Phosphate Increases Mitochondrial Reactive Oxygen Species Release
- 1 October 2004
- journal article
- Published by Taylor & Francis Ltd in Free Radical Research
- Vol. 38 (10), 1113-1118
- https://doi.org/10.1080/10715760400009258
Abstract
The effects of inorganic phosphate (Pi), the main intracellular membrane permeable anion capable of altering mitochondrial pH gradients (Delta pH), were measured on mitochondrial H2O2 release. As expected, Pi decreased Delta pH and increased the electric membrane potential (Delta Psi). Mitochondrial H2O2 release was stimulated by Pi and also by its structural analogue arsenate. However, acetate, another membrane-permeable anion, did not stimulate mitochondrial H2O2 release. The stimulatory effect promoted by Pi was prevented by CCCP, which decreases transport of Pi across the inner mitochondrial membrane, indicating that Pi must be in the mitochondrial matrix to stimulate H2O2 release. In conclusion, we found that Pi and arsenate stimulate mitochondrial reactive oxygen release, an effect that may contribute towards oxidative stress under conditions such as ischemia/reperfusion, in which high-energy phosphate bonds are hydrolyzed.Keywords
This publication has 23 references indexed in Scilit:
- Mitochondrial formation of reactive oxygen speciesThe Journal of Physiology, 2003
- Mitochondrial Mechanisms of Neural Cell Death and Neuroprotective Interventions in Parkinson's DiseaseAnnals of the New York Academy of Sciences, 2003
- Mitochondrial ATP‐sensitive K+ channel opening decreases reactive oxygen species generationFEBS Letters, 2003
- The Mitochondrial Production of Reactive Oxygen Species: Mechanisms and Implications in Human PathologyIUBMB Life, 2001
- Mitochondrial free radical generation, oxidative stress, and agingFree Radical Biology & Medicine, 2000
- Mitochondrial damage induced by conditions of oxidative stressFree Radical Biology & Medicine, 1999
- Mitochondrial Oxygen Radical Generation and Leak: Sites of Production in States 4 and 3, Organ Specificity, and Relation to Aging and LongevityJournal of Bioenergetics and Biomembranes, 1999
- Fatty acids as natural uncouplers preventing generation of O⋅−2 and H2O2 by mitochondria in the resting stateFEBS Letters, 1998
- Reactive Oxygen Species Released from Mitochondria during Brief Hypoxia Induce Preconditioning in CardiomyocytesPublished by Elsevier BV ,1998
- High protonic potential actuates a mechanism of production of reactive oxygen species in mitochondriaFEBS Letters, 1997