K+-H+ coupling strategy for immune regulation and bone defect repair

K+-H+ coupling strategy for immune regulation and bone defect repair

Ion homeostasis is crucial for maintaining cell function. Potassium ion (K+) is one of the most important cations in the human body, and it plays key role in maintaining biological activities and cellular functions, including the intricate balance of ion homeostasis that underpins both physiological...

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Main Authors: Lintao Hu, Ke Yang, Yiyu Chen, Haoli Wang, Zezhou Fu, Lejian Jiang, Jiachen Xu, Hongsen Tian, Yiwei Zhu, Zhanqiu Dai, Yijun Li, Xianhua Chen, Xianfeng Lin, Pengfei Chen, Chenhui Gu, Shunwu Fan
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Materials Today Bio
Subjects:
Ion homeostasis
Potassium
Intracellular pH
Immune regulation
Tissue repair
Online Access:http://www.sciencedirect.com/science/article/pii/S2590006425003035
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Summary:Ion homeostasis is crucial for maintaining cell function. Potassium ion (K+) is one of the most important cations in the human body, and it plays key role in maintaining biological activities and cellular functions, including the intricate balance of ion homeostasis that underpins both physiological and pathological processes. This study explored a novel role of K+ ions in regulating immune cell function and promoting tissue repair, especially in macrophage-mediated environments after severe tissue injury. We designed and synthesized a platelet-liposome vesicles loaded KHCO3 (KHCO3@PLV) that precisely delivered potassium bicarbonate to the site of injury extracellular after intravenous injection; then, precise ultrasound-triggered K+ release regulated extracellular K+ concentrations in the local macrophage environment. These effects collectively validate the K+-H+ coupling strategy - a novel mechanism whereby extracellular K+ elevation induces intracellular pH modulation, subsequently activating the AMPK/Nrf2 axis to reprogram macrophage metabolism and facilitating tissue regeneration through resolution of chronic inflammation. The main conclusion of the study is that an elevated extracellular K+ environment, which is an innovative treatment, is a potentially effective strategy for regulating immune responses and promoting repair after severe tissue injury.
ISSN:2590-0064

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