黄芪多糖通过激活AKT/eNOS促进神经再生和功能恢复来加速血管生成。

Radix Astragalus Polysaccharide Accelerates Angiogenesis by Activating AKT/eNOS to Promote Nerve Regeneration and Functional Recovery.

作者信息

Zhang Geyi, Huang Jinsheng, Hao Shuang, Zhang Jingchao, Zhou Nan

机构信息

Department of Orthopedics, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China.

Department of Cardiac Surgery, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China.

出版信息

Front Pharmacol. 2022 Apr 1;13:838647. doi: 10.3389/fphar.2022.838647. eCollection 2022.

DOI:10.3389/fphar.2022.838647

PMID:35431954

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9010722/

Abstract

Peripheral nerve injury (PNI) results in loss of neural control and severe disabilities in patients. Promoting functional nerve recovery by accelerating angiogenesis is a promising neuroprotective treatment strategy. Here, we identified a bioactive Radix Astragalus polysaccharide (RAP) extracted from traditional Chinese medicine (TCM) as a potent enhancer of axonal regeneration and remyelination. Notably, RAP promoted functional recovery and delayed gastrocnemius muscle atrophy in a rat model of sciatic nerve crush injury. Further, RAP treatment may induce angiogenesis . Moreover, our results showed that RAP promotes endothelial cell (EC) migration and tube formation. Altogether, our results show that RAP can enhance functional recovery by accelerating angiogenesis, which was probably related to the activation of AKT/eNOS signaling pathway, thereby providing a polysaccharide-based therapeutic strategy for PNI.

摘要

周围神经损伤（PNI）会导致患者神经控制丧失和严重残疾。通过加速血管生成来促进功能性神经恢复是一种很有前景的神经保护治疗策略。在此，我们鉴定出一种从传统中药（TCM）中提取的具有生物活性的黄芪多糖（RAP），它是轴突再生和髓鞘再生的有效增强剂。值得注意的是，在坐骨神经挤压损伤大鼠模型中，RAP促进了功能恢复并延缓了腓肠肌萎缩。此外，RAP治疗可能会诱导血管生成。而且，我们的结果表明RAP促进内皮细胞（EC）迁移和管腔形成。总之，我们的结果表明RAP可以通过加速血管生成来增强功能恢复，这可能与AKT/eNOS信号通路的激活有关，从而为PNI提供了一种基于多糖的治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4205/9010722/7b88b66ac0c4/fphar-13-838647-g001.jpg

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黄芪多糖通过激活AKT/eNOS促进神经再生和功能恢复来加速血管生成。

Radix Astragalus Polysaccharide Accelerates Angiogenesis by Activating AKT/eNOS to Promote Nerve Regeneration and Functional Recovery.

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