Mild intracellular acidification by dexamethasone attenuates mitochondrial dysfunction in a human inflammatory proximal tubule epithelial cell model
Publication year
2017Source
Scientific Reports, 7, (2017), article 10623ISSN
Publication type
Article / Letter to editor
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Organization
Pharmacology-Toxicology
Laboratory Medicine
Nephrology
Paediatrics
Paediatrics - OUD tm 2017
Radboudumc Extern
Journal title
Scientific Reports
Volume
vol. 7
Subject
Radboudumc 11: Renal disorders RIMLS: Radboud Institute for Molecular Life Sciences; Laboratory Medicine - Radboud University Medical Center; Pharmacology-Toxicology - Radboud University Medical Center; Radboud University Medical CenterAbstract
Septic acute kidney injury (AKI) associates with poor survival rates and often requires renal replacement therapy. Glucocorticoids may pose renal protective effects in sepsis via stimulation of mitochondrial function. Therefore, we studied the mitochondrial effects of dexamethasone in an experimental inflammatory proximal tubule epithelial cell model. Treatment of human proximal tubule epithelial cells with lipopolysaccharide (LPS) closely resembles pathophysiological processes during endotoxaemia, and led to increased cytokine excretion rates and cellular reactive oxygen species levels, combined with a reduced mitochondrial membrane potential and respiratory capacity. These effects were attenuated by dexamethasone. Dexamethasone specifically increased the expression and activity of mitochondrial complex V (CV), which could not be explained by an increase in mitochondrial mass. Finally, we demonstrated that dexamethasone acidified the intracellular milieu and consequently reversed LPS-induced alkalisation, leading to restoration of the mitochondrial function. This acidification also provides an explanation for the increase in CV expression, which is expected to compensate for the inhibitory effect of the acidified environment on this complex. Besides the mechanistic insights into the beneficial effects of dexamethasone during renal cellular inflammation, our work also supports a key role for mitochondria in this process and, hence, provides novel therapeutic avenues for the treatment of AKI.
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- Academic publications [242767]
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- Faculty of Medical Sciences [92292]
- Open Access publications [104191]
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