The activation of gastric inhibitory peptide/gastric inhibitory peptide receptor axis via sonic hedgehog signaling promotes the bridging of gapped nerves in sciatic nerve injury

Author:

Guan Tuchen1,Guo Beibei12,Zhang Wenxue1,Qi Mengwei1,Luo Xiaoqian1,Li Zhen1,Zhang Yufang1,Bao Tiancheng2,Xu Man1,Liu Mei1ORCID,Liu Yan1ORCID

Affiliation:

1. Key Laboratory of Neuroregeneration of Jiangsu Province and Ministry of Education, Co‐Innovation Center of Neuroregeneration Nantong University Nantong Jiangsu Province 226001 China

2. Medical School of Nantong University Nantong Jiangsu Province 226001 China

Abstract

AbstractSchwann cells play an essential role in peripheral nerve regeneration by generating a favorable microenvironment. Gastric inhibitory peptide/gastric inhibitory peptide receptor (GIP/GIPR) axis deficiency leads to failure of sciatic nerve repair. However, the underlying mechanism remains elusive. In this study, we surprisingly found that GIP treatment significantly enhances the migration of Schwann cells and the formation of Schwann cell cords during recovery from sciatic nerve injury in rats. We further revealed that GIP and GIPR levels in Schwann cells were low under normal conditions, and significantly increased after injury demonstrated by real‐time reverse transcription‐polymerase chain reaction (RT‐PCR) and Western blot. Wound healing and Transwell assays showed that GIP stimulation and GIPR silencing could affect Schwann cell migration. In vitro and in vivo mechanistic studies based on interference experiment revealed that GIP/GIPR might promote mechanistic target of rapamycin complex 2 (mTORC2) activity, thus facilitating cell migration; Rap1 activation might be involved in this process. Finally, we retrieved the stimulatory factors responsible for GIPR induction after injury. The results indicate that sonic hedgehog (SHH) is a potential candidate whose expression increased upon injury. Luciferase and chromatin immunoprecipitation (ChIP) assays showed that Gli3, the target transcription factor of the SHH pathway, dramatically augmented GIPR expression. Additionally, in vivo inhibition of SHH could effectively reduce GIPR expression after sciatic nerve injury. Collectively, our study reveals the importance of GIP/GIPR signaling in Schwann cell migration, providing a therapeutic avenue toward peripheral nerve injury.image

Funder

National Natural Science Foundation of China

Natural Science Foundation of Jiangsu Province

Priority Academic Program Development of Jiangsu Higher Education Institutions

Publisher

Wiley

Subject

Cellular and Molecular Neuroscience,Biochemistry

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