 66 .…”
Section: Transcriptional Changesmentioning
confidence: 99%
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