Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions
Objective: Left ventricle (LV) transmural gradient in mitochondrial respiration has been recently reported. However, to date, the physiological mechanisms involved in the lower endocardium mitochondrial respiration chain capacity still remain to be determined.Since nitric oxide (NO) synthase express...
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doaj-fd34e71d7d1d45b2b5ffa76a0c35fe2f2020-11-24T23:00:47ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2016-08-01710.3389/fphys.2016.00331208294Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productionsMichel KINDO0Michel KINDO1Sebastien GERELLI2Sebastien GERELLI3Jamal BOUITBIR4Jamal BOUITBIR5Tam HOANG MINH6Tam HOANG MINH7Anne-Laure CHARLES8Anne-Laure CHARLES9Jean-Philippe MAZZUCOTELLI10Joffrey ZOLL11Joffrey ZOLL12Francois PIQUARD13Francois PIQUARD14Bernard GENY15Bernard GENY16Universite de StrasbourgCHRU STRASBOURGUniversite de StrasbourgCHRU STRASBOURGCHRU Strasbourg et EA 3072Universite de StrasbourgUniversite de StrasbourgCHRU STRASBOURGCHRU Strasbourg et EA 3072Universite de StrasbourgCHRU STRASBOURGCHRU Strasbourg et EA 3072Universite de StrasbourgCHRU Strasbourg et EA 3072Universite de StrasbourgCHRU Strasbourg et EA 3072Universite de StrasbourgObjective: Left ventricle (LV) transmural gradient in mitochondrial respiration has been recently reported. However, to date, the physiological mechanisms involved in the lower endocardium mitochondrial respiration chain capacity still remain to be determined.Since nitric oxide (NO) synthase expression in the heart has spatial heterogeneity and might impair mitochondrial function, we investigated a potential association between LV transmural NO and mitochondrial function gradient.Methods: Maximal oxidative capacity (VMax) and relative contributions of the respiratory chain complexes II, III, IV (VSucc) and IV (VTMPD), mitochondrial content (citrate synthase activity), coupling, NO (electron paramagnetic resonance) and reactive oxygen species (ROS) production (H2O2 and dihydroethidium (DHE) staining) were determined in rat sub-endocardium (Endo) and sub-epicardium (Epi). Further, the effect of a direct NO donor (MAHMA NONOate) on maximal mitochondrial respiratory rates (Vmax) was determined.Results: Mitochondrial respiratory chain activities were reduced in the Endo compared with the Epi (-16.92%; P=0.04 for Vmax and -18.73%; P=0.02, for Vsucc, respectively). NO production was 2-fold higher in the Endo compared with the Epi (P=0.002) and interestingly, increasing NO concentration reduced Vmax.Mitochondrial H2O2 and LV ROS productions were significantly increased in Endo compared to Epi, citrate synthase activity and mitochondrial coupling being similar in the two layers.Conclusions: LV mitochondrial respiration transmural gradient is likely related to NO and possibly ROS increased production in the sub-endocardium.http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00331/fullMitochondriaMitochondria, HeartNitric OxideOxidative StressMPTPtransmural |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Michel KINDO Michel KINDO Sebastien GERELLI Sebastien GERELLI Jamal BOUITBIR Jamal BOUITBIR Tam HOANG MINH Tam HOANG MINH Anne-Laure CHARLES Anne-Laure CHARLES Jean-Philippe MAZZUCOTELLI Joffrey ZOLL Joffrey ZOLL Francois PIQUARD Francois PIQUARD Bernard GENY Bernard GENY |
spellingShingle |
Michel KINDO Michel KINDO Sebastien GERELLI Sebastien GERELLI Jamal BOUITBIR Jamal BOUITBIR Tam HOANG MINH Tam HOANG MINH Anne-Laure CHARLES Anne-Laure CHARLES Jean-Philippe MAZZUCOTELLI Joffrey ZOLL Joffrey ZOLL Francois PIQUARD Francois PIQUARD Bernard GENY Bernard GENY Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions Frontiers in Physiology Mitochondria Mitochondria, Heart Nitric Oxide Oxidative Stress MPTP transmural |
author_facet |
Michel KINDO Michel KINDO Sebastien GERELLI Sebastien GERELLI Jamal BOUITBIR Jamal BOUITBIR Tam HOANG MINH Tam HOANG MINH Anne-Laure CHARLES Anne-Laure CHARLES Jean-Philippe MAZZUCOTELLI Joffrey ZOLL Joffrey ZOLL Francois PIQUARD Francois PIQUARD Bernard GENY Bernard GENY |
author_sort |
Michel KINDO |
title |
Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions |
title_short |
Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions |
title_full |
Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions |
title_fullStr |
Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions |
title_full_unstemmed |
Left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions |
title_sort |
left ventricular transmural gradient in mitochondrial respiration is associated with increased sub-endocardium nitric oxide and reactive oxygen species productions |
publisher |
Frontiers Media S.A. |
series |
Frontiers in Physiology |
issn |
1664-042X |
publishDate |
2016-08-01 |
description |
Objective: Left ventricle (LV) transmural gradient in mitochondrial respiration has been recently reported. However, to date, the physiological mechanisms involved in the lower endocardium mitochondrial respiration chain capacity still remain to be determined.Since nitric oxide (NO) synthase expression in the heart has spatial heterogeneity and might impair mitochondrial function, we investigated a potential association between LV transmural NO and mitochondrial function gradient.Methods: Maximal oxidative capacity (VMax) and relative contributions of the respiratory chain complexes II, III, IV (VSucc) and IV (VTMPD), mitochondrial content (citrate synthase activity), coupling, NO (electron paramagnetic resonance) and reactive oxygen species (ROS) production (H2O2 and dihydroethidium (DHE) staining) were determined in rat sub-endocardium (Endo) and sub-epicardium (Epi). Further, the effect of a direct NO donor (MAHMA NONOate) on maximal mitochondrial respiratory rates (Vmax) was determined.Results: Mitochondrial respiratory chain activities were reduced in the Endo compared with the Epi (-16.92%; P=0.04 for Vmax and -18.73%; P=0.02, for Vsucc, respectively). NO production was 2-fold higher in the Endo compared with the Epi (P=0.002) and interestingly, increasing NO concentration reduced Vmax.Mitochondrial H2O2 and LV ROS productions were significantly increased in Endo compared to Epi, citrate synthase activity and mitochondrial coupling being similar in the two layers.Conclusions: LV mitochondrial respiration transmural gradient is likely related to NO and possibly ROS increased production in the sub-endocardium. |
topic |
Mitochondria Mitochondria, Heart Nitric Oxide Oxidative Stress MPTP transmural |
url |
http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00331/full |
work_keys_str_mv |
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