Fracture-Induced Immunological Cascades Trigger Rapid Systemic Bone Loss via Osteocyte-Regulated Osteoclastogenesis.

IF 4.4 Q1 IMMUNOLOGY

ImmunoTargets and Therapy Pub Date : 2025-08-21 eCollection Date: 2025-01-01 DOI:10.2147/ITT.S533552

Lipeng Sun, Shouxiang Kuang, Yang Li, Guodong Wang, Jianmin Sun, Fengge Zhou, Chenggui Zhang

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引用次数: 0

Abstract

Background: Rapid bone loss after fracture elevates the risk of subsequent fractures, but the mechanisms remain unclear. IL-6, a key cytokine involved in fracture healing, is markedly upregulated during the immune response after fracture; however, its role in systemic skeletal deterioration remains poorly defined.

Methods: In this study, we employed label-free proteomics to identify candidate mediators in vertebral samples following fracture. Next, osteocyte siRNA knockdown and Stattic (STAT3 phosphorylation inhibitor) inhibition were used to investigate IL-6 related signaling pathways. Subsequently, indirect co-cultures of osteocyte with osteoclast or osteoblast were used to evaluate the effects of the IL-6 pathway on bone resorption and formation. Furthermore, fractured mice were treated with MR16-1 (monoclonal anti-mouse IL-6 receptor antibody) or Stattic. Then, trabecular and cortical bone in vertebrae and femur were evaluated at 4, 14, and 28 days post-fracture, including histological analysis of p-STAT3⁺ osteocyte, RANKL expression, and bone formation/resorption markers.

Results: In vitro, IL-6 dose-dependently elevated RANKL and p-STAT3 levels in osteocyte and promoted osteoclast activity in co-culture. These effects were suppressed by Stattic and replicated by STAT3 knockdown. In contrast, co-culture of osteocyte with osteoblast exhibited no significant alterations in osteogenic marker expression upon IL-6 exposure, suggesting negligible effects on osteoblast activity. In vivo, MR16-1 reduced trabecular bone loss in the vertebrae and femur after fracture. It also diminished p-STAT3⁺ osteocyte, reduced RANKL expression, and suppressed osteoclast activity without impairing osteoblastogenesis. And Stattic produced a comparable reduction in systemic bone loss and osteoclast overactivation.

Conclusion: This study demonstrates that IL-6 drives osteoclast-mediated bone resorption via STAT3-dependent RANKL induction in osteocyte, thereby aggravating post-fracture systemic bone loss. And the findings highlight that modulating the IL-6/STAT3/RANKL axis and targeting osteocyte function may offer a promising therapeutic approach for preventing bone loss and minimizing the risk of fracture recurrence.

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骨折诱导的免疫级联反应通过骨细胞调节的破骨细胞发生引发快速的全身性骨丢失。

背景：骨折后快速骨质流失会增加后续骨折的风险，但其机制尚不清楚。IL-6是参与骨折愈合的关键细胞因子，在骨折后的免疫反应中显著上调；然而，其在系统性骨骼退化中的作用仍不明确。方法：在本研究中，我们采用无标记蛋白质组学来鉴定骨折后椎体样本中的候选介质。接下来，使用骨细胞siRNA敲除和STAT3磷酸化抑制剂（STAT3磷酸化抑制剂）抑制来研究IL-6相关的信号通路。随后，利用骨细胞与破骨细胞或成骨细胞的间接共培养来评估IL-6途径对骨吸收和形成的影响。此外，用MR16-1（单克隆抗小鼠IL-6受体抗体）或Stattic治疗骨折小鼠。然后，在骨折后4、14和28天对椎骨和股骨的骨小梁和皮质骨进行评估，包括p-STAT3+骨细胞、RANKL表达和骨形成/吸收标志物的组织学分析。结果：IL-6在体外剂量依赖性地升高骨细胞中RANKL和p-STAT3水平，促进共培养的破骨细胞活性。这些作用被STAT3抑制并被STAT3敲低复制。相比之下，骨细胞与成骨细胞共培养时，IL-6暴露后成骨标志物的表达没有明显变化，表明对成骨细胞活性的影响可以忽略不计。在体内，MR16-1减少骨折后椎骨和股骨的骨小梁丢失。它还能降低p-STAT3+骨细胞，降低RANKL表达，抑制破骨细胞活性，但不影响成骨细胞的形成。static在系统性骨质流失和破骨细胞过度激活方面产生了相当的减少。结论：本研究表明IL-6通过stat3依赖性的骨细胞RANKL诱导，驱动破骨细胞介导的骨吸收，从而加重骨折后全身性骨丢失。研究结果强调，调节IL-6/STAT3/RANKL轴并靶向骨细胞功能可能为预防骨质流失和降低骨折复发风险提供一种有希望的治疗方法。

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来源期刊

ImmunoTargets and Therapy IMMUNOLOGY-

CiteScore

16.50

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： Immuno Targets and Therapy is an international, peer-reviewed open access journal focusing on the immunological basis of diseases, potential targets for immune based therapy and treatment protocols employed to improve patient management. Basic immunology and physiology of the immune system in health, and disease will be also covered.In addition, the journal will focus on the impact of management programs and new therapeutic agents and protocols on patient perspectives such as quality of life, adherence and satisfaction.