Exploring the disconnect: mechanisms underpinning the absence of physical function improvement with SGLT2 inhibitors.

IF 2.3

Frontiers in systems biology Pub Date : 2025-05-30 eCollection Date: 2025-01-01 DOI:10.3389/fsysb.2025.1593229

Cian Sutcliffe, Jack A Sargeant, Thomas Yates, Melanie J Davies, Luke A Baker

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Abstract

Current evidence suggests sodium-glucose cotransporter 2 inhibitors (SGLT2i) do not consistently improve patient physical function, despite improvements in clinical symptoms and reductions in both adiposity and body weight. We highlight heterogenous methodologies in SGLT2i physical function trials. We then provide context to these findings by collating new data which describes how reduced glycaemia with SGLT2i alters numerous physiological processes and discuss how these alterations may diminish or prevent expected functional improvements. Alterations include changes to energy homeostasis, pancreatic hormones, muscle metabolism, physical activity, and appetite regulation. Current evidence in humans is limited and the mechanistic interaction between SGLT2i, skeletal muscle, and physical function remains incompletely understood. Future investigations must embed comprehensive molecular techniques within suitably designed clinical trials to determine how skeletal muscle health and patient mobility is influenced by acute and long term SGLT2i prescription.

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探索这种脱节：SGLT2抑制剂缺乏身体功能改善的机制。

目前的证据表明，钠-葡萄糖共转运蛋白2抑制剂（SGLT2i）并不能持续改善患者的身体功能，尽管可以改善临床症状并降低肥胖和体重。我们强调在SGLT2i生理功能试验中的异质方法。然后，我们通过整理描述SGLT2i降低血糖如何改变许多生理过程的新数据，为这些发现提供背景，并讨论这些改变如何减少或阻止预期的功能改善。这些变化包括能量稳态、胰腺激素、肌肉代谢、身体活动和食欲调节的变化。目前在人类中的证据有限，SGLT2i、骨骼肌和身体功能之间的机制相互作用仍不完全清楚。未来的研究必须在适当设计的临床试验中嵌入全面的分子技术，以确定急性和长期SGLT2i处方对骨骼肌健康和患者活动能力的影响。

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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Frontiers in systems biology

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