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Treatment with soluble bone morphogenetic protein type 1A receptor fusion protein alleviates irradiation-induced bone loss in mice through increased bone formation and reduced bone resorption.可溶性1A型骨形态发生蛋白受体融合蛋白治疗通过增加骨形成和减少骨吸收减轻小鼠辐射诱导的骨质流失。
Am J Transl Res. 2020 Mar 15;12(3):743-757. eCollection 2020.
2
A soluble bone morphogenetic protein type 1A receptor fusion protein treatment prevents glucocorticoid-Induced bone loss in mice.可溶性骨形态发生蛋白1A型受体融合蛋白治疗可预防小鼠糖皮质激素诱导的骨质流失。
Am J Transl Res. 2019 Jul 15;11(7):4232-4247. eCollection 2019.
3
Treatment With a Soluble Bone Morphogenetic Protein Type 1A Receptor (BMPR1A) Fusion Protein Increases Bone Mass and Bone Formation in Mice Subjected to Hindlimb Unloading.用可溶性1A型骨形态发生蛋白受体(BMPR1A)融合蛋白治疗可增加后肢卸载小鼠的骨量和骨形成。
JBMR Plus. 2017 Oct 9;1(2):66-72. doi: 10.1002/jbm4.10012. eCollection 2017 Oct.
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A soluble bone morphogenetic protein type IA receptor increases bone mass and bone strength.可溶性骨形态发生蛋白 IA 型受体增加骨量和骨强度。
Proc Natl Acad Sci U S A. 2012 Jul 24;109(30):12207-12. doi: 10.1073/pnas.1204929109. Epub 2012 Jul 3.
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BMPR1A antagonist differentially affects cartilage and bone formation during fracture healing.BMPR1A拮抗剂在骨折愈合过程中对软骨和骨形成有不同影响。
J Orthop Res. 2016 Dec;34(12):2096-2105. doi: 10.1002/jor.23233. Epub 2016 Apr 6.
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Treatment of OPG-deficient mice with WP9QY, a RANKL-binding peptide, recovers alveolar bone loss by suppressing osteoclastogenesis and enhancing osteoblastogenesis.用RANKL结合肽WP9QY治疗OPG缺陷小鼠,通过抑制破骨细胞生成和增强成骨细胞生成来恢复牙槽骨丢失。
PLoS One. 2017 Sep 22;12(9):e0184904. doi: 10.1371/journal.pone.0184904. eCollection 2017.
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Pulsed electromagnetic fields (PEMF) attenuate changes in vertebral bone mass, architecture and strength in ovariectomized mice.脉冲电磁场(PEMF)可减弱去卵巢小鼠椎骨骨量、结构和强度的变化。
Bone. 2018 Mar;108:10-19. doi: 10.1016/j.bone.2017.12.008. Epub 2017 Dec 8.
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Targeted disruption of BMP signaling through type IA receptor (BMPR1A) in osteocyte suppresses SOST and RANKL, leading to dramatic increase in bone mass, bone mineral density and mechanical strength.通过骨细胞中的IA型受体(BMPR1A)对骨形态发生蛋白(BMP)信号进行靶向破坏,可抑制硬化蛋白(SOST)和核因子κB受体活化因子配体(RANKL),从而导致骨量、骨矿物质密度和机械强度显著增加。
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Effect of Zuoguiwan on osteoporosis in ovariectomized rats through RANKL/OPG pathway mediated by β2AR.左归丸通过β2AR 介导的 RANKL/OPG 通路对去卵巢大鼠骨质疏松症的影响。
Biomed Pharmacother. 2018 Jul;103:1052-1060. doi: 10.1016/j.biopha.2018.04.102. Epub 2018 Apr 25.
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Bu-Shen-Tong-Luo decoction prevents bone loss via inhibition of bone resorption and enhancement of angiogenesis in ovariectomy-induced osteoporosis of rats.补肾通络方通过抑制骨吸收和增强血管生成预防去卵巢诱导骨质疏松大鼠的骨丢失。
J Ethnopharmacol. 2018 Jun 28;220:228-238. doi: 10.1016/j.jep.2018.01.007. Epub 2018 Jan 6.

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Senolytic cocktail dasatinib and quercetin attenuates chronic high altitude hypoxia associated bone loss in mice.衰老细胞裂解鸡尾酒达沙替尼和槲皮素可减轻小鼠慢性高原缺氧相关的骨质流失。
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Activin receptor-like kinase 3: a critical modulator of development and function of mineralized tissues.激活素受体样激酶3:矿化组织发育和功能的关键调节因子。
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Polydopamine coating with static magnetic field promotes the osteogenic differentiation of human bone-derived mesenchymal stem cells on three-dimensional printed porous titanium scaffolds by upregulation of the BMP-Smads signaling pathway.具有静磁场的聚多巴胺涂层通过上调BMP-Smads信号通路促进人骨源间充质干细胞在三维打印多孔钛支架上的成骨分化。
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本文引用的文献

1
Pyrroloquinoline Quinone Prevents Estrogen Deficiency-Induced Osteoporosis by Inhibiting Oxidative Stress and Osteocyte Senescence.吡咯并喹啉醌通过抑制氧化应激和骨细胞衰老预防雌激素缺乏诱导的骨质疏松症。
Int J Biol Sci. 2019 Jan 1;15(1):58-68. doi: 10.7150/ijbs.25783. eCollection 2019.
2
Lowering iron level protects against bone loss in focally irradiated and contralateral femurs through distinct mechanisms.降低铁水平可通过不同机制保护局部照射和对侧股骨免受骨质流失。
Bone. 2019 Mar;120:50-60. doi: 10.1016/j.bone.2018.10.005. Epub 2018 Oct 7.
3
Treatment With a Soluble Bone Morphogenetic Protein Type 1A Receptor (BMPR1A) Fusion Protein Increases Bone Mass and Bone Formation in Mice Subjected to Hindlimb Unloading.用可溶性1A型骨形态发生蛋白受体(BMPR1A)融合蛋白治疗可增加后肢卸载小鼠的骨量和骨形成。
JBMR Plus. 2017 Oct 9;1(2):66-72. doi: 10.1002/jbm4.10012. eCollection 2017 Oct.
4
Suppression of Sclerostin Alleviates Radiation-Induced Bone Loss by Protecting Bone-Forming Cells and Their Progenitors Through Distinct Mechanisms.抑制硬化蛋白通过不同机制保护成骨细胞及其祖细胞,从而减轻辐射诱导的骨质流失。
J Bone Miner Res. 2017 Feb;32(2):360-372. doi: 10.1002/jbmr.2996. Epub 2016 Oct 20.
5
Mechanical Vibration Mitigates the Decrease of Bone Quantity and Bone Quality of Leptin Receptor-Deficient Db/Db Mice by Promoting Bone Formation and Inhibiting Bone Resorption.机械振动通过促进骨形成和抑制骨吸收减轻瘦素受体缺陷型Db/Db小鼠的骨量减少和骨质量下降。
J Bone Miner Res. 2016 Sep;31(9):1713-24. doi: 10.1002/jbmr.2837. Epub 2016 Jul 27.
6
Risk of second cancers in the era of modern radiation therapy: does the risk/benefit analysis overcome theoretical models?现代放射治疗时代的二次癌症风险:风险/效益分析能否超越理论模型?
Cancer Metastasis Rev. 2016 Jun;35(2):277-88. doi: 10.1007/s10555-016-9616-2.
7
Dual function of Bmpr1a signaling in restricting preosteoblast proliferation and stimulating osteoblast activity in mouse.Bmpr1a信号在限制小鼠前成骨细胞增殖和刺激成骨细胞活性方面的双重作用。
Development. 2016 Jan 15;143(2):339-47. doi: 10.1242/dev.126227. Epub 2015 Dec 10.
8
Targeting Notch, Hedgehog, and Wnt pathways in cancer stem cells: clinical update.靶向癌症干细胞中的Notch、Hedgehog和Wnt信号通路:临床进展
Nat Rev Clin Oncol. 2015 Aug;12(8):445-64. doi: 10.1038/nrclinonc.2015.61. Epub 2015 Apr 7.
9
Single-Limb Irradiation Induces Local and Systemic Bone Loss in a Murine Model.单肢照射在小鼠模型中诱导局部和全身骨质流失。
J Bone Miner Res. 2015 Jul;30(7):1268-79. doi: 10.1002/jbmr.2458. Epub 2015 Jun 8.
10
Wnt signaling and osteoporosis.Wnt信号通路与骨质疏松症。
Maturitas. 2014 Jul;78(3):233-7. doi: 10.1016/j.maturitas.2014.04.013. Epub 2014 Apr 24.

可溶性1A型骨形态发生蛋白受体融合蛋白治疗通过增加骨形成和减少骨吸收减轻小鼠辐射诱导的骨质流失。

Treatment with soluble bone morphogenetic protein type 1A receptor fusion protein alleviates irradiation-induced bone loss in mice through increased bone formation and reduced bone resorption.

作者信息

Wang Shen, Li Jie, Sun Huabei, Sha Liangwei, Guo Yilong, Gu Guanqiu, Mao Jiling, Nie Xinfa, Zhai Ying, Yu Dehong, Zhai Juan, Li Hongnian, Shan Xin, Dai Chengbai, Wu Xiangzhi, He Xiaobo, Xin Li, Liu Jun, Heng Ke, Geng Qinghe

机构信息

Department of Acupuncture, Guangxi Medical University Nanning 530000, China.

Department of Orthopedics, Xuzhou Central Hospital, Southeast University Xuzhou 221006, China.

出版信息

Am J Transl Res. 2020 Mar 15;12(3):743-757. eCollection 2020.

PMID:32269709
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7137047/
Abstract

An increased fracture risk is often observed in cancer patients undergoing radiotherapy (RT), particularly at sites within the field of radiation. Therefore, the development of appropriate therapeutic options to prevent RT-induced bone loss is urgently needed. A soluble form of the BMP receptor type 1A fusion protein (mBMPR1A-mFc) serves as an antagonist to endogenous BMPR1A. Previous studies have shown that mBMPR1A-mFc treatment increases bone mass in both ovary-intact and ovariectomized via promoting osteoblastic bone formation and inhibiting osteoclastic bone resorption. The present study was designed to investigate whether mBMPR1A-mFc administration prevents radiation-induced bone deterioration in mice. We constructed an animal model of radiation-induced osteoporosis by exposure to a 2-Gy dose of X-rays. Micro-CT, histomorphometric, bone-turnover, and mechanical analyses showed that mBMPR1A-mFc administration prevented trabecular microarchitecture deterioration after RT because of a marked increase in bone formation and a decrease in bone resorption. Mechanistic studies indicated that mBMPR1A-mFc administration promoted osteoblastogenesis by activating Wnt/Lrp5/β-catenin signaling while decreasing osteoclastogenesis by inhibiting the RANKL/RANK/OPG pathway. Our novel findings provide solid evidence for the application of mBMPR1A-mFc as a therapeutic treatment for radiation-induced osteoporosis.

摘要

接受放射治疗(RT)的癌症患者通常骨折风险增加,尤其是在放射野内的部位。因此,迫切需要开发合适的治疗方案来预防放疗引起的骨质流失。可溶性1A型骨形态发生蛋白受体融合蛋白(mBMPR1A-mFc)可作为内源性BMPR1A的拮抗剂。先前的研究表明,mBMPR1A-mFc治疗可通过促进成骨细胞骨形成和抑制破骨细胞骨吸收来增加完整卵巢和去卵巢小鼠的骨量。本研究旨在调查给予mBMPR1A-mFc是否能预防小鼠放疗引起的骨质恶化。我们通过暴露于2 Gy剂量的X射线构建了放疗诱导的骨质疏松动物模型。显微CT、组织形态计量学、骨转换和力学分析表明,给予mBMPR1A-mFc可预防放疗后小梁微结构恶化,这是由于骨形成显著增加和骨吸收减少所致。机制研究表明,给予mBMPR1A-mFc通过激活Wnt/Lrp5/β-连环蛋白信号促进成骨细胞生成,同时通过抑制RANKL/RANK/OPG途径减少破骨细胞生成。我们的新发现为应用mBMPR1A-mFc治疗放疗诱导的骨质疏松提供了确凿证据。