Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart

Ischemia/reperfusion (I/R) of the heart becomes injurious when duration of the ischemic insult exceeds a certain threshold (approximately ≥20 min). Mitochondrial bound hexokinase II (mtHKII) protects against I/R injury, with the amount of mtHKII correlating with injury. Here, we examine whether mtHK...

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Autores principales: Nederlof, Rianne, Gürel-Gurevin, Ebru, Eerbeek, Otto, Xie, Chaoqin, Deijs, G. Sjoerd, Konkel, Moritz, Hu, Jun, Weber, Nina C., Schumacher, Cees A., Baartscheer, Antonius, Mik, Egbert G., Hollmann, Markus W., Akar, Fadi G., Zuurbier, Coert J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Netherlands 2017
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5534207/
https://www.ncbi.nlm.nih.gov/pubmed/28258543
http://dx.doi.org/10.1007/s13105-017-0555-3
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author Nederlof, Rianne
Gürel-Gurevin, Ebru
Eerbeek, Otto
Xie, Chaoqin
Deijs, G. Sjoerd
Konkel, Moritz
Hu, Jun
Weber, Nina C.
Schumacher, Cees A.
Baartscheer, Antonius
Mik, Egbert G.
Hollmann, Markus W.
Akar, Fadi G.
Zuurbier, Coert J.
author_facet Nederlof, Rianne
Gürel-Gurevin, Ebru
Eerbeek, Otto
Xie, Chaoqin
Deijs, G. Sjoerd
Konkel, Moritz
Hu, Jun
Weber, Nina C.
Schumacher, Cees A.
Baartscheer, Antonius
Mik, Egbert G.
Hollmann, Markus W.
Akar, Fadi G.
Zuurbier, Coert J.
author_sort Nederlof, Rianne
collection PubMed
description Ischemia/reperfusion (I/R) of the heart becomes injurious when duration of the ischemic insult exceeds a certain threshold (approximately ≥20 min). Mitochondrial bound hexokinase II (mtHKII) protects against I/R injury, with the amount of mtHKII correlating with injury. Here, we examine whether mtHKII can induce the transition from non-injurious to injurious I/R, by detaching HKII from mitochondria during a non-injurious I/R interval. Additionally, we examine possible underlying mechanisms (increased reactive oxygen species (ROS), increased oxygen consumption (MVO(2)) and decreased cardiac energetics) associated with this transition. Langendorff perfused rat hearts were treated for 20 min with saline, TAT-only or 200 nM TAT-HKII, a peptide that translocates HKII from mitochondria. Then, hearts were exposed to non-injurious 15-min ischemia, followed by 30-min reperfusion. I/R injury was determined by necrosis (LDH release) and cardiac mechanical recovery. ROS were measured by DHE fluorescence. Changes in cardiac respiratory activity (cardiac MVO(2) and efficiency and mitochondrial oxygen tension (mitoPO(2)) using protoporphyrin IX) and cardiac energetics (ATP, PCr, ∆G(ATP)) were determined following peptide treatment. When exposed to 15-min ischemia, control hearts had no necrosis and 85% recovery of function. Conversely, TAT-HKII treatment resulted in significant LDH release and reduced cardiac recovery (25%), indicating injurious I/R. This was associated with increased ROS during ischemia and reperfusion. TAT-HKII treatment reduced MVO(2) and improved energetics (increased PCr) before ischemia, without affecting MVO(2)/RPP ratio or mitoPO(2). In conclusion, a reduction in mtHKII turns non-injurious I/R into injurious I/R. Loss of mtHKII was associated with increased ROS during ischemia and reperfusion, but not with increased MVO(2) or decreased cardiac energetics before damage occurs.
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spelling pubmed-55342072017-08-14 Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart Nederlof, Rianne Gürel-Gurevin, Ebru Eerbeek, Otto Xie, Chaoqin Deijs, G. Sjoerd Konkel, Moritz Hu, Jun Weber, Nina C. Schumacher, Cees A. Baartscheer, Antonius Mik, Egbert G. Hollmann, Markus W. Akar, Fadi G. Zuurbier, Coert J. J Physiol Biochem Original Article Ischemia/reperfusion (I/R) of the heart becomes injurious when duration of the ischemic insult exceeds a certain threshold (approximately ≥20 min). Mitochondrial bound hexokinase II (mtHKII) protects against I/R injury, with the amount of mtHKII correlating with injury. Here, we examine whether mtHKII can induce the transition from non-injurious to injurious I/R, by detaching HKII from mitochondria during a non-injurious I/R interval. Additionally, we examine possible underlying mechanisms (increased reactive oxygen species (ROS), increased oxygen consumption (MVO(2)) and decreased cardiac energetics) associated with this transition. Langendorff perfused rat hearts were treated for 20 min with saline, TAT-only or 200 nM TAT-HKII, a peptide that translocates HKII from mitochondria. Then, hearts were exposed to non-injurious 15-min ischemia, followed by 30-min reperfusion. I/R injury was determined by necrosis (LDH release) and cardiac mechanical recovery. ROS were measured by DHE fluorescence. Changes in cardiac respiratory activity (cardiac MVO(2) and efficiency and mitochondrial oxygen tension (mitoPO(2)) using protoporphyrin IX) and cardiac energetics (ATP, PCr, ∆G(ATP)) were determined following peptide treatment. When exposed to 15-min ischemia, control hearts had no necrosis and 85% recovery of function. Conversely, TAT-HKII treatment resulted in significant LDH release and reduced cardiac recovery (25%), indicating injurious I/R. This was associated with increased ROS during ischemia and reperfusion. TAT-HKII treatment reduced MVO(2) and improved energetics (increased PCr) before ischemia, without affecting MVO(2)/RPP ratio or mitoPO(2). In conclusion, a reduction in mtHKII turns non-injurious I/R into injurious I/R. Loss of mtHKII was associated with increased ROS during ischemia and reperfusion, but not with increased MVO(2) or decreased cardiac energetics before damage occurs. Springer Netherlands 2017-03-03 2016 /pmc/articles/PMC5534207/ /pubmed/28258543 http://dx.doi.org/10.1007/s13105-017-0555-3 Text en © The Author(s) 2017 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Original Article
Nederlof, Rianne
Gürel-Gurevin, Ebru
Eerbeek, Otto
Xie, Chaoqin
Deijs, G. Sjoerd
Konkel, Moritz
Hu, Jun
Weber, Nina C.
Schumacher, Cees A.
Baartscheer, Antonius
Mik, Egbert G.
Hollmann, Markus W.
Akar, Fadi G.
Zuurbier, Coert J.
Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
title Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
title_full Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
title_fullStr Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
title_full_unstemmed Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
title_short Reducing mitochondrial bound hexokinase II mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
title_sort reducing mitochondrial bound hexokinase ii mediates transition from non-injurious into injurious ischemia/reperfusion of the intact heart
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5534207/
https://www.ncbi.nlm.nih.gov/pubmed/28258543
http://dx.doi.org/10.1007/s13105-017-0555-3
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