细胞外组蛋白，一类新的中枢神经系统轴突再生抑制分子。

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

作者信息

Siddiq Mustafa M, Hannila Sari S, Zorina Yana, Nikulina Elena, Rabinovich Vera, Hou Jianwei, Huq Rumana, Richman Erica L, Tolentino Rosa E, Hansen Jens, Velenosi Adam, Kwon Brian K, Tsirka Stella E, Maze Ian, Sebra Robert, Beaumont Kristin G, Toro Carlos A, Cardozo Christopher P, Iyengar Ravi, Filbin Marie T

机构信息

Department of Biological Sciences, Hunter College, City University of New York, New York, NY 10065, USA.

Department of Pharmacological Sciences and Institute for Systems Biomedicine, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.

出版信息

Brain Commun. 2021 Nov 13;3(4):fcab271. doi: 10.1093/braincomms/fcab271. eCollection 2021.

DOI:10.1093/braincomms/fcab271

PMID:34993473

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8728726/

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 CSF 24 h 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 Y-box-binding protein 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 , and activated protein C treatment promotes axonal regeneration in the crushed optic nerve . These findings identify extracellular histones as a new class of nerve regeneration-inhibiting molecules within the injured CNS.

摘要

成熟中枢神经系统中的轴突再生受到细胞外抑制因子的限制。缺乏主要髓磷脂相关抑制因子的三重敲除小鼠在受伤后不会表现出自发性再生，这表明存在其他抑制剂。为了寻找此类抑制剂，我们检测到脊髓损伤后24小时人类脑脊液中组蛋白H3水平升高。在小鼠背柱损伤和大鼠视神经挤压后，在损伤部位检测到细胞外组蛋白H3水平升高。与髓磷脂相关抑制剂类似，这些细胞外组蛋白诱导生长锥塌陷并抑制神经突生长。组蛋白通过转录因子Y盒结合蛋白1和Toll样受体2介导抑制作用，且这些作用独立于Nogo受体。添加活化蛋白C可逆转组蛋白介导的抑制作用，并且活化蛋白C治疗可促进挤压视神经中的轴突再生。这些发现确定细胞外组蛋白是受伤中枢神经系统内一类新的神经再生抑制分子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/53a0/8728726/6816cd549659/fcab271f11.jpg

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细胞外组蛋白，一类新的中枢神经系统轴突再生抑制分子。

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

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