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Magnesium facilitates the healing of atypical femoral fractures: A single-cell transcriptomic study

骨愈合 降钙素基因相关肽 医学 降钙素 伤口愈合 成纤维细胞 Carfilzomib公司 髓内棒 细胞外基质 药理学 细胞生物学 内科学 外科 细胞培养 神经肽 地塞米松 受体 生物 来那度胺 遗传学
作者
Nianye Zheng,Jiankun Xu,Ye Chun Ruan,Liang Chang,Xinluan Wang,Hao Yao,Jiali Wang,Ri Zhang,Qingyun Xue,Ning Tang,Tim-yun Ong,Jörg Schilcher,Regis J. O’Keefe,Ling Qin
出处
期刊:Materials Today [Elsevier BV]
卷期号:52: 43-62 被引量:47
标识
DOI:10.1016/j.mattod.2021.11.028
摘要

Bisphosphonates (BPs)-associated atypical femoral fractures (AFFs) present with impaired fracture healing, yet the underlying mechanism is unclear, which prevents the development of effective therapy. Peripheral sensory nerve has been shown to regulate fracture healing via releasing neuropeptides. Here we show that long-term BPs pre-treatment leads to fracture non-union in rats, characterized by reduced expression of calcitonin gene-related peptide (CGRP, a predominant type of neuropeptides) and abundant fibrous tissues in the non-bridged fracture gap, mimicking clinical AFFs. By using single-cell RNA-sequencing, long-term BPs treatment was identified to promote transition of progenitor cells into a specific cluster of fibroblasts that actively deposit dense extracellular matrix (ECM) to prevent fracture callus bridging. Administration of exogenous CGRP at early stages of fracture repair, in contrast, eliminates the ECM-secreting fibroblast cluster, attenuates fibrogenesis, and facilitates callus bridging, suggesting CGRP is a promising agent to facilitate AFF healing. Accordingly, we have developed an innovative magnesium (Mg) containing hybrid intramedullary nail fixation system (Mg-IMN) to effectively rescue BPs-impaired fracture healing via elevating CGRP synthesis and release. Such device optimizes the fracture healing in BPs-pretreated rats, comparable to direct administration of CGRP. These findings address the indispensable role of CGRP in advancing the healing of AFFs and develop translational strategies to accelerate AFF healing by taking advantage of the CGRP-stimulating effect of Mg-based biodegradable orthopedic implant. The study also indicates fibrosis could be targeted by augmenting CGRP expression to accelerate fracture healing even under challenging scenarios where fibroblasts are aberrantly activated.
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