Doerrier 2016 Mitochondrion: Difference between revisions
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|year=2016 | |year=2016 | ||
|journal=Mitochondrion | |journal=Mitochondrion | ||
|abstract=Analysis of mitochondrial function is crucial to understand their involvement in a given disease. High-resolution respirometry of permeabilized myocardial fibers in septic mice allows the evaluation of the bioenergetic system, maintaining mitochondrial ultrastructure and intracellular interactions, which are critical for an adequate functionality. OXPHOS and electron transport system ( | |abstract=Analysis of mitochondrial function is crucial to understand their involvement in a given disease. High-resolution respirometry of permeabilized myocardial fibers in septic mice allows the evaluation of the bioenergetic system, maintaining mitochondrial ultrastructure and intracellular interactions, which are critical for an adequate functionality. OXPHOS and electron transport system (ET-pathway) capacities were assessed using different substrate combinations. Our findings show severe septic-dependent impairment in OXPHOS and ET capacities with mitochondrial uncoupling at early and late phases of sepsis. Moreover, sepsis triggers complex III (CIII)-linked alterations in supercomplexes structure, and loss of mitochondrial density. In these conditions, melatonin administration to septic mice prevented sepsis-dependent mitochondrial injury in mitochondrial respiration. Likewise, melatonin improved cytochrome b content and ameliorated the assembly of CIII in supercomplexes. These results support the use of permeabilized fibers to identify properly respiratory deficits and specific melatonin effects in sepsis. | ||
|keywords=Permeabilized heart fiber, Inflammation, Mitochondrial respiration, Mitochondrial supercomplex, Melatonin | |keywords=Permeabilized heart fiber, Inflammation, Mitochondrial respiration, Mitochondrial supercomplex, Melatonin | ||
|mipnetlab=ES Granada Acuna-Castroviejo D | |mipnetlab=ES Granada Acuna-Castroviejo D | ||
}} | }} | ||
{{Labeling | {{Labeling | ||
|area=Respiration, mt-Biogenesis;mt-density | |area=Respiration, mt-Biogenesis;mt-density, Gender | ||
|diseases=Sepsis | |||
|organism=Mouse | |organism=Mouse | ||
|tissues=Heart | |tissues=Heart | ||
|preparations=Permeabilized tissue | |preparations=Permeabilized tissue | ||
|enzymes=Complex IV;cytochrome c oxidase, Supercomplex | |enzymes=Complex IV;cytochrome c oxidase, Supercomplex | ||
|couplingstates=LEAK, OXPHOS, ET | |||
|couplingstates=LEAK, OXPHOS, | |pathways=N, S, NS, ROX | ||
| | |instruments=Oxygraph-2k | ||
|instruments=Oxygraph-2k | |additional=2016-01, Melatonin, | ||
|additional=2016-01 | |||
}} | }} |
Latest revision as of 04:35, 19 July 2022
Doerrier C, GarcΓa JA, Volt H, DΓaz-Casado ME, Luna-SΓ‘nchez M, FernΓ‘ndez-Gil B, Escames G, LΓ³pez LC, AcuΓ±a-Castroviejo D (2016) Permeabilized myocardial fibers as model to detect mitochondrial dysfunction during sepsis and melatonin effects without disruption of mitochondrial network. Mitochondrion 27:56-63. |
Doerrier C, Garcia JA, Volt H, Diaz-Casado ME, Luna-Sanchez M, Fernandez-Gil B, Escames G, Lopez LC, Acuna-Castroviejo D (2016) Mitochondrion
Abstract: Analysis of mitochondrial function is crucial to understand their involvement in a given disease. High-resolution respirometry of permeabilized myocardial fibers in septic mice allows the evaluation of the bioenergetic system, maintaining mitochondrial ultrastructure and intracellular interactions, which are critical for an adequate functionality. OXPHOS and electron transport system (ET-pathway) capacities were assessed using different substrate combinations. Our findings show severe septic-dependent impairment in OXPHOS and ET capacities with mitochondrial uncoupling at early and late phases of sepsis. Moreover, sepsis triggers complex III (CIII)-linked alterations in supercomplexes structure, and loss of mitochondrial density. In these conditions, melatonin administration to septic mice prevented sepsis-dependent mitochondrial injury in mitochondrial respiration. Likewise, melatonin improved cytochrome b content and ameliorated the assembly of CIII in supercomplexes. These results support the use of permeabilized fibers to identify properly respiratory deficits and specific melatonin effects in sepsis. β’ Keywords: Permeabilized heart fiber, Inflammation, Mitochondrial respiration, Mitochondrial supercomplex, Melatonin
β’ O2k-Network Lab: ES Granada Acuna-Castroviejo D
Labels: MiParea: Respiration, mt-Biogenesis;mt-density, Gender
Pathology: Sepsis
Organism: Mouse Tissue;cell: Heart Preparation: Permeabilized tissue Enzyme: Complex IV;cytochrome c oxidase, Supercomplex
Coupling state: LEAK, OXPHOS, ET Pathway: N, S, NS, ROX HRR: Oxygraph-2k
2016-01, Melatonin