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Suppression of Superoxide-Hydrogen Peroxide Production at Site IQ of Mitochondrial Complex I Attenuates Myocardial Stunning and Improves Postcardiac Arrest Outcomes
- Source :
- Critical Care Medicine
- Publication Year :
- 2020
- Publisher :
- Ovid Technologies (Wolters Kluwer Health), 2020.
-
Abstract
- Supplemental Digital Content is available in the text.<br />Objectives: Cardiogenic shock following cardiopulmonary resuscitation for sudden cardiac arrest is common, occurring even in the absence of acute coronary artery occlusion, and contributes to high rates of postcardiopulmonary resuscitation mortality. The pathophysiology of this shock is unclear, and effective therapies for improving clinical outcomes are lacking. Design: Laboratory investigation. Setting: University laboratory. Subjects: C57BL/6 adult female mice. Interventions: Anesthetized and ventilated adult female C57BL/6 wild-type mice underwent a 4, 8, 12, or 16-minute potassium chloride-induced cardiac arrest followed by 90 seconds of cardiopulmonary resuscitation. Mice were then blindly randomized to a single IV injection of vehicle (phosphate-buffered saline) or suppressor of site IQ electron leak, an inhibitor of superoxide production by complex I of the mitochondrial electron transport chain. Suppressor of site IQ electron leak and vehicle were administered during cardiopulmonary resuscitation. Measurements and Main Results: Using a murine model of asystolic cardiac arrest, we discovered that duration of cardiac arrest prior to cardiopulmonary resuscitation determined postresuscitation success rates, degree of neurologic injury, and severity of myocardial dysfunction. Post-cardiopulmonary resuscitation cardiac dysfunction was not associated with myocardial necrosis, apoptosis, inflammation, or mitochondrial permeability transition pore opening. Furthermore, left ventricular function recovered within 72 hours of cardiopulmonary resuscitation, indicative of myocardial stunning. Postcardiopulmonary resuscitation, the myocardium exhibited increased reactive oxygen species and evidence of mitochondrial injury, specifically reperfusion-induced reactive oxygen species generation at electron transport chain complex I. Suppressor of site IQ electron leak, which inhibits complex I-dependent reactive oxygen species generation by suppression of site IQ electron leak, decreased myocardial reactive oxygen species generation and improved postcardiopulmonary resuscitation myocardial function, neurologic outcomes, and survival. Conclusions: The severity of cardiogenic shock following asystolic cardiac arrest is dependent on the length of cardiac arrest prior to cardiopulmonary resuscitation and is mediated by myocardial stunning resulting from mitochondrial electron transport chain complex I dysfunction. A novel pharmacologic agent targeting this mechanism, suppressor of site IQ electron leak, represents a potential, practical therapy for improving sudden cardiac arrest resuscitation outcomes.
- Subjects :
- medicine.medical_specialty
Resuscitation
medicine.medical_treatment
Critical Care and Intensive Care Medicine
cardiopulmonary resuscitation
Mice
Random Allocation
03 medical and health sciences
Online Laboratory Investigations
0302 clinical medicine
Superoxides
Internal medicine
Animals
Medicine
Cardiopulmonary resuscitation
reactive oxygen species
Myocardial Stunning
chemistry.chemical_classification
Reactive oxygen species
Myocardial stunning
Electron Transport Complex I
business.industry
Cardiogenic shock
030208 emergency & critical care medicine
Sudden cardiac arrest
Hydrogen Peroxide
medicine.disease
oxygen consumption
Heart Arrest
Mitochondria
3. Good health
Mice, Inbred C57BL
030228 respiratory system
chemistry
Mitochondrial permeability transition pore
Shock (circulatory)
ComputingMethodologies_DOCUMENTANDTEXTPROCESSING
Cardiology
Female
medicine.symptom
business
metabolism
Subjects
Details
- ISSN :
- 00903493
- Volume :
- 48
- Database :
- OpenAIRE
- Journal :
- Critical Care Medicine
- Accession number :
- edsair.doi.dedup.....4adcd543bff2614a8440073252b0d38f