Altered extracellular matrix and mechanotransduction gene expression in rat bone tissue following long-term estrogen deficiency

IF 3.4 Q2 ENDOCRINOLOGY & METABOLISM JBMR Plus Pub Date : 2024-07-24 DOI:10.1093/jbmrpl/ziae098
S. M. Naqvi, L. O’Sullivan, H. Allison, Vincent J Casey, Jessica Schiavi-Tritz, L. M. McNamara
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Abstract

Osteoporosis is primarily associated with bone loss, but changes in bone tissue matrix composition and osteocyte mechanotransduction have also been identified. However, the molecular mechanisms underlying these changes and their relation to bone loss are not fully understood. The objectives of this study were to (1) conduct comprehensive temporal gene expression analyses on cortical bone tissue from ovariectomized rats, with a specific focus on genes known to govern matrix degradation, matrix production, and mechanotransduction, and (2) correlate these findings with bone mass, trabecular microarchitecture and mineral and matrix composition. Microarray data revealed 35 differentially expressed genes in the cortical bone tissue of the ovariectomized cohort. We report that catabolic gene expression abates after the initial accelerated bone loss period, which occurs within the first 4 weeks of estrogen deficiency. However, in long-term estrogen deficiency we report increased expression of genes associated with extracellular matrix deposition (Spp1, COL1A1, COL1A2, OCN) and mechanotransduction (Cx43) compared to age-matched controls and short-term estrogen deficiency. These changes coincided with increased heterogeneity of mineral-matrix ratio and collagen maturity, to which extracellular matrix markers COL1A1 and COL1A2 were positively correlated. Interestingly, mineral heterogeneity and collagen maturity exhibited a negative correlation with PHEX and IFT88, associated with mechanosensory cilia formation and Hedgehog (Hh) signaling. This study provides the first insight into the underlying mechanisms governing secondary mineralisation and heterogeneity of matrix composition of bone tissue in long-term estrogen deficiency. We propose that altered mechanobiological responses in long-term estrogen deficiency may play a role in these changes.
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长期缺乏雌激素后大鼠骨组织细胞外基质和机械传导基因表达的改变
骨质疏松症主要与骨质流失有关,但也发现骨组织基质成分和骨细胞机械传导发生了变化。然而,这些变化的分子机制及其与骨质流失的关系尚不完全清楚。本研究的目的是:(1) 对卵巢切除大鼠的皮质骨组织进行全面的时序基因表达分析,特别关注已知控制基质降解、基质生成和机械传导的基因;(2) 将这些发现与骨量、骨小梁微结构以及矿物质和基质组成相关联。微阵列数据显示,卵巢切除人群的皮质骨组织中有 35 个不同表达的基因。我们报告称,在雌激素缺乏的最初 4 周内,骨质流失加速期结束后,分解代谢基因表达减弱。然而,与年龄匹配的对照组和短期雌激素缺乏症相比,我们发现在长期雌激素缺乏症中,与细胞外基质沉积(Spp1、COL1A1、COL1A2、OCN)和机械传导(Cx43)相关的基因表达增加。这些变化与矿物质-基质比率和胶原蛋白成熟度的异质性增加相吻合,而细胞外基质标记物 COL1A1 和 COL1A2 与之呈正相关。有趣的是,矿物质异质性和胶原蛋白成熟度与 PHEX 和 IFT88 呈负相关,而 PHEX 和 IFT88 与机械感觉纤毛形成和 Hedgehog(Hh)信号传导有关。这项研究首次揭示了长期雌激素缺乏时骨组织二次矿化和基质组成异质性的内在机制。我们认为,长期雌激素缺乏时机械生物学反应的改变可能在这些变化中起了作用。
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来源期刊
JBMR Plus
JBMR Plus Medicine-Orthopedics and Sports Medicine
CiteScore
5.80
自引率
2.60%
发文量
103
审稿时长
8 weeks
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