Rescuing SERCA2 pump deficiency: A novel approach to improve bone mechano-responsiveness in type 2 diabetes

Mechanobiology in Medicine Pub Date : 2024-02-24 DOI:10.1016/j.mbm.2024.100047

Zhifeng Yu , X. Edward Guo

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Abstract

A recent study published in Nature Communications demonstrated that restoring SERCA2 pump deficiency can enhance bone mechano-responsiveness in type 2 diabetes (T2D) by modulating osteocyte calcium dynamics. The findings revealed that in T2D mice, the ability of the bone to respond to mechanical stress is compromised, primarily due to attenuated calcium oscillatory dynamics within osteocytes rather than in osteoblasts or osteoclasts. The underlying mechanism of this reduction in bone mechano-responsiveness in T2D was identified as a specific decrease in osteocytic SERCA2 expression mediated by PPARα. Additionally, mice overexpressing SERCA2 in osteocytes exhibited reduced deterioration of bone mechano-responsiveness induced by T2D. Collectively, this study provides mechanistic insights into T2D-induced deterioration in bone mechano-responsiveness and identifies a promising therapeutic approach to counteract T2D-associated fragility fractures.

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挽救 SERCA2 泵缺陷：改善 2 型糖尿病患者骨骼机械反应性的新方法

最近发表在《自然-通讯》（Nature Communications）上的一项研究表明，恢复 SERCA2 泵的缺乏可通过调节骨细胞的钙动力学提高 2 型糖尿病（T2D）患者骨的机械反应能力。研究结果表明，2型糖尿病小鼠的骨骼对机械应力的反应能力受到影响，这主要是由于骨细胞内而不是成骨细胞或破骨细胞内的钙振荡动态减弱所致。研究发现，T2D 导致骨机械反应性降低的根本机制是 PPARα 介导的骨细胞 SERCA2 表达的特异性降低。此外，在骨细胞中过表达 SERCA2 的小鼠表现出的 T2D 引起的骨机械反应性恶化程度也有所降低。总之，这项研究从机理上揭示了 T2D 诱导的骨机械反应性恶化，并确定了一种很有前景的治疗方法，以应对 T2D 相关的脆性骨折。

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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Mechanobiology in Medicine

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