Loss of the auxiliary α2δ1 voltage sensitive Calcium Channel subunit impairs bone formation and anabolic responses to mechanical loading

IF 3.4 Q2 ENDOCRINOLOGY & METABOLISM
JBMR Plus Pub Date : 2024-01-10 DOI:10.1093/jbmrpl/ziad008
Madison M Kelly, Karan Sharma, Christian S. Wright, Xin Yi, Perla C. Reyes Fernandez, Aaron T Gegg, Taylor A Gorrell, Megan L. Noonan, A. Baghdady, Jacob A Sieger, Annette C Dolphin, Stuart J Warden, Padmini J. Deosthale, Lilian I Plotkin, Uma Sankar, J. Hum, A. Robling, M. Farach-Carson, William R. Thompson
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Abstract

Voltage sensitive calcium channels (VSCCs) influence bone structure and function, including anabolic responses to mechanical loading. While the pore-forming (α1) subunit of VSCCs allows Ca2+ influx, auxiliary subunits regulate the biophysical properties of the pore. The α2δ1 subunit influences gating kinetics of the α1 pore and enables mechanically induced signaling in osteocytes; however, the skeletal function of α2δ1 in vivo remains unknown. In this work, we examined the skeletal consequences of deleting Cacna2d1, the gene encoding α2δ1. Dual energy X-ray absorptiometry (DEXA) and microcomputed tomography (μCT) imaging demonstrated that deletion of α2δ1 diminished bone mineral content and density in both male and female C57BL/6 mice. Structural differences manifested in both trabecular and cortical bone for males, while the absence of α2δ1 affected only cortical bone in female mice. Deletion of α2δ1 impaired skeletal mechanical properties in both sexes, as measured by three-point bending to failure. While no changes in osteoblast number or activity were found for either sex, male mice displayed a significant increase in osteoclast number, accompanied by increased eroded bone surface and upregulation of genes that regulate osteoclast differentiation. Deletion of α2δ1 also rendered the skeleton insensitive to exogenous mechanical loading in males. While previous work demonstrates that VSCCs are essential for anabolic responses to mechanical loading, the mechanism by which these channels sense and respond to force remained unclear. Our data demonstrate that the α2δ1 auxiliary VSCC subunit functions to maintain baseline bone mass and strength through regulation of osteoclast activity, and also provides skeletal mechanotransduction in male mice. These data reveal a molecular player in our understanding of the mechanisms by which VSCCs influence skeletal adaptation.
辅助α2δ1电压敏感钙通道亚基的缺失会损害骨形成和对机械负荷的合成代谢反应
电压敏感钙通道(VSCC)影响骨的结构和功能,包括对机械负荷的合成代谢反应。电压敏感钙通道的孔形成亚基(α1)允许 Ca2+ 流入,而辅助亚基则调节孔的生物物理特性。α2δ1亚基影响α1孔的门控动力学,并使机械诱导的信号传导在骨细胞中得以实现;然而,α2δ1在体内的骨骼功能仍然未知。在这项工作中,我们研究了删除编码α2δ1的基因Cacna2d1对骨骼的影响。双能 X 射线吸收测定(DEXA)和微计算机断层扫描(μCT)成像显示,缺失α2δ1 会降低雄性和雌性 C57BL/6 小鼠的骨矿物质含量和骨密度。结构差异表现在雄性小鼠的骨小梁和皮质骨上,而缺失α2δ1只影响雌性小鼠的皮质骨。缺失α2δ1会损害雌雄小鼠的骨骼机械性能,以三点弯曲至失效来衡量。虽然雌雄小鼠的成骨细胞数量或活性均未发生变化,但雄性小鼠的破骨细胞数量显著增加,同时侵蚀的骨表面增加,调控破骨细胞分化的基因上调。α2δ1的缺失也使雄性小鼠的骨骼对外源机械负荷不敏感。尽管之前的研究表明,VSCCs 对于机械负荷下的合成代谢反应至关重要,但这些通道感知和响应力的机制仍不清楚。我们的数据表明,α2δ1 辅助 VSCC 亚基通过调节破骨细胞的活性来维持基线骨量和骨强度,同时还提供雄性小鼠骨骼的机械传导功能。这些数据揭示了我们对 VSCC 影响骨骼适应机制的理解中的一个分子角色。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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