Extracellular histones, a new class of inhibitory molecules of CNS axonal regeneration

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Abstract

Axonal regeneration in the mature CNS is limited by extracellular inhibitory factors. Triple knockout mice lacking the major myelin-associated inhibitors do not display spontaneous regeneration after injury, indicating the presence of other inhibitors. Searching for such inhibitors we have detected elevated levels of histone H3 in human cerebrospinal fluid (CSF) 24 hours after spinal cord injury. Following dorsal column lesions in mice and optic nerve crushes in rats, elevated levels of extracellular histone H3 were detected at the injury site. Similar to myelin-associated inhibitors, these extracellular histones induced growth cone collapse and inhibited neurite outgrowth. Histones mediate inhibition through the transcription factor YB-1 and Toll-like receptor 2, and these effects are independent of the Nogo receptor. Histone-mediated inhibition can be reversed by the addition of activated protein C (APC) in vitro , and APC treatment promotes axonal regeneration in the crushed optic nerve in vivo . These findings identify extracellular histones as a new class of nerve regeneration-inhibiting molecules within the injured CNS. One sentence summary Proteins typically associated with chromatin structure play an unexpected role in limiting axonal regeneration after injury.

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