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Classic axon guidance molecules control correct nerve bridge tissue formation and precise axon regeneration 被引量:14
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作者 Xin-Peng Dun David BParkinson 《Neural Regeneration Research》 SCIE CAS CSCD 2020年第1期6-9,共4页
The peripheral nervous system has an astonishing ability to regenerate following a compression or crush injury;however,the potential for full repair following a transection injury is much less.Currently,the major clin... The peripheral nervous system has an astonishing ability to regenerate following a compression or crush injury;however,the potential for full repair following a transection injury is much less.Currently,the major clinical challenge for peripheral nerve repair come from long gaps between the proximal and distal nerve stumps,which prevent regenerating axons reaching the distal nerve.Precise axon targeting during nervous system development is controlled by families of axon guidance molecules including Netrins,Slits,Ephrins and Semaphorins.Several recent studies have indicated key roles of Netrin1,Slit3 and EphrinB2 signalling in controlling the formation of new nerve bridge tissue and precise axon regeneration after peripheral nerve transection injury.Inside the nerve bridge,nerve fibroblasts express EphrinB2 while migrating Schwann cells express the receptor EphB2.EphrinB2/EphB2 signalling between nerve fibroblasts and migrating Schwann cells is required for Sox2 upregulation in Schwann cells and the formation of Schwann cell cords within the nerve bridge to allow directional axon growth to the distal nerve stump.Macrophages in the outermost layer of the nerve bridge express Slit3 while migrating Schwann cells and regenerating axons express the receptor Robo1;within Schwann cells,Robo1 expression is also Sox2-dependent.Slit3/Robo1 signalling is required to keep migrating Schwann cells and regenerating axons inside the nerve bridge.In addition to the Slit3/Robo1 signalling system,migrating Schwann cells also express Netrin1 and regenerating axons express the DCC receptor.It appears that migrating Schwann cells could also use Netrin1 as a guidance cue to direct regenerating axons across the peripheral nerve gap.Engineered neural tissues have been suggested as promising alternatives for the repair of large peripheral nerve gaps.Therefore,understanding the function of classic axon guidance molecules in nerve bridge formation and their roles in axon regeneration could be highly beneficial in developing engineered neural tissue for more effective peripheral nerve repair. 展开更多
关键词 axonAL guidance EPHRINB2 nerve BRIDGE Netrin1 peripheral nerve regeneration Slit3 SOX2 TRANSECTION injury
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血清netrin-1对急性脑出血早期神经功能恶化的预测价值
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作者 任二朋 王江涛 白亚辉 《河南医学研究》 CAS 2024年第21期3880-3883,共4页
目的探讨血清神经轴突导向因子-1(netrin-1)对急性脑出血(ACH)早期神经功能恶化的预测价值。方法选取2019年10月至2020年10月平顶山第二人民医院收治的80例ACH患者为研究对象,根据有无神经功能恶化分为恶化组(27例)与非恶化组(53例)。... 目的探讨血清神经轴突导向因子-1(netrin-1)对急性脑出血(ACH)早期神经功能恶化的预测价值。方法选取2019年10月至2020年10月平顶山第二人民医院收治的80例ACH患者为研究对象,根据有无神经功能恶化分为恶化组(27例)与非恶化组(53例)。采用酶联免疫吸附法检测患者血清netrin-1。采用受试者工作特征(ROC)曲线评价血清netrin-1预测ACH早期神经功能恶化的价值,采用多因素logistic回归分析ACH早期神经功能恶化的相关因素。结果恶化组出血容量、破入脑室、美国国立卫生研究院卒中量表(NIHSS)评分、血清netrin-1水平高于非恶化组(P<0.05)。ROC曲线分析显示,血清netrin-1预测ACH早期神经功能恶化的曲线下面积(95%CI)为0.843(0.732~0.941),截断值412.37 ng·L^(-1),特异度为74.28%,敏感度为84.69%。多因素logistic回归分析显示,高水平netrin-1(OR=2.82,95%CI:1.43~5.57)是ACH患者早期神经功能恶化的影响因素之一(P<0.05)。结论血清netrin-1在ACH早期神经功能恶化患者中升高,能够作为预测脑出血早期神经功能恶化的潜在参考指标之一,为早期诊治提供参考依据。 展开更多
关键词 急性脑出血 神经功能恶化 神经轴突导向因子-1 预测价值
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