删除 PTEN(而非 SOCS3 或髓鞘抑制剂)可有力促进 BRAF 诱导的外周感觉轴突脊髓内再生

Hyukmin Kim, Harun Noristiani, Jinbin Zhai, Meredith Manire, Shuxin Li, Jian Zhong, Young-Jin Son
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摘要

背根损伤后,初级感觉轴突无法再生进入脊髓,从而导致永久性感觉障碍。背根进入区(DREZ)是中枢神经系统与中枢神经系统的交界处,它阻止了轴突的再进入。目前促进背根进入区再生的方法取得了一些成功,但持续的长距离再生,尤其是大直径有髓鞘轴突的再生,仍然是一项艰巨的挑战。我们以前曾证明,诱导表达组成型活性 B-RAF(kaBRAF)可增强成年小鼠受损 DRG 神经元的再生能力。在这项研究中,我们探讨了在颈椎DR损伤后,通过单独选择性表达kaBRAF或结合髓鞘相关抑制因子或神经元内在生长抑制因子(PTEN或SOCS3)的缺失,是否可以实现强大的椎管内再生。我们发现,kaBRAF 可促进一些轴突在 DREZ 上再生,但在两个月内并不能产生明显的功能恢复。补充性缺失 Nogo、MAG 和 OMgp 只能适度改善 kaBRAF 诱导的再生。单独或联合缺失 PTEN 或 SOCS3 无法促进任何跨 DREZ 的生长。与此形成鲜明对比的是,同时缺失 PTEN(而非 SOCS3)可显著增强 kaBRAF 介导的再生,使更多轴突穿透 DREZ 并深入脊髓生长。这项研究表明,BRAF-MEK-ERK 和 PI3K-Akt-mTOR 信号的双重激活是刺激脊髓内 DR 再生的有效策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deleting PTEN, but not SOCS3 or myelin inhibitors, robustly boosts BRAF-elicited intraspinal regeneration of peripheral sensory axons
Primary sensory axons fail to regenerate into the spinal cord following dorsal root injury leading to permanent sensory deficits. Re-entry is prevented at the dorsal root entry zone (DREZ), the CNS-PNS interface. Current approaches for promoting DR regeneration across the DREZ have had some success, but sustained, long-distance regeneration, particularly of large-diameter myelinated axons, still remains a formidable challenge. We have previously shown that induced expression of constitutively active B-RAF (kaBRAF) enhanced the regenerative competence of injured DRG neurons in adult mice. In this study, we investigated whether robust intraspinal regeneration can be achieved after a cervical DR injury by selective expression of kaBRAF alone or in combination with deletion of the myelin-associated inhibitors or neuron-intrinsic growth suppressors (PTEN or SOCS3). We found that kaBRAF promoted some axon regeneration across the DREZ but did not produce significant functional recovery by two months. Supplementary deletion of Nogo, MAG, and OMgp only modestly improved kaBRAF-induced regeneration. Deletion of PTEN or SOCS3 individually or in combination failed to promote any growth across the DREZ. In marked contrast, simultaneous deletion of PTEN, but not SOCS3, dramatically enhanced kaBRAF-mediated regeneration enabling many more axons to penetrate the DREZ and grow deep into the spinal cord. This study shows that dual activation of BRAF-MEK-ERK and PI3K-Akt-mTOR signaling is an effective strategy to stimulate robust intraspinal DR regeneration.
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