Increased beta2-adrenergic signaling is a targetable stimulus essential for bone healing by promoting callus neovascularization

Author:

Jahn DeniseORCID,Knapstein Paul RichardORCID,Otto EllenORCID,Köhli PaulORCID,Sevecke Jan,Graef FrankORCID,Graffmann Christine,Fuchs Melanie,Jiang Shan,Rickert Mayla,Erdmann Cordula,Appelt Jessika,Revend Lawik,Küttner Quin,Witte Jason,Rahmani Adibeh,Duda GeorgORCID,Xie Weixin,Donat AntoniaORCID,Schinke ThorstenORCID,Ivanov AndranikORCID,Tchouto Mireille Ngokingha,Beule DieterORCID,Frosch Karl-Heinz,Baranowsky Anke,Tsitsilonis Serafeim,Keller JohannesORCID

Abstract

AbstractTraumatic brain injury (TBI) is associated with a hyperadrenergic state and paradoxically causes systemic bone loss while accelerating fracture healing. Here, we identify the beta2-adrenergic receptor (Adrb2) as a central mediator of these skeletal manifestations. While the negative effects of TBI on the unfractured skeleton can be explained by the established impact of Adrb2 signaling on bone formation, Adrb2 promotes neovascularization of the fracture callus under conditions of high sympathetic tone, including TBI and advanced age. Mechanistically, norepinephrine stimulates the expression of Vegfa and Cgrp primarily in periosteal cells via Adrb2, both of which synergistically promote the formation of osteogenic type-H vessels in the fracture callus. Accordingly, the beneficial effect of TBI on bone repair is abolished in mice lacking Adrb2 or Cgrp, and aged Adrb2-deficient mice without TBI develop fracture nonunions despite high bone formation in uninjured bone. Pharmacologically, the Adrb2 antagonist propranolol impairs, and the agonist formoterol promotes fracture healing in aged mice by regulating callus neovascularization. Clinically, intravenous beta-adrenergic sympathomimetics are associated with improved callus formation in trauma patients with long bone fractures. Thus, Adrb2 is a novel target for promoting bone healing, and widely used beta-blockers may cause fracture nonunion under conditions of increased sympathetic tone.Abstract FigureArtwork was created in BioRender.

Publisher

Cold Spring Harbor Laboratory

Cited by 1 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Lower-limb internal loading and potential consequences for fracture healing;Frontiers in Bioengineering and Biotechnology;2023-10-12

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