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Sodium disrupts mitochondrial energy metabolism to execute NECSO
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Journal Article
Sodium disrupts mitochondrial energy metabolism to execute NECSO
2025
Overview
Na
+
influx is a critical pathological event in various conditions such as ischemia, hyperosmotic stress, and organ failure. Although persistent activation of the transient receptor potential cation channel subfamily M member 4 (TRPM4) by chemical agonist Necrocide 1 (NC1) triggers necrosis by sodium overload (NECSO), the underlying mechanism remains to be elucidated. Here, we demonstrate that Na
+
influx promotes necrosis by suppressing mitochondrial energy production. TRPM4-mediated Na⁺ entry elevates mitochondrial Na⁺ and reduces mitochondrial Ca²⁺ via NCLX, inhibiting oxidative phosphorylation and the Trichloroacetic acid (TCA) cycle, leading to severe energy depletion. This results in Na/K-ATPase inactivation, loss of ion gradients, cellular swelling and lysis. Our study reveals how sodium overload in NECSO disrupts mitochondrial metabolism to cause energy failure, potentially underlying diseases with elevated Na⁺.
This study elucidates the underlying cell death mechanism of NECSO (Necrosis by sodium overload). TRPM4-mediated sodium influx activates mitochondrial sodium–calcium exchange, which impairs mitochondrial energy production. This energy deficit inactivates the Na/K-ATPase, ultimately leading to cellular swelling and lysis.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
/ 14
/ 14/19
/ 14/28
/ 14/63
/ 38/1
/ 38/89
/ 49/31
/ Animals
/ Citric Acid Cycle - drug effects
/ Energy Metabolism - drug effects
/ Humanities and Social Sciences
/ Humans
/ Ischemia
/ Lysis
/ Mice
/ Necrosis
/ Oxidative Phosphorylation - drug effects
/ Science
/ Sodium
/ Sodium-Potassium-Exchanging ATPase - metabolism
/ Swelling
