Litcius/Paper detail

Engineered Sensory Nerve Guides Self‐Adaptive Bone Healing via NGF‐TrkA Signaling Pathway

Zengjie Zhang, Fangqian Wang, Xin Huang, Hangxiang Sun, Jianxiang Xu, Hao Qu, Xiaobo Yan, Wei Shi, Wangsiyuan Teng, Xiaoqiang Jin, Zhenxuan Shao, Yongxing Zhang, Shenzhi Zhao, Yan Wu, Zhaoming Ye, Xiaohua Yu

2023Advanced Science54 citationsDOIOpen Access PDF

Abstract

The upstream role of sensory innervation during bone homeostasis is widely underestimated in bone repairing strategies. Herein, a neuromodulation approach is proposed to orchestrate bone defect healing by constructing engineered sensory nerves (eSN) in situ to leverage the adaptation feature of SN during tissue formation. NGF liberated from ECM-constructed eSN effectively promotes sensory neuron differentiation and enhances CGRP secretion, which lead to improved RAOECs mobility and osteogenic differentiation of BMSC. In turn, such eSN effectively drives ossification in vivo via NGF-TrkA signaling pathway, which substantially accelerates critical size bone defect healing. More importantly, eSN also adaptively suppresses excessive bone formation and promotes bone remodeling by activating osteoclasts via CGRP-dependent mechanism when combined with BMP-2 delivery, which ingeniously alleviates side effects of BMP-2. In sum, this eSN approach offers a valuable avenue to harness the adaptive role of neural system to optimize bone homeostasis under various clinical scenario.

Topics & Concepts

Tropomyosin receptor kinase ACalcitonin gene-related peptideNeuroscienceCell biologyChemistryBone healingSensory systemNerve growth factorInternal medicineAnatomyBiologyMedicineNeuropeptideReceptorNerve injury and regenerationBone Tissue Engineering MaterialsSpine and Intervertebral Disc Pathology