轴突切开术
原肌球蛋白受体激酶B
神经科学
轴突
再生(生物学)
皮质脊髓束
生物
锥体束
神经突
运动神经元
神经营养因子
细胞生物学
受体
脊髓
医学
生物化学
放射科
磁共振弥散成像
磁共振成像
体外
作者
Edmund Hollis,Pouya Jamshidi,Karin Löw,Armin Blesch,Mark H. Tuszynski
标识
DOI:10.1073/pnas.0810624106
摘要
Several experimental manipulations of the CNS environment successfully elicit regeneration of sensory and bulbospinal motor axons but fail to elicit regeneration of corticospinal axons, suggesting that cell-intrinsic mechanisms limit the regeneration of this critical class of motor neurons. We hypothesized that enhancement of intrinsic neuronal growth mechanisms would enable adult corticospinal motor axon regeneration. Lentiviral vectors were used to overexpress the BDNF receptor trkB in layer V corticospinal motor neurons. After subcortical axotomy, trkB transduction induced corticospinal axon regeneration into subcortical lesion sites expressing BDNF. In the absence of trkB overexpression, no regeneration occurred. Selective deletion of canonical, trkB-mediated neurite outgrowth signaling by mutation of the Shc/FRS-2 activation domain prohibited Erk activation and eliminated regeneration. These findings support the hypothesis that the refractory regenerative state of adult corticospinal axons can be attributed at least in part to neuron-intrinsic mechanisms, and that activation of ERK signaling can elicit corticospinal tract regeneration.
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