P-L control efficiency

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P-L control efficiency

Description

P-L control efficiency The P-L control efficiency (P-L flux control efficiency) is defined as jP-L = (P-L)/P = 1-L/P. OXPHOS capacity corrected for LEAK respiration is the P-L net OXPHOS capacity, P-L. The P-L control efficiency is the ratio of net to total OXPHOS capacity, which is equal to the biochemical E-L coupling efficiency, if P=E. jP-L = 1.0 for a fully coupled system (when RCR approaches infinity); jP-L = 0.0 (RCR=1) for a system with zero respiratory phosphorylation capacity (P-L=0) or zero E-L coupling efficiency (E-L=0 when L=P=E). If State 3 is measured at saturating concentrations of ADP and Pi (State 3 = P), then the respiratory acceptor control ratio RCR equals P/L. Under these conditions, the respiratory control ratio and P-L control efficiency are related by a hyperbolic function, jP-L = 1-RCR-1. » MiPNet article

Abbreviation: jP-L

Reference: Gnaiger 2015 Scand J Med Sci Sports, Gnaiger 2020 BEC MitoPathways

Cell ergometry: OXPHOS-control and ET-coupling efficiency

Publications in the MiPMap
Gnaiger E (2020) Cell ergometry: OXPHOS-control and ET-coupling efficiency. Mitochondr Physiol Network (2015-01-18) last update 2020-11-12.


Oroboros (2020) MiPNet

Abstract: The respiratory acceptor control ratio RCR has conceptual limitations that lead to statistical bias, which are resolved by expressing biochemical coupling efficiency in terms of E-L coupling efficiency. The arithmetic mean calculated for RCR values yields a bias of overestimation due to nonsymmetrical variance (Fig. 2). The concept of coupling efficiency is explained in the context of cell ergometry.


O2k-Network Lab: AT Innsbruck Gnaiger E

From spiroergometry to OXPHOS control efficiency

Analogous to ergometric measurement of VO2max or VO2peak on a cycle or treadmill (spiroergometry), cell ergometry is based on OXPHOS analysis to determine OXPHOS capacity, JO2P=P [pmol O2·s-1·mg-1], at the cellular and mitochondrial level. VO2peak and JO2P provide reference values for a subject’s or a cell’s aerobic or mitochondrial fitness. Aerobic catabolic flux (1 mL O2·min-1·kg-1 = 0.744 µmol·s-1·kg-1) is multiplied by the corresponding Gibbs forcekFO2 = ∂G/∂kξO2; typically -470 kJ/mol or -0.47 J/µmol O2) to obtain the mass-specific aerobic input power [W·kg-1]. The corresponding mechanical output power Ppeak [W·kg-1] in cycle ergometry results in ergodynamic efficiencies [1] of about 0.25,
εpeak  =  Ppeak/-(JO2peak·ΔkFO2)  =  (Ppeak/JO2peak) / -ΔkFO2                 (1)

The apparent E-P excess capacity is available for coupled processes other than phosphorylation P».
In OXPHOS analysis the output power is mitochondrial ATP production, J=P, times the Gibbs force of phosphorylation (ΔpG = ∂G/∂pξ), which is typically 48 to 62 kJ/mol P» [1]. Ergodynamic efficiency is a power ratio, partitioned into a flux ratio (the famous P»/O2 ratio; ATP yield per oxygen consumed, YP»/O2 = J/JO2P = (P-L)/P) and force ratio,
 εP  =  (J·ΔpF)/-(JO2P·ΔkFO2)  =  P»/P ∙ ΔpG/-ΔkFO2  =  jP-LfP-L         (2)
The upper limit of (P-L)/P is the mechanistic P»:O2 ratio or stoichiometric number, νP»/O2. The P-L net OXPHOS capacity is potentially available to drive phosphorylation P» (Figure 1). Quantitatively justified in cases [3] but better adjusted to the protonmotive force pmF, the dissipative LEAK component L in the OXPHOS state can be assessed by respiration L measured in the LEAK state,
νP»/O2 = P-Llimit/P = ~P/(P-L)                              (3)

Respiratory acceptor control ratio as a function of OXPHOS P-L control efficiency jP-L. RCR is the State 3/State 4 flux ratio [4], equal to P/L if State 3 is at saturating [ADP] and [Pi]. RCR from 1.0 to infinity is highly non-linear in the typical experimental range of RCR 3 to 10: when jP-L increases from 0.8 to 0.9, RCR doubles from 5 to 10. RCR increases to infinity at the limit of jP-L=1.0. Statistical analyses of RCR±SD require linearization by transformation to jP-L.


P»/P divided by /(P-L) defines the P-L control efficiency jP-L as a normalized flux ratio, which is a hyperbolic function of RCR (Figure 2) [5],
jP-L = (P-L)/P = 1-L/P = 1-RCR-1                            (4)
The P-L control efficiency in Equation (4) is determined by respirometric OXPHOS analysis. At the limit of maximum jP-L=1.0 the dissipative LEAK processes L are zero. Ergodynamic efficiency ε not only depends on mechanistic coupling but also on the force ratio or force efficiency. At ergodynamic equilibrium, ε=1.0, fluxes vanish to zero when jP-L = fP-L = 1 (Equation 2).
The OXPHOS state can be established experimentally in cells or tissues by selective permeabilization of plasma membranes, with ADP and Pi at kinetic saturation and CHNO fuel substrate combinations which reconstitute physiological TCA cycle function (Figure 1). The P-L net OXPHOS capacity may be kinetically limited by the phosphorylation system to utilize the pmF. Then ET capacity is in excess of OXPHOS capacity by the E-P control efficiency jE-P=(E-P)/E. Such kinetic limitation diminishes the effective jP-L independent of coupling control. Therefore, the E-L coupling efficiency is defined as jE-L=(E-L)/E (compare Eq. 4) and related to jP-L by taking into account the apparent E-P excess capacity (Figure 1),
jE-L = jP-L∙(1-jE-P) + jE-P                                         (5)

Flux control efficiencies are derived from principles of thermodynamics rather than being arbitrarily introduced as jargon of a specialized discipline.


References

  1. Gnaiger E (1993) Efficiency and power strategies under hypoxia. Is low efficiency at high glycolytic ATP production a paradox? In: Surviving hypoxia: mechanisms of control and adaptation. Hochachka PW, Lutz PL, Sick T, Rosenthal M, Van den Thillart G (eds) CRC Press: 77-109. - »Bioblast link«
  2. Gnaiger E (2020) Mitochondrial pathways and respiratory control. An introduction to OXPHOS analysis. 5th ed. Bioenerg Commun 2020.2. https://doi.org/10.26124/bec:2020-0002
  3. Gnaiger E (2001) Bioenergetics at low oxygen: dependence of respiration and phosphorylation on oxygen and adenosine diphosphate supply. Respir Physiol 128: 277-97. - »Bioblast link«
  4. Chance B, Williams GR (1955) Respiratory enzymes in oxidative phosphorylation: III. The steady state. J Biol Chem 217: 409-27. - »Bioblast link«
  5. Gnaiger 2014 Abstract MiP2014.


Keywords

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1. Mitochondrial and cellular respiratory rates in coupling-control states

OXPHOS-coupled energy cycles. Source: The Blue Book
» Baseline state
Respiratory rate Defining relations Icon
OXPHOS capacity P = -Rox P.jpg mt-preparations
ROUTINE respiration R = -Rox R.jpg living cells
ET capacity E = -Rox E.jpg » Level flow
» Noncoupled respiration - Uncoupler
LEAK respiration L = -Rox L.jpg » Static head
» LEAK state with ATP
» LEAK state with oligomycin
» LEAK state without adenylates
Residual oxygen consumption Rox L = -Rox ROX.jpg
  • Chance and Williams nomenclature: respiratory states
» State 1 —» State 2 —» State 3 —» State 4 —» State 5

2. Flux control ratios related to coupling in mt-preparations and living cells

» Flux control ratio
» Coupling-control ratio
» Coupling-control protocol
FCR Definition Icon
L/P coupling-control ratio L/P L/P coupling-control ratio » Respiratory acceptor control ratio, RCR = P/L
L/R coupling-control ratio L/R L/R coupling-control ratio
L/E coupling-control ratio L/E L/E coupling-control ratio » Uncoupling-control ratio, UCR = E/L (ambiguous)
P/E control ratio P/E P/E control ratio
R/E control ratio R/E R/E control ratio » Uncoupling-control ratio, UCR = E/L
net P/E control ratio (P-L)/E net P/E control ratio
net R/E control ratio (R-L)/E net R/E control ratio

3. Net, excess, and reserve capacities of respiration

Respiratory net rate Definition Icon
P-L net OXPHOS capacity P-L P-L net OXPHOS capacity
R-L net ROUTINE capacity R-L R-L net ROUTINE capacity
E-L net ET capacity E-L E-L net ET capacity
E-P excess capacity E-P E-P excess capacity
E-R reserve capacity E-R E-R reserve capacity

4. Flux control efficiencies related to coupling-control ratios

» Flux control efficiency jZ-Y
» Background state
» Reference state
» Metabolic control variable
Coupling-control efficiency Definition Icon Canonical term
P-L control efficiency jP-L = (P-L)/P = 1-L/P P-L control efficiency P-L OXPHOS-flux control efficiency
R-L control efficiency jR-L = (R-L)/R = 1-L/R R-L control efficiency R-L ROUTINE-flux control efficiency
E-L coupling efficiency jE-L = (E-L)/E = 1-L/E E-L coupling efficiency E-L ET-coupling efficiency » Biochemical coupling efficiency
E-P control efficiency jE-P = (E-P)/E = 1-P/E E-P control efficiency E-P ET-excess flux control efficiency
E-R control efficiency jE-R = (E-R)/E = 1-R/E E-R control efficiency E-R ET-reserve flux control efficiency

5. General

» Basal respiration
» Cell ergometry
» Dyscoupled respiration
» Dyscoupling
» Electron leak
» Electron-transfer-pathway state
» Hyphenation
» Oxidative phosphorylation
» Oxygen flow
» Oxygen flux
» Permeabilized cells
» Phosphorylation system
» Proton leak
» Proton slip
» Respiratory state
» Uncoupling


List of publications

Publications in the MiPMap
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» OXPHOS and LEAK
 YearReferenceMammal and modelTissue and cellStressDiseases
Jacovetti 2024 Mol Metab2024Jacovetti C, Donnelly C, Menoud V, Suleiman M, Cosentino C, Sobel J, Wu K, Bouzakri K, Marchetti P, Guay C, Kayser B, Regazzi R (2024) The mitochondrial tRNA-derived fragment, mt-tRF-LeuTAA, couples mitochondrial metabolism to insulin secretion. Mol Metab 84:101955. https://doi.org/10.1016/j.molmet.2024.101955RatIslet cell;pancreas;thymusDiabetes
Hunter-Manseau 2024 Insect Sci2024Hunter-Manseau F, Cormier SB, Strang R, Pichaud N (2024) Fasting as a precursor to high-fat diet enhances mitochondrial resilience in Drosophila melanogaster. Insect Sci [Epub ahead of print]. https://doi.org/10.1111/1744-7917.13355Drosophila
Natsui 2024 Physiol Rep2024Natsui H, Watanabe M, Yokota T, Tsuneta S, Fumoto Y, Handa H, Shouji M, Koya J, Nishino K, Tatsuta D, Koizumi T, Kadosaka T, Nakao M, Koya T, Temma T, Ito YM, Kanako HC, Hatanaka Y, Yasushige S, Wakasa S, Miura S, Masuda T, Nishioka N, Naraoka S, Ochi K, Kudo T, Ishikawa T, Anzai T (2024) Influence of epicardial adipose tissue inflammation and adipocyte size on postoperative atrial fibrillation in patients after cardiovascular surgery. Physiol Rep 12:e15957. https://doi.org/10.14814/phy2.15957HumanFatCardiovascular
Queiroz 2024 Ecotoxicol Environ Saf2024Queiroz MIC, Lazaro CM, Dos Santos LMB, Rentz T, Virgilio-da-Silva JV, Moraes-Vieira PMM, Cunha FAS, Santos JCC, Vercesi AE, Leite ACR, Oliveira HCF (2024) In vivo chronic exposure to inorganic mercury worsens hypercholesterolemia, oxidative stress and atherosclerosis in the LDL receptor knockout mice. Ecotoxicol Environ Saf 275:116254. https://doi.org/10.1016/j.ecoenv.2024.116254MouseLiverOther
Ciccone 2024 J Exp Biol2024Ciccone C, Kante F, Folkow LP, Hazlerigg DG, West AC, Wood SH (2024) Circadian coupling of mitochondria in a deep-diving mammal. J Exp Biol 227:jeb24699. https://doi.org/10.1242/jeb.246990Other mammalsFibroblastHypoxia
Davis 2024 BEC2024Davis MS, Barrett MR, Bayly WM, Bolinger A (2024) Effect of selected fluorophores on equine skeletal muscle mitochondrial respiration. Bioenerg Commun 2024.2. https://doi.org/10.26124/bec:2024-0002HorseSkeletal muscle
Gnaiger 2024 MitoFit2024Gnaiger E (2024) Addressing the ambiguity crisis in bioenergetics and thermodynamics. MitoFit Preprints 2024.3. https://doi.org/10.26124/mitofit:2024-0003Oxidative stress;RONS
Hypoxia
Jiang 2024 Nat Metab2024Jiang S, Yuan T, Rosenberger FA, Mourier A, Dragano NRV, Kremer LS, Rubalcava-Gracia D, Hansen FM, Borg M, Mennuni M, Filograna R, Alsina D, Misic J, Koolmeister C, Papadea P, de Angelis MH, Ren L, Andersson O, Unger A, Bergbrede T, Di Lucrezia R, Wibom R, Zierath JR, Krook A, Giavalisco P, Mann M, Larsson NG (2024) Inhibition of mammalian mtDNA transcription acts paradoxically to reverse diet-induced hepatosteatosis and obesity. Nat Metab [Epub ahead of print]. https://doi.org/10.1038/s42255-024-01038-3MouseLiverObesity
Other
Hu 2024 Ecotoxicol Environ Saf2024Hu R, Fan W, Li S, Zhang G, Zang L, Qin L, Li R, Chen R, Zhang L, Gu W, Zhang Y, Rajagopalan S, Sun Q, Liu C (2024) PM2.5-induced cellular senescence drives brown adipose tissue impairment in middle-aged mice. Ecotoxicol Environ Saf 278:116423. https://doi.org/10.1016/j.ecoenv.2024.116423MouseFat
Tsouka 2024 Commun Med (Lond)2024Tsouka S, Kumar P, Seubnooch P, Freiburghaus K, St-Pierre M, Dufour JF, Masoodi M (2024) Transcriptomics-driven metabolic pathway analysis reveals similar alterations in lipid metabolism in mouse MASH model and human. Commun Med (Lond) 4:39. https://doi.org/10.1038/s43856-024-00465-3MouseLiverOther
Garcia-Poyatos 2024 Dev Cell2024García-Poyatos C, Arora P, Calvo E, Marques IJ, Kirschke N, Galardi-Castilla M, Lembke C, Meer M, Fernández-Montes P, Ernst A, Haberthür D, Hlushchuk R, Vázquez J, Vermathen P, Enríquez JA, Mercader N (2024) Cox7a1 controls skeletal muscle physiology and heart regeneration through complex IV dimerization. Dev Cell [Epub ahead of print]. https://doi.org/10.1016/j.devcel.2024.04.012ZebrafishSkeletal muscle
Sorby-Adams 2024 Redox Biol2024Sorby-Adams A, Prime TA, Miljkovic JL, Prag HA, Krieg T, Murphy MP (2024) A model of mitochondrial superoxide production during ischaemia-reperfusion injury for therapeutic development and mechanistic understanding. Redox Biol 72:103161. https://doi.org/10.1016/j.redox.2024.103161RatHeartIschemia-reperfusion
Oxidative stress;RONS
Lhuissier 2024 iScience2024Lhuissier C, Desquiret-Dumas V, Girona A, Alban J, Faure J, Cassereau J, Codron P, Lenaers G, Baris OR, Gueguen N, Chevrollier A (2024) Mitochondrial F0F1-ATP synthase governs the induction of mitochondrial fission. iScience 27:109808. https://doi.org/10.1016/j.isci.2024.109808MouseFibroblast
Thome 2024 JCI Insight2024Thome T, Vugman NA, Stone LE, Wimberly K, Scali ST, Ryan TE (2024) A tryptophan-derived uremic metabolite-Ahr-Pdk4 axis governs skeletal muscle mitochondrial energetics in chronic kidney disease. JCI Insight [Epub ahead of print]. https://doi.org/10.1172/jci.insight.178372Human
Mouse
Skeletal muscleOther
Liepinsh 2024 Br J Pharmacol2024Liepinsh E, Zvejniece L, Clemensson L, Ozola M, Vavers E, Cirule H, Korzh S, Skuja S, Groma V, Briviba M, Grinberga S, Liu W, Olszewski P, Gentreau M, Fredriksson R, Dambrova M, Schiöth HB (2024) Hydroxymethylglutaryl-CoA reductase activity is essential for mitochondrial β-oxidation of fatty acids to prevent lethal accumulation of long-chain acylcarnitines in the mouse liver. Br J Pharmacol [Epub ahead of print]. https://doi.org/10.1111/bph.16363MouseLiver
Navarro 2024 Exp Gerontol2024Navarro CDC, Francisco A, Costa EFD, Dalla Costa AP, Sartori MR, Bizerra PFV, Salgado AR, Figueira TR, Vercesi AE, Castilho RF (2024) Aging-dependent mitochondrial bioenergetic impairment in the skeletal muscle of NNT-deficient mice. Exp Gerontol 193:112465. https://doi.org/10.1016/j.exger.2024.112465MouseSkeletal muscleAging;senescence
Xu 2024 Sci Adv2024Xu G, Quan S, Schell J, Gao Y, Varmazyad M, Sreenivas P, Cruz D, Jiang H, Pan M, Han X, Palavicini JP, Zhao P, Sun X, Marchant ED, Rasmussen BB, Li G, Katsumura S, Morita M, Munkácsy E, Horikoshi N, Chocron ES, Gius D (2024) Mitochondrial ACSS1-K635 acetylation knock-in mice exhibit altered metabolism, cell senescence, and nonalcoholic fatty liver disease. Sci Adv 10:eadj5942. https://doi.org/10.1126/sciadv.adj5942MouseLiver
Noerregaard 2024 J Physiol2024Noerregaard LB, Hansen CC, Wickham KA, Moeller S, Olsen K, Ehlers T, Bangsbo J, Hellsten Y (2024) Exercise training alters skeletal muscle microvascular endothelial cell properties in recent postmenopausal females. J Physiol [Epub ahead of print]. https://doi.org/10.1113/jp286269HumanSkeletal muscle
Endothelial;epithelial;mesothelial cell
Al-Sabri 2024 Sci Rep2024Al-Sabri MH, Ammar N, Korzh S, Alsehli AM, Hosseini K, Fredriksson R, Mwinyi J, Williams MJ, Boukhatmi H, Schiöth HB (2024) Fluvastatin-induced myofibrillar damage is associated with elevated ROS, and impaired fatty acid oxidation, and is preceded by mitochondrial morphological changes. https://doi.org/10.1038/s41598-024-53446-wDrosophilaSkeletal muscle
Dong 2024 Nat Commun2024Dong J, Chen L, Ye F, Tang J, Liu B, Lin J, Zhou PH, Lu B, Wu M, Lu JH, He JJ, Engelender S, Meng Q, Song Z, He H (2024) Mic19 depletion impairs endoplasmic reticulum-mitochondrial contacts and mitochondrial lipid metabolism and triggers liver disease. https://doi.org/10.1038/s41467-023-44057-6MouseLiver
Visker 2024 Exp Physiol2024Visker JR, Leszczynski EC, Wellette-Hunsucker AG, McPeek AC, Quinn MA, Kim SH, Bazil JN, Ferguson DP (2024) Postnatal growth restriction alters myocardial mitochondrial energetics in mice. https://doi.org/10.1113/ep091304MouseHeart
Abegg 2024 Toxicol Lett2024Abegg VF, Panajatovic MV, Mancuso RV, Allard JA, Duthaler U, Odermatt A, Krähenbühl S, Bouitbir J (2024) Mechanisms of hepatocellular toxicity associated with the components of St. John's Wort extract hypericin and hyperforin in HepG2 and HepaRG cells. https://doi.org/10.1016/j.toxlet.2024.01.008HumanLiver
Lee 2024 ACS Nano2024Lee CH, Wallace DC, Burke PJ (2024) Super-resolution imaging of voltages in the interior of individual, vital mitochondria. ACS Nano 18:1345−56. https://doi.org/10.1021/acsnano.3c02768
Patil 2024 J Exp Biol2024Patil YN, Gnaiger E, Landry AP, Leno ZJ, Hand SC (2024) OXPHOS capacity is diminished and the phosphorylation system inhibited during diapause in an extremophile, embryos of Artemia franciscana. J Exp Biol 227:jeb.245828. https://doi.org/10.1242/jeb.245828ArtemiaHypoxia
Balmaceda 2024 Biochim Biophys Acta Mol Basis Dis2024Balmaceda V, Komlodi T, Szibor M, Gnaiger E, Moore AL, Fernandez-Vizarra E, Viscomi C (2024) The striking differences in the bioenergetics of brain and liver mitochondria are enhanced in mitochondrial disease. Biochim Biophys Acta Mol Basis Dis 1870:167033. https://doi.org/10.1016/j.bbadis.2024.167033MouseNervous system
Liver
Oxidative stress;RONS
Qiao 2024 J Sport Health Sci2024Qiao YS, Blackwell TL, Cawthon PM, Coen PM, Cummings SR, Distefano G, Farsijani S, Forman DE, Goodpaster BH, Kritchevsky SB, Mau T, Toledo FGS, Newman AB, Glynn NW (2024) Associations of accelerometry-measured and self-reported physical activity and sedentary behavior with skeletal muscle energetics: The Study of Muscle, Mobility and Aging (SOMMA). https://doi.org/10.1016/j.jshs.2024.02.001HumanSkeletal muscleAging;senescence
Fitzgerald 2024 J Cachexia Sarcopenia Muscle2024Fitzgerald LF, Lackey J, Moussa A, Shah SV, Castellanos AM, Khan S, Schonk M, Thome T, Salyers ZR, Jakkidi N, Kim K, Yang Q, Hepple RT, Ryan TE (2024) Chronic aryl hydrocarbon receptor activity impairs muscle mitochondrial function with tobacco smoking. https://doi.org/10.1002/jcsm.13439MouseSkeletal muscleCOPD
Fuchs 2024 J Physiol2024Fuchs CJ, Betz MW, Petrick HL, Weber J, Senden JM, Hendriks FK, Bels JLM, van Loon LJC, Snijders T (2024) Repeated passive heat treatment increases muscle tissue capillarization, but does not affect postprandial muscle protein synthesis rates in healthy older adults. J Physiol [Epub ahead of print]. https://doi.org/10.1113/jp286986Skeletal muscle
Opperdoes 2024 BMC Genomics2024Opperdoes FR, Záhonová K, Škodová-Sveráková I, Bučková B, Chmelová Ľ, Lukeš J, Yurchenko V (2024) In silico prediction of the metabolism of Blastocrithidia nonstop, a trypanosomatid with non-canonical genetic code. BMC Genomics 25:184. https://doi.org/10.1186/s12864-024-10094-8Protists
Hu 2024 Front Endocrinol (Lausanne)2024Hu Y, Fang B, Tian X, Wang H, Tian X, Yu F, Li T, Yang Z, Shi R (2024) Passive exercise is an effective alternative to HRT for restoring OVX induced mitochondrial dysfunction in skeletal muscle. Front Endocrinol (Lausanne) 15:1356312. https://doi.org/10.3389/fendo.2024.1356312MouseSkeletal muscle
Xiao 2024 Sci Adv2024Xiao L, Yin Y, Sun Z, Liu J, Jia Y, Yang L, Mao Y, Peng S, Xie Z, Fang L, Li J, Xie X, Gan Z (2024) AMPK phosphorylation of FNIP1 (S220) controls mitochondrial function and muscle fuel utilization during exercise. Sci Adv 10:eadj2752. https://doi.org/10.1126/sciadv.adj2752MouseSkeletal muscle
Meszaros 2024 Transpl Int2024Meszaros AT, Weissenbacher A, Schartner M, Egelseer-Bruendl T, Hermann M, Unterweger J, Mittelberger C, Reyer BA, Hofmann J, Zelger BG, Hautz T, Resch T, Margreiter C, Maglione M, Komlódi T, Ulmer H, Cardini B, Troppmair J, Öfner D, Gnaiger E, Schneeberger S, Oberhuber R (2024) The predictive value of graft viability and bioenergetics testing towards the outcome in liver transplantation. Transpl Int 37:12380. https://doi.org/10.3389/ti.2024.12380HumanLiverIschemia-reperfusionOther
Donnelly 2024 Redox Biol2024Donnelly C, Komlódi T, Cecatto C, Cardoso LHD, Compagnion A-C, Matera A, Tavernari D, Campiche O, Paolicelli RC, Zanou N, Kayser B, Gnaiger E, Place N (2024) Functional hypoxia reduces mitochondrial calcium uptake. Redox Biol 71:103037. https://doi.org/10.1016/j.redox.2024.103037Human
Mouse
Heart
Skeletal muscle
Hypoxia
Cefis 2024 Acta Physiol (Oxf)2024Cefis M, Dargegen M, Marcangeli V, Taherkhani S, Dulac M, Leduc-Gaudet JP, Mayaki D, Hussain SNA, Gouspillou G (2024) MFN2 overexpression in skeletal muscles of young and old mice causes a mild hypertrophy without altering mitochondrial respiration and H2O2 emission. Acta Physiol (Oxf) [Epub ahead of print]. https://doi.org/10.1111/apha.14119MouseSkeletal muscleAging;senescence
Kim 2024 J Exerc Rehabil2024Kim TW, Park SS, Kim SH, Kim MK, Shin MS, Kim SH (2024) Exercise before pregnancy exerts protective effect on prenatal stress-induced impairment of memory, neurogenesis, and mitochondrial function in offspring. J Exerc Rehabil 20:2-10. https://doi.org/10.12965/jer.2448068.034MouseNervous system
Kolb 2024 Biochemistry2024Kolb AJ, Corridon P, Ullah M, Pfaffenberger ZJ, Xu WM, Winfree S, Sandoval RH, Hato T, Witzmann FA, Mohallem R, Franco J, Aryal UK, Atkinson SJ, Basile DP, Bacallao RL (2024) Sulfotransferase 1C2 increases mitochondrial respiration by converting mitochondrial membrane cholesterol to cholesterol sulfate. Biochemistry [Epub ahead of print]. https://doi.org/10.1021/acs.biochem.3c00344RatKidneyIschemia-reperfusion
Wang 2024 J Biomed Sci2024Wang V, Tseng KY, Kuo TT, Huang EY, Lan KL, Chen ZR, Ma KH, Greig NH, Jung J, Choi HI, Olson L, Hoffer BJ, Chen YH (2024) Attenuating mitochondrial dysfunction and morphological disruption with PT320 delays dopamine degeneration in MitoPark mice. J Biomed Sci 31:38. https://doi.org/10.1186/s12929-024-01025-6MouseNervous systemParkinson's
Magri 2024 Cell Death Discov2024Magrì A, Lipari CLR, Caccamo A, Battiato G, Conti Nibali S, De Pinto V, Guarino F, Messina A (2024) AAV-mediated upregulation of VDAC1 rescues the mitochondrial respiration and sirtuins expression in a SOD1 mouse model of inherited ALS. Cell Death Discov 10:178. https://doi.org/10.1038/s41420-024-01949-wMouseNervous systemNeurodegenerative
Doerrier 2024 Free Radic Biol Med2024Doerrier C, Gama-Perez P, Pesta D, Distefano G, Soendergaard SD, Maise Chroeis K, Gonzalez-Franquesa A, Goodpaster BH, Prats C, Sales-Pardo M, Guimera R, Coen PM, Gnaiger E, Larsen S, Garcia-Roves PM (2024) Harmonization of experimental procedures to assess mitochondrial respiration in human permeabilized skeletal muscle fibers. Free Radic Biol Med 223:384-97. https://doi.org/10.1016/j.freeradbiomed.2024.07.039HumanSkeletal muscle
Cardoso 2024 BEC2024Cardoso LHD, Gnaiger E (2024) OXPHOS coupling and uncoupling. Bioenerg Commun 2024.5. https://doi.org/10.26124/bec.2024-0005
Zhang 2024 Cell Metab2024Zhang Y, Higgins CB, Tica S, Adams JA, Sun J, Kelly SC, Zong X, Dietzen DJ, Pietka T, Ballentine SJ, Shriver L, Patti G, Cao Y, DeBosch BJ (2024) Hierarchical tricarboxylic acid cycle regulation by hepatocyte arginase 2 links the urea cycle to oxidative metabolism. Cell Metab [Epub ahead of print]. https://doi.org/10.1016/j.cmet.2024.07.007MouseLiverObesity
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Daura 2021 Neurobiol Dis2021Daura E, Tegelberg S, Yoshihara M, Jackson C, Simonetti F, Aksentjeff K, Ezer S, Hakala P, Katayama S, Kere J, Lehesjoki AE, Joensuu T (2021) Cystatin B-deficiency triggers ectopic histone H3 tail cleavage during neurogenesis. Neurobiol Dis 156:105418.MouseStem cells
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Giovarelli 2021 Pharmacol Res2021Giovarelli M, Zecchini S, Catarinella G, Moscheni C, Sartori P, Barbieri C, Roux-Biejat P, Napoli A, Vantaggiato C, Cervia D, Perrotta C, Clementi E, Latella L, De Palma C (2021) Givinostat as metabolic enhancer reverting mitochondrial biogenesis deficit in Duchenne Muscular Dystrophy. Pharmacol Res 170:105751.MouseSkeletal muscleOther
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Dubinin 2021 Free Radic Biol Med2021Dubinin MV, Semenova AA, Ilzorkina AI, Penkov NV, Nedopekina DA, Sharapov VA, Khoroshavina EI, Davletshin EV, Belosludtseva NV, Spivak AY, Belosludtsev KN (2021) Mitochondria-targeted prooxidant effects of betulinic acid conjugated with delocalized lipophilic cation F16. Free Radic Biol Med 168:55-69.RatLiver
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Cai 2021 Free Radic Biol Med2021Cai H, Bian X, Chen L, Zhang N, Li L, Tang W, Liu X, Li Z (2021) Selective intra-arterial brain cooling induces cerebral protection against ischemia/reperfusion injury through SENP1-Sirt3 signaling. Free Radic Biol Med 171:272-83.MouseNervous systemOxidative stress;RONS
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Seefeldt 2021 Sci Rep2021Seefeldt JM, Lassen TR, Vognstoft Hjortbak M, Jespersen NR, Kvist F, Hansen J, Boetker HE (2021) Cardioprotective effects of empagliflozin after ischemia and reperfusion in rats. Sci Rep 11:9544.RatHeartIschemia-reperfusionCardiovascular
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Vaccari 2020 Eur J Appl Physiol2020Vaccari F, Passaro A, D'Amuri A, Sanz JM, Di Vece F, Capatti E, Magnesa B, Comelli M, Mavelli I, Grassi B, Fiori F, Bravo G, Avancini A, Parpinel M, Lazzer S (2020) Effects of 3-month high-intensity interval training vs. moderate endurance training and 4-month follow-up on fat metabolism, cardiorespiratory function and mitochondrial respiration in obese adults. Eur J Appl Physiol 120:1787-803.HumanSkeletal muscleObesity
Keller 2020 Oxid Med Cell Longev2020Keller Amy, Hull Sara E, Elajaili Hanan, Johnston Aspen, Knaub Leslie A, Chun Ji hye, Walker Lori, Nozik-Grayck Eva, Reusch Jane EB (2020) (–)-Epicatechin modulates mitochondrial redox in vascular cell models of oxidative stress. Oxid Med Cell Longev 2020:6392629.HumanEndothelial;epithelial;mesothelial cellOxidative stress;RONSDiabetes
Liu 2020 Am J Physiol Heart Circ Physiol2020Liu R, Jagannathan R, Sun L, Li F, Yang P, Lee J, Negi V, Perez-Garcia EM, Shiva S, Yechoor VK, Moulik M (2020) Tead1 is essential for mitochondrial function in cardiomyocytes. Am J Physiol Heart Circ Physiol 319:H89-99. https://doi.org/10.1152/ajpheart.00732.2019MouseHeartCardiovascular
Keppner 2020 Thesis2020Keppner G (2020) Impact of gut microbiota composition, liver metabolism and respiratory capacity of peripheral blood mononuclear cells on resting metabolic rate. PhD Thesis 100.HumanBlood cellsObesity
Xiong 2020 Biomed Pharmacother2020Xiong Xiaowei, Lu Weihang, Qin Xuan, Luo Qingyu, Zhou Weimin (2020) Downregulation of the GLP-1/CREB/adiponectin pathway is partially responsible for diabetes-induced dysregulated vascular tone and VSMC dysfunction. Biomed Pharmacother 127:110218.Human
Rat
Endothelial;epithelial;mesothelial cellOxidative stress;RONSDiabetes
Jian 2020 Cell Metab2020Jian C, Fu J, Cheng X, Shen LJ, Ji YX, Wang X, Pan S, Tian H, Tian S, Liao R, Song K, Wang HP, Zhang X, Wang Y, Huang Z, She ZG, Zhang XJ, Zhu L, Li H (2020) Low-dose sorafenib acts as a mitochondrial uncoupler and ameliorates nonalcoholic steatohepatitis. Cell Metab 31:892-908. https://doi.org/10.1016/j.cmet.2020.04.011MouseLiverCancer
Buch 2020 FASEB J2020Buch BT, Halling JF, Ringholm S, Gudiksen A, Kjøbsted R, Olsen MA, Wojtaszewski JFP, Pilegaard H (2020) Colchicine treatment impairs skeletal muscle mitochondrial function and insulin sensitivity in an age-specific manner. FASEB J 34:8653-70.MouseSkeletal muscleAging;senescence
Lozano 2020 Part Fibre Toxicol2020Lozano O, Silva-Platas C, Chapoy-Villanueva H, Pérez BE, Lees JG, Ramachandra CJA, Contreras-Torres FF, Lázaro-Alfaro A, Luna-Figueroa E, Bernal-Ramírez J, Gordillo-Galeano A, Benitez A, Oropeza-Almazán Y, Castillo EC, Koh PL, Hausenloy DJ, Lim SY, García-Rivas G (2020) Amorphous SiO2 nanoparticles promote cardiac dysfunction via the opening of the mitochondrial permeability transition pore in rat heart and human cardiomyocytes. Part Fibre Toxicol 17:15.Rat
Human
Heart
Coppin 2020 Cell Death Dis2020Coppin L, Jannin A, Ait Yahya E, Thuillier C, Villenet C, Tardivel M, Bongiovanni A, Gaston C, de Beco S, Barois N, van Seuningen I, Durand E, Bonnefond A, Vienne JC, Vamecq J, Figeac M, Vincent A, Delacour D, Porchet N, Pigny P (2020) Galectin-3 modulates epithelial cell adaptation to stress at the ER-mitochondria interface. Cell Death Dis 11:360.HumanIslet cell;pancreas;thymus
Endothelial;epithelial;mesothelial cell
Cancer
Fuchs 2020 J Funct Foods2020Fuchs C, Bakuradze T, Steinke R, Grewal R, Eckert GP, Richling E (2020) Polyphenolic composition of extracts from winery by-products and effects on cellular cytotoxicity and mitochondrial functions in HepG2 cells. J Funct Foods 70:103988.HumanLiver
BEC 2020.1 doi10.26124bec2020-0001.v12020Gnaiger E et al ― MitoEAGLE Task Group (2020) Mitochondrial physiology. Bioenerg Commun 2020.1. https://doi.org/10.26124/bec:2020-0001.v1
Fisher 2020 Placenta2020Fisher J, McKeating D, Pennell E, Cuffe J, Holland O, Perkins A (2020) Mitochondrial isolation, cryopreservation and preliminary biochemical characterisation from placental cytotrophoblast and syncytiotrophoblast. Placenta 82:1-4.HumanGenitalCryopreservation
Cruz 2020 Drug Alcohol Depend2020Cruz JV, Maba IK, Correia D, Kaziuk FD, Cadena SMSC, Zampronio AR (2020) Intermittent binge-like ethanol exposure during adolescence attenuates the febrile response by reducing brown adipose tissue thermogenesis in rats. Drug Alcohol Depend 209:107904.RatFat
Fecker 2020 Biomolecules2020Fecker R, Buda V, Alexa E, Avram S, Pavel IZ, Muntean D, Cocan I, Watz C, Minda D, Dehelean CA, Soica C, Danciu C (2020) Phytochemical and biological screening of Oenothera biennis L. hydroalcoholic extract. Biomolecules 10:E818.HumanEndothelial;epithelial;mesothelial cellCell death
Fuller 2020 J Appl Physiol (1985)2020Fuller KNZ, McCoin CS, Allen J, Bell-Glenn S, Koestler DC, Dorn Ii GW, Thyfault JP (2020) Sex and BNIP3 genotype, rather than acute lipid injection, modulate hepatic mitochondrial function and steatosis risk in mice. J Appl Physiol (1985) 128:1251-61.MouseLiverOxidative stress;RONS
Piel 2020 PLoS One2020Piel S, Chamkha I, Dehlin AK, Ehinger JK, Sjövall F, Elmér E, Hansson MJ (2020) Cell-permeable succinate prodrugs rescue mitochondrial respiration in cellular models of acute acetaminophen overdose. PLoS One 15:e0231173.HumanLiver
Platelet
Sharma 2020 Integr Cancer Ther2020Sharma P, Singh S (2020) Combinatorial effect of DCA and let-7a on triple-negative MDA-MB-231 cells: A metabolic approach of treatment. Integr Cancer Ther 19:1534735420911437.HumanEndothelial;epithelial;mesothelial cellCancer
Woessner 2020 J Appl Physiol (1985)2020Woessner MN, Neil C, Saner NJ, Goodman CA, McIlvenna LC, Ortiz de Zevallos J, Garnham AP, Levinger I, Allen JD (2020) Effect of inorganic nitrate on exercise capacity, mitochondria respiration and vascular function in heart failure reduced ejection fraction. J Appl Physiol (1985) 128:1355-64.HumanSkeletal muscleCardiovascular
Venediktova 2020 Mitochondrion2020Venediktova NI, Mashchenko OV, Talanov EY, Belosludtseva NV, Mironova GD (2020) Energy metabolism and oxidative status of rat liver mitochondria in conditions of experimentally induced hyperthyroidism. Mitochondrion 52:190-96.RatLiverOther
Kanellopoulos 2020 Cell2020Kanellopoulos AK, Mariano V, Spinazzi M, Woo YJ, McLean C, Pech U, Li KW, Armstrong JD, Giangrande A, Callaerts P, Smit AB, Abrahams BS, Fiala A, Achsel T, Bagni C (2020) Aralar sequesters GABA into hyperactive mitochondria, causing social behavior deficits. Cell 180:1178-97.DrosophilaNervous system
Other cell lines
Rebane-Klemm 2020 Cancers (Basel)2020Rebane-Klemm E, Truu L, Reinsalu L, Puurand M, Shevchuk I, Chekulayev V, Timohhina N, Tepp K, Bogovskaja J, Afanasjev V, Suurmaa K, Valvere V, Kaambre T (2020) Mitochondrial respiration in KRAS and BRAF mutated colorectal tumors and polyps. Cancers (Basel) 12:E815.HumanEndothelial;epithelial;mesothelial cellCancer
Song 2020 Life Sci2020Song K, Zhang Y, Ga Q, Bai Z, Ge RL (2020) High-altitude chronic hypoxia ameliorates obesity-induced non-alcoholic fatty liver disease in mice by regulating mitochondrial and AMPK signaling. Life Sci 252:117633.MouseLiverHypoxiaObesity
Gvozdjakova 2020 Diagnostics (Basel)2020Gvozdjáková A, Sumbalová Z, Kucharská J, Komlósi M, Rausová Z, Vančová O, Számošová M, Mojto V (2020) Platelet mitochondrial respiration, endogenous coenzyme Q10 and oxidative stress in patients with chronic kidney disease. Diagnostics (Basel) 10:176.HumanPlateletOther
Almoiliqy 2020 Acta Pharmacol Sin2020Almoiliqy M, Wen J, Xu B, Sun YC, Lian MQ, Li YL, Qaed E, Al-Azab M, Chen DP, Shopit A, Wang L, Sun PY, Lin Y (2020) Cinnamaldehyde protects against rat intestinal ischemia/reperfusion injuries by synergistic inhibition of NF-κB and p53. Acta Pharmacol Sin 41:1208-22.RatEndothelial;epithelial;mesothelial cellIschemia-reperfusion
Cubizolle 2020 J Cell Mol Med2020Cubizolle A, Cia D, Moine E, Jacquemot N, Guillou L, Rosell M, Angebault-Prouteau C, Lenaers G, Meunier I, Vercauteren J, Durand T, Crauste C, Brabet P (2020) Isopropyl-phloroglucinol-DHA protects outer retinal cells against lethal dose of all-trans-retinal. J Cell Mol Med 24:5057-69.RatEndothelial;epithelial;mesothelial cell
Li Puma 2020 Am J Physiol Regul Integr Comp Physiol2020Li Puma LC, Hedges M, Heckman JM, Mathias AB, Engstrom MR, Brown AB, Chicco AJ (2020) Experimental oxygen concentration influences rates of mitochondrial hydrogen peroxide release from cardiac and skeletal muscle preparations. Am J Physiol Regul Integr Comp Physiol 318:972-80.MouseHeart
Skeletal muscle
Oxidative stress;RONS
Carvalho 2020 BMC Nutr2020Carvalho E, Adams SH, Borsheim E, Blackburn ML, Ono-Moore KD, Cotter M, Bowlin AK, Yeruva L (2020) Neonatal diet impacts liver mitochondrial bioenergetics in piglets fed formula or human milk. BMC Nutr 6:13.PigLiver
Silaidos 2020 Mitochondrion2020Silaidos C, Grube J, Muley C, Eckert GP (2020) Time-dependent melatonin secretion is associated with mitochondrial function in peripheral blood mononuclear cells (PBMC) of male volunteers. Mitochondrion 53:21-29.HumanBlood cells
Sowton 2020 Mol Genet Metab Rep2020Sowton AP, Padmanabhan N, Tunster SJ, McNally BD, Murgia A, Yusuf A, Griffin JL, Murray AJ, Watson ED (2020) Mtrr hypomorphic mutation alters liver morphology, metabolism and fuel storage in mice. Mol Genet Metab Rep 23:100580.MouseLiverOther
Maeda 2020 J Cell Mol Med2020Maeda H, Kami D, Maeda R, Murata Y, Jo JI, Kitani T, Tabata Y, Matoba S, Gojo S (2020) TAT-dextran-mediated mitochondrial transfer enhances recovery from models of reperfusion injury in cultured cardiomyocytes. J Cell Mol Med 24:5007-20.RatHeartIschemia-reperfusion
Andrade 2020 Nutr Metab Cardiovasc Dis2020Andrade D, Oliveira G, Menezes L, Nascimento AL, Carvalho S, Stumbo AC, Thole A, Garcia-Souza É, Moura A, Carvalho L, Cortez E (2020) Insulin-like growth factor-1 short-period therapy improves cardiomyopathy stimulating cardiac progenitor cells survival in obese mice. Nutr Metab Cardiovasc Dis 30:151-61.MouseHeart
Hayes 2020 Nutrients2020Hayes P, Fergus C, Ghanim M, Cirzi C, Burtnyak L, McGrenaghan CJ, Tuorto F, Nolan DP, Kelly VP (2020) Queuine micronutrient deficiency promotes Warburg metabolism and reversal of the mitochondrial ATP synthase in HeLa cells. Nutrients 12:E871.HumanHeLaCancer
Pham 2020 Eur J Appl Physiol2020Pham T, MacRae CL, Broome SC, D'souza RF, Narang R, Wang HW, Mori TA, Hickey AJR, Mitchell CJ, Merry TL (2020) MitoQ and CoQ10 supplementation mildly suppresses skeletal muscle mitochondrial hydrogen peroxide levels without impacting mitochondrial function in middle-aged men. Eur J Appl Physiol 120:1657-69.HumanSkeletal muscleOxidative stress;RONS
Briones-Herrera 2020 Free Radic Biol Med2020Briones-Herrera A, Ramírez-Camacho I, Zazueta C, Tapia E, Pedraza-Chaverri J (2020) Altered proximal tubule fatty acid utilization, mitophagy, fission and supercomplexes arrangement in experimental Fanconi syndrome are ameliorated by sulforaphane-induced mitochondrial biogenesis. Free Radic Biol Med 153:54-70.RatKidney
Ulgherait 2020 Nat Commun2020Ulgherait Matt, Chen Anna, McAllister Sophie F, Kim Han X, Delventhal Rebecca, Wayne Charlotte R, Garcia Christian J, Recinos Yocelyn, Oliva Miles, Canman Julie C, Picard Martin, Owusu-Ansah Edward, Shirasu-Hiza Mimi (2020) Circadian regulation of mitochondrial uncoupling and lifespan. Nat Commun 11:1927.DrosophilaAging;senescence
Matsuo 2020 Am J Physiol Endocrinol Metab2020Matsuo FS, Araújo PHC, Mota RF, Carvalho AJR, Queiroz MS, Almeida BB, Ferreira KCOS, Metzner RJM, Ferrari GD, Alberici LC, Osako MK (2020) RANKL induces beige adipocyte differentiation in preadipocytes. Am J Physiol Endocrinol Metab 318:E866-77.MouseFatDiabetes
Obesity
... further results



Labels:




Regulation: Coupling efficiency;uncoupling  Coupling state: LEAK, OXPHOS 

HRR: Theory 



MitoPedia concepts: Respiratory control ratio, Ergodynamics 


MitoPedia methods: Respirometry 

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