Profiling of the dynamically alteredgene expression in peripheral nerve injury using NGS RNA sequencing technique

Profiling of the dynamically alteredgene expression in peripheral nerve injury using NGS RNA sequencing technique

Functional recovery of peripheral nerve injuries is of major demand in clinical practice worldwide. Although, to some extent, peripheral nervous system can spontaneously regenerate, post-injury recovery is often associated with poor functional outcome. The molecular mechanism controlling the periphe...

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Veröffentlicht in:American journal of translational research 2016-01, Vol.8 (2), p.871-884
Hauptverfasser: Han, Duanyang, Chen, Yixun, Kou, Yuhui, Weng, Jian, Chen, Bo, Yu, Youlai, Zhang, Peixun, Jiang, Baoguo
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container_issue 2
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container_title American journal of translational research
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creator Han, Duanyang
Chen, Yixun
Kou, Yuhui
Weng, Jian
Chen, Bo
Yu, Youlai
Zhang, Peixun
Jiang, Baoguo
description Functional recovery of peripheral nerve injuries is of major demand in clinical practice worldwide. Although, to some extent, peripheral nervous system can spontaneously regenerate, post-injury recovery is often associated with poor functional outcome. The molecular mechanism controlling the peripheral nerve repair process is still majorly unclear. In this study, by utilizing the Next Generation Sequencing (NGS) RNA sequencing technique, we aim to profile the gene expression spectrum of the peripheral nerve repair. In total, we detected 2847 were differentially expressed at day 7 post crush nerve injury. The GO, Panther, IPA and GSEA analysis was performed to decipher the biological processes involving the differentially expressed genes. Collectively, our results highlighted the inflammatory response and related signaling pathway (NFkB and TNFa signaling) play key role in peripheral nerve repair regulation. Furthermore, Network analysis illustrated that the IL10, IL18, IFN-γ and PDCD1 were four key regulators with multiple participations in peripheral nerve repair and potentially exert influence to the repair process. The expression changes of IL10, IL18, IFN-γ, PDCD1 and TNFSF14 (LIGHT) were further validated by western blot analysis. Hopefully, the present study may provide useful platform to further reveal the molecular mechanism of peripheral nerve repair and discover promising treatment target to enhance peripheral nerve regeneration.
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title Profiling of the dynamically alteredgene expression in peripheral nerve injury using NGS RNA sequencing technique
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