Therapeutic effect of bloodletting on bone deterioration induced by hypobaric hypoxia in young rats

IF 3.5 2区 医学 Q2 ENDOCRINOLOGY & METABOLISM
Bone Pub Date : 2024-10-10 DOI:10.1016/j.bone.2024.117281
Doudou Hao , Suyuan Wang , Lin Feng , Suying Zhu , Yang Zhong , Fengying Zhang , Yanli Chen , Yongxing Fu , Zhiyou Shi , Feng Tang , Yunhong Wu
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Abstract

Objectives

High-altitude regions, comprising hypoxic condition, are associated with different altitude-induced pathologies, including a reduction in bone density. Elucidating the mechanisms underlying bone degradation in such environments and developing targeted interventions and therapeutics is important. Bloodletting therapy has promising clinical applications, but its effects on the skeletal system and bone homeostasis are not well understood. The aim of this study was to investigate the effects of a hypobaric hypoxia environment on specific femoral morphological and structural properties, including the bone volume, cortical thickness, and trabecular microarchitecture, in juvenile Sprague–Dawley (SD) rats, and to explore the potential modulating effects of a bloodletting intervention on these parameters.

Methods

Male SD rats, 6 weeks of age, were subjected to a simulated hypobaric hypoxia environment, replicating a 5000-m altitude, for 12 weeks. For the bloodletting intervention group, rats were subjected to a weekly 500 μL tail vein blood withdrawal. Micro-CT technology, hematoxylin and eosin staining, and tartrate-resistant acid phosphatase staining were employed to comprehensively assess the femoral microstructure, tissue architecture, and cellular morphology. Additionally, immunofluorescence analysis was conducted to quantify the expression of key proteins, and transcriptome analysis was performed to identify differentially expressed genes.

Results

Exposing rats to hypobaric hypoxia led to a significant reduction in the bone mineral content, trabecular bone number, and cortical bone thickness, suggesting a deterioration of bone microstructure. Additionally, the hypoxic environment upregulated the expression of RANKL and HIF-1α, while downregulating RUNX2 expression. Notably, although bloodletting intervention did not significantly reverse these bone structural changes, transcriptome analysis revealed its regulatory influence on the expression of key genes, particularly Mmp2, Fosl2, and URS0000B2A65A, which are implicated in pathways governing the hypoxic response, osteoclast differentiation, and PI3K–Akt signaling.

Conclusion

This study highlights the detrimental effect of hypobaric hypoxia on the bone microstructure of juvenile rats and underscores the therapeutic potential of bloodletting to ameliorate this condition. Additionally, our study on the regulatory mechanisms mediating the effects of bloodletting on gene expression offers new perspectives on bone alterations. It suggests promising avenues for the development of novel preventative measures and targeted therapies to address the challenges posed by related bone disorders.

Abstract Image

放血对低压缺氧引起的幼鼠骨骼退化的治疗作用
目的:高海拔地区包括缺氧条件,与不同海拔引起的病症有关,包括骨密度降低。阐明这种环境下骨质退化的内在机制并开发有针对性的干预措施和疗法非常重要。放血疗法具有良好的临床应用前景,但其对骨骼系统和骨平衡的影响尚未得到充分了解。本研究旨在探讨低压缺氧环境对幼年Sprague-Dawley(SD)大鼠特定股骨形态和结构特性(包括骨量、皮质厚度和骨小梁微结构)的影响,并探索放血干预对这些参数的潜在调节作用:方法:将6周大的雄性SD大鼠置于模拟的低压缺氧环境中,模拟海拔5000米的环境,为期12周。放血干预组大鼠每周接受一次 500 μL 尾静脉抽血。采用显微 CT 技术、苏木精和伊红染色法以及耐酒石酸磷酸酶染色法来全面评估股骨的微观结构、组织结构和细胞形态。此外,还进行了免疫荧光分析以量化关键蛋白的表达,并进行了转录组分析以确定不同表达的基因:结果:大鼠暴露于低压缺氧环境中会导致骨矿物质含量、骨小梁数量和皮质骨厚度显著减少,这表明骨的微观结构发生了退化。此外,低氧环境会上调 RANKL 和 HIF-1α 的表达,同时下调 RUNX2。值得注意的是,虽然放血干预并没有明显逆转这些骨结构变化,但转录组分析显示,放血干预对关键基因的表达具有调控作用,尤其是Mmp2、Fosl2和URS0000B2A65A,这些基因与缺氧反应、破骨细胞分化和PI3K-Akt信号通路有关:本研究强调了低压缺氧对幼年大鼠骨微结构的有害影响,并强调了放血对改善这种状况的治疗潜力。此外,我们关于放血对基因表达影响的调控机制的研究为骨骼改变提供了新的视角。它为开发新型预防措施和靶向疗法以应对相关骨骼疾病带来的挑战提供了很好的途径。
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来源期刊
Bone
Bone 医学-内分泌学与代谢
CiteScore
8.90
自引率
4.90%
发文量
264
审稿时长
30 days
期刊介绍: BONE is an interdisciplinary forum for the rapid publication of original articles and reviews on basic, translational, and clinical aspects of bone and mineral metabolism. The Journal also encourages submissions related to interactions of bone with other organ systems, including cartilage, endocrine, muscle, fat, neural, vascular, gastrointestinal, hematopoietic, and immune systems. Particular attention is placed on the application of experimental studies to clinical practice.
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