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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
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
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
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
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
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
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
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
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
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
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.MouseNervous system
Liver
Oxidative stress;RONS
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
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. https://doi.org/10.3389/ti.2024.12380HumanLiverIschemia-reperfusionOther
Pacheco-Fuentes 2023 Oecologia2023Pacheco-Fuentes H, Ton R, Griffith SC (2023) Short- and long-term consequences of heat exposure on mitochondrial metabolism in zebra finches (Taeniopygia castanotis). https://doi.org/10.1007/s00442-023-05344-7BirdsBlood cells
Colosio 2023 J Appl Physiol (1985)2023Colosio M, Brocca L, Gatti M, Neri M, Crea E, Cadile F, Canepari M, Pellegrino MA, Polla B, Porcelli S, Bottinelli R (2023) Structural and functional impairments of skeletal muscle in patients with post-acute sequelae of SARS-CoV-2 infection. https://doi.org/10.1152/japplphysiol.00158.2023HumanSkeletal muscleInfectious
Devaux 2023 J Comp Physiol B2023Devaux JBL, Hedges CP, Birch N, Herbert N, Renshaw GMC, Hickey AJR (2023) Electron transfer and ROS production in brain mitochondria of intertidal and subtidal triplefin fish (Tripterygiidae). https://doi.org/10.1007/s00360-023-01495-4FishesNervous systemOxidative stress;RONS
Batterson 2023 Physiol Rep2023Batterson PM, McGowan EM, Borowik AK, Kinter MT, Miller BF, Newsom SA, Robinson MM (2023) High-fat diet increases electron transfer flavoprotein synthesis and lipid respiration in skeletal muscle during exercise training in female mice. https://doi.org/10.14814/phy2.15840MouseSkeletal muscle
Czyzowska 2023 Redox Biol2023Czyżowska A, Brown J, Xu H, Sataranatarajan K, Kinter M, Tyrell VJ, O'Donnell VB, Van Remmen H (2023) Elevated phospholipid hydroperoxide glutathione peroxidase (GPX4) expression modulates oxylipin formation and inhibits age-related skeletal muscle atrophy and weakness. https://doi.org/10.1016/j.redox.2023.102761MouseSkeletal muscleAging;senescence
Steffen 2023 J Exp Biol2023Steffen JBM, Sokolov EP, Bock C, Sokolova IM (2023) Combined effects of salinity and intermittent hypoxia on mitochondrial capacity and reactive oxygen species efflux in the Pacific oyster, Crassostrea gigas. https://doi.org/10.1242/jeb.246164MolluscsLung;gillOxidative stress;RONS
Hypoxia
Jiang 2023 Sci Rep2023Jiang N, Wang Z, Guo X, Peng Z, He Y, Wang Q, Wu H, Cui Y (2023) Hepatic Runx1t1 improves body fat index after endurance exercise in obese mice. https://doi.org/10.1038/s41598-023-46302-wMouseLiverObesity
Wu 2023 Int Immunopharmacol2023Wu F, Zhang YT, Teng F, Li HH, Guo SB (2023) S100a8/a9 contributes to sepsis-induced cardiomyopathy by activating ERK1/2-Drp1-mediated mitochondrial fission and respiratory dysfunction. https://doi.org/10.1016/j.intimp.2023.109716MouseHeartCardiovascular
Myopathy
Sepsis
Golomb 2023 Sci Rep2023Golomb BA, Sanchez Baez R, Schilling JM, Dhanani M, Fannon MJ, Berg BK, Miller BJ, Taub PR, Patel HH (2023) Mitochondrial impairment but not peripheral inflammation predicts greater Gulf War illness severity. https://doi.org/10.1038/s41598-023-35896-wHumanSkeletal muscleOther
Temelie 2023 Int J Mol Sci2023Temelie M, Talpur R, Dominguez-Prieto M, Dantas Silva A, Cenusa C, Craciun L, Savu DI, Moisoi N (2023) Impaired integrated stress response and mitochondrial integrity modulate genotoxic stress impact and lower the threshold for immune signalling. https://doi.org/10.3390/ijms24065891MouseFibroblast
Nijholt 2023 Sci Rep2023Nijholt KT, Sánchez-Aguilera PI, Mahmoud B, Gerding A, Wolters JC, Wolters AHG, Giepmans BNG, Silljé HHW, de Boer RA, Bakker BM, Westenbrink BD (2023) A Kinase Interacting Protein 1 regulates mitochondrial protein levels in energy metabolism and promotes mitochondrial turnover after exercise. https://doi.org/10.1038/s41598-023-45961-zMouseHeart
Scandalis 2023 JAMA Cardiol2023Scandalis L, Kitzman DW, Nicklas BJ, Lyles M, Brubaker P, Nelson MB, Gordon M, Stone J, Bergstrom J, Neufer PD, Gnaiger E, Molina AJA (2023) Skeletal muscle mitochondrial respiration and exercise intolerance in patients with heart failure with preserved ejection fraction. https://doi.org/10.1001/jamacardio.2023.0957HumanSkeletal muscleCardiovascular
Harmsen 2023 J Physiol2023Harmsen JF, Kotte M, Habets I, Bosschee F, Frenken K, Jorgensen JA, de Kam S, Moonen-Kornips E, Cissen J, Doligkeit D, van de Weijer T, Erazo-Tapia E, Buitinga M, Hoeks J, Schrauwen P (2023) Exercise training modifies skeletal muscle clock gene expression but not 24-hour rhythmicity in substrate metabolism of men with insulin resistance. https://doi.org/10.1113/jp285523HumanSkeletal muscleDiabetes
Obesity
Mioc 2023 Molecules2023Mioc M, Mioc A, Racoviceanu R, Ghiulai R, Prodea A, Milan A, Barbu Tudoran L, Oprean C, Ivan V, Șoica C (2023) The antimelanoma biological assessment of triterpenic acid functionalized gold nanoparticles. https://doi.org/10.3390/molecules28010421HumanEndothelial;epithelial;mesothelial cellCancer
Mancilla 2023 Physiol Rep2023Mancilla R, Pava-Mejia D, van Polanen N, de Wit V, Bergman M, Grevendonk L, Jorgensen J, Kornips E, Hoeks J, Hesselink MKC, Schrauwen-Hinderling VB (2023) Invasive and noninvasive markers of human skeletal muscle mitochondrial function. https://doi.org/10.14814/phy2.15734HumanSkeletal muscle
Rodriguez 2023 BEC2023Rodríguez E, Bettinazzi S, Inwongwan S, Camus MF, Lane N (2023) Harmonizing protocols to measure Drosophila respiratory function in mitochondrial preparations. Bioenerg Commun 2023.3. https://doi.org/10.26124/bec:2023-0003Drosophila
Vamesu 2023 JCI Insight2023Vamesu BM, Nicola T, Li R, Hazra S, Matalon S, Kaminski N, Ambalavanan N, Kandasamy J (2023) Thyroid hormone modulates hyperoxic neonatal lung injury and mitochondrial function. https://doi.org/10.1172/jci.insight.160697MouseLung;gillOther
Ling 2023 EBioMedicine2023Ling C, Versloot CJ, Arvidsson Kvissberg ME, Hu G, Swain N, Horcas-Nieto JM, Miraglia E, Thind MK, Farooqui A, Gerding A, van Eunen K, Koster MH, Kloosterhuis NJ, Chi L, ChenMi Y, Langelaar-Makkinje M, Bourdon C, Swann J, Smit M, de Bruin A, Youssef SA, Feenstra M, van Dijk TH, Thedieck K, Jonker JW, Kim PK, Bakker BM, Bandsma RHJ (2023) Rebalancing of mitochondrial homeostasis through an NAD+-SIRT1 pathway preserves intestinal barrier function in severe malnutrition. https://doi.org/10.1016/j.ebiom.2023.104809Mouse
Sundaram 2023 Cell Metab2023Sundaram VK, Schütza V, Schröter NH, Backhaus A, Bilsing A, Joneck L, Seelbach A, Mutschler C, Gomez-Sanchez JA, Schäffner E, Sánchez EE, Akkermann D, Paul C, Schwagarus N, Müller S, Odle A, Childs G, Ewers D, Kungl T, Sitte M, Salinas G, Sereda MW, Nave KA, Schwab MH, Ost M, Arthur-Farraj P, Stassart RM, Fledrich R (2023) Adipo-glial signaling mediates metabolic adaptation in peripheral nerve regeneration. https://doi.org/10.1016/j.cmet.2023.10.017MouseNervous system
Gautam 2023 Neurobiol Dis2023Gautam M, Genç B, Helmold B, Ahrens A, Kuka J, Makrecka-Kuka M, Günay A, Koçak N, Aguilar-Wickings IR, Keefe D, Zheng G, Swaminathan S, Redmon M, Zariwala HA, Özdinler PH (2023) SBT-272 improves TDP-43 pathology in ALS upper motor neurons by modulating mitochondrial integrity, motility, and function. https://doi.org/10.1016/j.nbd.2023.106022RatHeart
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Frangos 2023 J Biol Chem2023Frangos SM, DesOrmeaux GJ, Holloway GP (2023) Acidosis attenuates CPT-I supported bioenergetics as a potential mechanism limiting lipid oxidation. https://doi.org/10.1016/j.jbc.2023.105079MouseSkeletal muscle
Kyriazis 2023 Res Sq2023Kyriazis G, Serrano J, Boyd J, Mason C, Smith K, Karolyi K, Kondo S, Brown I, Maurya S, Meshram N, Serna V, Gilger J, Branch D, Gardell S, Baskin K, Ayala J, Pratley R, Goodpaster B, Coen P (2023) The TAS1R2 sweet taste receptor regulates skeletal muscle mass and fitness. https://doi.org/10.21203/rs.3.rs-2475555/v1MouseSkeletal muscleAging;senescence
Obesity
Arias-Reyes 2023 MitoFit2023Arias-Reyes C, Aliaga-Raduán F, Pinto-Aparicio R, Joseph V, Soliz J (2023) Mitochondrial plasticity in the retrosplenial cortex enhances ATP synthesis during acclimatization to hypoxia in mice but not in rats. MitoFit Preprints 2023.6. https://doi.org/10.26124/mitofit:2023-0006Mouse
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Kutschka 2023 Basic Res Cardiol2023Kutschka I, Bertero E, Wasmus C, Xiao K, Yang L, Chen X, Oshima Y, Fischer M, Erk M, Arslan B, Alhasan L, Grosser D, Ermer KJ, Nickel A, Kohlhaas M, Eberl H, Rebs S, Streckfuss-Bömeke K, Schmitz W, Rehling P, Thum T, Higuchi T, Rabinowitz J, Maack C, Dudek J (2023) Activation of the integrated stress response rewires cardiac metabolism in Barth syndrome. https://doi.org/10.1007/s00395-023-01017-xMouseHeartInherited
Moellering 2023 Arthritis Res Ther2023Moellering DR, Smith-Johnston K, Kelley C, Sammy MJ, Benedict J, Brock G, Johnson J, Baskin KK, Jarjour WN, Belury MA, Reiser PJ, Nagareddy PR, Hanaoka BY (2023) Association between skeletal muscle mitochondrial dysfunction and insulin resistance in patients with rheumatoid arthritis: a case-control study. https://doi.org/10.1186/s13075-023-03065-zHumanSkeletal muscleOther
Fletcher 2023 Transl Res2023Fletcher E, Miserlis D, Sorokolet K, Wilburn D, Bradley C, Papoutsi E, Wilkinson T, Ring A, Ferrer L, Haynatzki G, Smith RS, Bohannon WT, Koutakis P (2023) Diet-induced obesity augments ischemic myopathy and functional decline in a murine model of peripheral artery disease. https://doi.org/10.1016/j.trsl.2023.05.002MouseSkeletal muscleMyopathy
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Shirakawa 2023 Sci Rep2023Shirakawa R, Nakajima T, Yoshimura A, Kawahara Y, Orito C, Yamane M, Handa H, Takada S, Furihata T, Fukushima A, Ishimori N, Nakagawa M, Yokota I, Sabe H, Hashino S, Kinugawa S, Yokota T (2023) Enhanced mitochondrial oxidative metabolism in peripheral blood mononuclear cells is associated with fatty liver in obese young adults. https://doi.org/10.1038/s41598-023-32549-wHumanBlood cellsObesity
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Gemmink 2023 Mol Metab2023Gemmink A, Daemen S, Wefers J, Hansen J, van Moorsel D, Astuti P, Jorgensen JA, Kornips E, Schaart G, Hoeks J, Schrauwen P, Hesselink MKC (2023) Twenty-four hour rhythmicity in mitochondrial network connectivity and mitochondrial respiration; a study in human skeletal muscle biopsies of young lean and older individuals with obesity. https://doi.org/10.1016/j.molmet.2023.101727HumanSkeletal muscle
Noone 2023 J Physiol2023Noone J, Damiot A, Kenny H, Chery I, Zahariev A, Normand S, Crampes F, de Glisezinski I, Rochfort KD, Laurens C, Bareille MP, Simon C, Bergouignan A, Blanc S, O'Gorman DJ (2023) The impact of 60 days of -6° head down tilt bed rest on mitochondrial content, respiration and regulators of mitochondrial dynamics. https://doi.org/10.1113/jp284734HumanSkeletal muscle
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Peruzzotti-Jametti 2021 PLoS Biol2021Peruzzotti-Jametti L, Bernstock JD, Willis CM, Manferrari G, Rogall R, Fernandez-Vizarra E, Williamson JC, Braga A, van den Bosch A, Leonardi T, Krzak G, Kittel A, Beninca C, Vicario N, Tan S, Bastos C, Bicci I, Iraci N, Smith JA, Peacock B, Muller KH, Lehner PJ, Buzas EI, Faria N, Zeviani M, Frezza C, Brisson A, Matheson NJ, Viscomi C, Pluchino S (2021) Neural stem cells traffic functional mitochondria via extracellular vesicles. PLoS Biol 19:3001166.MouseNervous system
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Lelcu 2021 Children (Basel)2021Lelcu T, Bînă AM, Dănilă MD, Popoiu CM, Aburel OM, Arghirescu ST, Borza C, Muntean DM (2021) Assessment of platelet mitochondrial respiration in a pediatric population: A pilot study in healthy children and children with acute lymphoblastic leukemia. https://doi.org/10.3390/children8121196HumanPlateletCancer
Christiansen 2021 Sci Rep2021Christiansen LB, Dohlmann TL, Ludvigsen TP, Parfieniuk E, Ciborowski M, Szczerbinski L, Kretowski A, Desler C, Tiano L, Orlando P, Martinussen T, Olsen LH, Larsen S (2021) Atorvastatin impairs liver mitochondrial function in obese Göttingen Minipigs but heart and skeletal muscle are not affected. Sci Rep 11:2167.PigHeart
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Bandara 2021 Mitochondrion2021Bandara AB, Drake JC, James CC, Smyth JW, Brown DA (2021) Complex I protein NDUFS2 is vital for growth, ROS generation, membrane integrity, apoptosis, and mitochondrial energetics. Mitochondrion 58:160-68.HumanHEK
Moon 2021 J Lipid Res2021Moon SH, Dilthey BG, Liu X, Guan S, Sims HF, Gross RW (2021) High-Fat diet activates liver iPLA2γ generating eicosanoids that mediate metabolic stress. J Lipid Res 62:100052.MouseLiverObesity
Chambers 2021 JCI Insight2021Chambers KT, Cooper MA, Swearingen AR, Brookheart RT, Schweitzer GG, Weinheimer CJ, Kovacs A, Koves TR, Muoio DM, McCommis KS, Finck BN (2021) Myocardial Lipin 1 knockout in mice approximates cardiac effects of human LPIN1 mutations. JCI Insight 6:134340.MouseHeartCardiovascular
Tallosy 2021 Sci Rep2021Tallósy SP, Poles MZ, Rutai A, Fejes R, Juhász L, Burián K, Sóki J, Szabó A, Boros M, Kaszaki J (2021) The microbial composition of the initial insult can predict the prognosis of experimental sepsis. Sci Rep 11:22772.RatLiverSepsis
Goldberg 2021 Biochem J2021Goldberg EJ, Buddo KA, McLaughlin KL, Fernandez RF, Pereyra AS, Psaltis CE, Lin CT, Hagen JT, Boykov IN, Nguyen TK, Gowdy KM, Ellis JM, Neufer PD, McClung JM, Fisher-Wellman KH (2021) Tissue-specific characterization of mitochondrial branched-chain keto acid oxidation using a multiplexed assay platform. Biochem J 476:1521-37.MouseHeart
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Avram 2021 Life (Basel)2021Avram VF, Bina AM, Sima A, Aburel OM, Sturza A, Burlacu O, Timar RZ, Muntean DM, Elmer E, Cretu OM (2021) Improvement of platelet respiration by cell-permeable succinate in diabetic patients treated with statins. Life (Basel) 11:288.HumanPlateletDiabetes
Jasz 2021 J Cell Mol Med2021Jász DK, Szilágyi ÁL, Tuboly E, Baráth B, Márton AR, Varga P, Varga G, Érces D, Mohácsi Á, Szabó A, Bozó R, Gömöri K, Görbe A, Boros M, Hartmann P (2021) Reduction in hypoxia-reoxygenation-induced myocardial mitochondrial damage with exogenous methane. https://doi.org/10.1111/jcmm.16498RatHeartIschemia-reperfusion
Vandenberg 2021 Neurochem Int2021Vandenberg GG, Dawson NJ, Head A, Scott GR, Scott AL (2021) Astrocyte-mediated disruption of ROS homeostasis in Fragile X mouse model. Neurochem Int 146:105036.MouseNervous systemAutism
Sarabhai 2021 Diabetologia2021Sarabhai T, Koliaki C, Mastrototaro L, Kahl S, Pesta D, Apostolopoulou M, Wolkersdorfer M, Bönner AC, Bobrov P, Markgraf DF, Herder C, Roden M (2021) Dietary palmitate and oleate differently modulate insulin sensitivity in human skeletal muscle. Diabetologia 65:301-14.HumanSkeletal muscleDiabetes
Thoral 2021 Biol Lett2021Thoral E, Roussel D, Chinopoulos C, Teulier L, Salin K (2021) Low oxygen levels can help to prevent the detrimental effect of acute warming on mitochondrial efficiency in fish. Biol Lett 17:20200759.FishesSkeletal muscle
Flensted-Jensen 2021 Free Radic Biol Med2021Flensted-Jensen M, Gram M, Dela F, Helge JW, Larsen S (2021) Six weeks of high intensity cycle training reduces H2O2 emission and increases antioxidant protein levels in obese adults with risk factors for type 2 diabetes. Free Radic Biol Med 173:1-6.HumanSkeletal muscleObesity
Antico 2021 Sci Adv2021Antico O, Ordureau A, Stevens M, Singh F, Nirujogi RS, Gierlinski M, Barini E, Rickwood ML, Prescott A, Toth R, Ganley IG, Harper JW, Muqit MMK (2021) Global ubiquitylation analysis of mitochondria in primary neurons identifies endogenous Parkin targets following activation of PINK1. Sci Adv 7:eabj0722.MouseNervous system
Baldini 2021 Life Sci2021Baldini F, Fabbri R, Eberhagen C, Voci A, Portincasa P, Zischka H, Vergani L (2021) Adipocyte hypertrophy parallels alterations of mitochondrial status in a cell model for adipose tissue dysfunction in obesity. Life Sci 265:118812.MouseFibroblastObesity
Watt 2021 Nat Commun2021Watt KI, Henstridge DC, Ziemann M, Sim CB, Montgomery MK, Samocha-Bonet D, Parker BL, Dodd GT, Bond ST, Salmi TM, Lee RS, Thomson RE, Hagg A, Davey JR, Qian H, Koopman R, El-Osta A, Greenfield JR, Watt MJ, Febbraio MA, Drew BG, Cox AG, Porrello ER, Harvey KF, Gregorevic P (2021) Yap regulates skeletal muscle fatty acid oxidation and adiposity in metabolic disease. Nat Commun 12:2887.MouseSkeletal muscleObesity
Kumar 2021 JCI Insight2021Kumar A, Welch N, Mishra S, Bellar A, Silva RN, Li L, Singh SS, Sharkoff M, Kerr A, Chelluboyina AK, Sekar J, Attaway AH, Hoppel C, Willard B, Davuluri G, Dasarathy S (2021) Metabolic reprogramming during hyperammonemia targets mitochondrial function and postmitotic senescence. JCI Insight 6:e154089.Mouse
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Connell 2021 J Nutr2021Connell NJ, Grevendonk L, Fealy CE, Moonen-Kornips E, Bruls YMH, Schrauwen-Hinderling VB, de Vogel J, Hageman R, Geurts J, Zapata-Perez R, Houtkooper RH, Havekes B, Hoeks J, Schrauwen P (2021) NAD+-precursor supplementation with L-tryptophan, nicotinic acid, and nicotinamide does not affect mitochondrial function or skeletal muscle function in physically compromised older adults. J Nutr 151:2917-31HumanSkeletal muscle
Hoppel 2021 Cells2021Hoppel F, Garcia-Souza LF, Kantner-Rumplmair W, Burtscher M, Gnaiger E, Pesta D, Calabria E (2021) Human platelet mitochondrial function reflects systemic mitochondrial alterations: a protocol for application in field studies. https://doi.org/10.3390/cells10082088HumanPlatelet
Knapp-Wilson 2021 bioRxiv2021Knapp-Wilson A, Pereira GC, Buzzard E, Richardson A, Corey RA, Neal C, Verkade P, Halestrap AP, Gold VAM, Kuwabara P, Collinson I (2021) Maintenance of complex I and respiratory super-complexes by NDUF-11 is essential for respiratory function, mitochondrial structure and health in C. elegans. bioRxiv doi: https://doi.org/10.1101/2021.01.06.425530.Caenorhabditis elegans
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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Branco Haas 2021 Thesis2021Branco Haas C (2021) Insulin signaling and microglia in the young and aged brain. PhD Thesis 135.
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Theall 2021 Physiol Rep2021Theall B, Stampley J, Cho E, Granger J, Johannsen NM, Irving BA, Spielmann G (2021) Impact of acute exercise on peripheral blood mononuclear cells nutrient sensing and mitochondrial oxidative capacity in healthy young adults. Physiol Rep 9:e15147.HumanBlood cells
Willis 2021 Sci Rep2021Willis JR, Hickey AJR, Devaux JBL (2021) Thermally tolerant intertidal triplefin fish (Tripterygiidae) sustain ATP dynamics better than subtidal species under acute heat stress. Sci Rep 11:11074.FishesNervous system
Colin 2021 J Cell Mol Med2021Colin M, Dechene L, Ceusters J, Niesten A, Demazy C, Lagneaux L, Zouaoui Boudjeltia K, Franck T, Van Antwerpen P, Renard P, Mathieu V, Serteyn D (2021) Priming of mesenchymal stem cells with a hydrosoluble form of curcumin allows keeping their mesenchymal properties for cell-based therapy development. J Cell Mol Med 25:4877-81.HorseStem cells
Pharaoh 2021 JCSM Rapid Commun2021Pharaoh G, Brown J, Ranjit R, Ungvari Z, Van Remmen H (2021) Reduced adenosine diphosphate sensitivity in skeletal muscle mitochondria increases reactive oxygen species production in mouse models of aging and oxidative stress but not denervation. https://doi.org/10.1002/rco2.29MouseSkeletal muscle
Axelrod 2021 EMBO Mol Med2021Axelrod CL, King WT, Davuluri G, Noland RC, Hall J, Hull M, Dantas WS, Zunica ER, Alexopoulos SJ, Hoehn KL, Langohr I, Stadler K, Doyle H, Schmidt E, Nieuwoudt S, Fitzgerald K, Pergola K, Fujioka H, Mey JT, Fealy C, Mulya A, Beyl R, Hoppel CL, Kirwan JP (2021) BAM15-mediated mitochondrial uncoupling protects against obesity and improves glycemic control. EMBO Mol Med 12:12088.MouseSkeletal muscleObesity
Cardinale 2021 J Appl Physiol (1985)2021Cardinale DA, Gejl KD, Petersen KG, Nielsen J, Ørtenblad N, Larsen FJ (2021) Short-term intensified training temporarily impairs mitochondrial respiratory capacity in elite endurance athletes. J Appl Physiol (1985) 131:388-400.HumanSkeletal muscle
Acin-Perez 2021 Life (Basel)2021Acin-Perez R, Benincá C, Shabane B, Shirihai OS, Stiles L (2021) Utilization of human samples for assessment of mitochondrial bioenergetics: gold standards, limitations, and future perspectives. Life (Basel) 11:949. doi: 10.3390/life11090949HumanSkeletal muscle
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Mitochondrial disease
Correia 2021 Hum Mutat2021Correia SP, Moedas MF, Naess K, Bruhn H, Maffezzini C, Calvo-Garrido J, Lesko N, Wibom R, Schober FA, Jemt A, Stranneheim H, Freyer C, Wedell A, Wredenberg A (2021) Severe congenital lactic acidosis and hypertrophic cardiomyopathy caused by an intronic variant in NDUFB7. Hum Mutat 42:378-84.HumanFibroblast
Schroeder 2021 Cell Rep2021Schroeder S, Hofer SJ, Zimmermann A, Pechlaner R, Dammbrueck C, Pendl T, Marcello GM, Pogatschnigg V, Bergmann M, Mueller M, Gschiel V, Ristic S, Tadic J, Iwata K, Richter G, Farzi A, Uecal M, Schaefer U, Poglitsch M, Royer P, Mekis R, Agreiter M, Toelle RC, Sotonyi P, Willeit J, Mairhofer B, Niederkofler H, Pallhuber I, Rungger G, Tilg H, Defrancesco M, Marksteiner J, Sinner F, Magnes C, Pieber TR, Holzer P, Kroemer G, Carmona-Gutierrez D, Scorrano L, Dengjel J, Madl T, Sedej S, Sigrist SJ, Racz B, Kiechl S, Eisenberg T, Madeo F (2021) Dietary spermidine improves cognitive function. Cell Rep 35:108985.Mouse
Drosophila
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Scalzo 2021 J Physiol2021Scalzo RL, Schauer IE, Rafferty D, Knaub LA, Kvaratskhelia N, Johnson TK, Pott GB, Abushamat LA, Whipple MO, Huebschmann AG, Cree-Green M, Reusch JEB, Regensteiner JG (2021) Single-leg exercise training augments in vivo skeletal muscle oxidative flux and vascular content and function in adults with type 2 diabetes. J Physiol 600:963-78.HumanSkeletal muscleDiabetes
Flockhart 2021 Cell Metab2021Flockhart M, Nilsson LC, Tais S, Ekblom B, Apro W, Larsen FJ (2021) Excessive exercise training causes mitochondrial functional impairment and decreases glucose tolerance in healthy volunteers. Cell Metab 33:957-70.HumanSkeletal muscle
Davis 2021 J Appl Physiol2021Davis MS, Barrett MR (2021) Effect of conditioning and physiology hyperthermia on canine skeletal muscle mitochondrial oxygen consumption. J Appl Physiol. 130:1317-1325DogSkeletal muscleTemperature
Dunn 2021 Arterioscler Thromb Vasc Biol2021Dunn LL, Kong SMY, Tumanov S, Chen W, Cantley J, Ayer A, Maghzal GJ, Midwinter RG, Chan KH, Ng MKC, Stocker R (2021) Hmox1 (heme oxygenase-1) protects against ischemia-mediated injury via stabilization of HIF-1α (hypoxia-inducible factor-1α). Arterioscler Thromb Vasc Biol 41:317-30.MouseSkeletal muscleHypoxia
Marrocco 2021 J Immunol2021Marrocco A, Frawley K, Pearce LL, Peterson J, O'Brien JP, Mullett SJ, Wendell SG, St Croix CM, Mischler SE, Ortiz LA (2021) Metabolic adaptation of macrophages as mechanism of defense against crystalline silica. J Immunol 207:1627-40.MouseMacrophage-derivedOther
Klepinina 2021 PLoS One2021Klepinina L, Klepinin A, Truu L, Chekulayev V, Vija H, Kuus K, Teino I, Pook M, Maimets T, Kaambre T (2021) Colon cancer cell differentiation by sodium butyrate modulates metabolic plasticity of Caco-2 cells via alteration of phosphotransfer network. PLoS One 16:e0245348.HumanEndothelial;epithelial;mesothelial cellCancer
Hansen 2021 Physiol Rep2021Hansen C, Olsen K, Pilegaard H, Bangsbo J, Gliemann L, Hellsten Y (2021) High metabolic substrate load induces mitochondrial dysfunction in rat skeletal muscle microvascular endothelial cells. Physiol Rep 9:e14855.RatSkeletal muscle
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Rodrigues 2021 Sci Rep2021Rodrigues AQ, Picolo VL, Goulart JT, Silva IMG, Ribeiro RB, Aguiar BA, Ferreira YB, Oliveira DM, Lucci CM, de Bem AF, Paulini F (2021) Metabolic activity in cryopreserved and grafted ovarian tissue using high-resolution respirometry. Sci Rep 11:21517.MouseGenitalCryopreservation
Furihata 2021 Commun Biol2021Furihata T, Takada S, Kakutani N, Maekawa S, Tsuda M, Matsumoto J, Mizushima W, Fukushima A, Yokota T, Enzan N, Matsushima S, Handa H, Fumoto Y, Nio-Kobayashi J, Iwanaga T, Tanaka S, Tsutsui H, Sabe H, Kinugawa S (2021) Cardiac-specific loss of mitoNEET expression is linked with age-related heart failure. Commun Biol 4:138.MouseHeartAging;senescence
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Babylon 2021 Antioxidants (Basel)2021Babylon L, Grewal R, Stahr PL, Eckert RW, Keck CM, Eckert GP (2021) Hesperetin nanocrystals improve mitochondrial function in a cell model of early Alzheimer disease. Antioxidants (Basel) 10:1003.HumanNeuroblastomaAlzheimer's
Dall 2021 J Biol Chem2021Dall M, Hassing AS, Niu L, Nielsen TS, Ingerslev LR, Sulek K, Trammell SAJ, Gillum MP, Barrès R, Larsen S, Poulsen SS, Mann M, Ørskov C, Treebak JT (2021) Hepatocyte-specific perturbation of NAD+ biosynthetic pathways in mice induces reversible nonalcoholic steatohepatitis-like phenotypes. J Biol Chem 297:101388.MouseLiverOther
Pereyra 2021 J Lipid Res2021Pereyra AS, Harris KL, Soepriatna AH, Waterbury QA, Bharathi SS, Zhang Y, Fisher-Wellman KH, Goergen CJ, Goetzman ES, Ellis JM (2021) Octanoate is differentially metabolized in liver and muscle and fails to rescue cardiomyopathy in CPT2 deficiency. J Lipid Res 62:100069.MouseHeart
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MacCannell 2021 Int J Obes (Lond)2021MacCannell ADV, Futers TS, Whitehead A, Moran A, Witte KK, Roberts LD (2021) Sexual dimorphism in adipose tissue mitochondrial function and metabolic flexibility in obesity. Int J Obes (Lond) 45:1773-81.MouseFatObesity
Liu 2021 Front Physiol2021Liu H, Tenzing N, van Patot MT, Qile M, Ge RL, Wuren T (2021) Enhanced placental mitochondrial respiration in Tibetan women at high altitude. Front Physiol 12:697022. doi: 10.3389/fphys.2021.697022HumanGenitalHypoxia
Mazzoli 2021 Antioxidants (Basel)2021Mazzoli A, Spagnuolo MS, Nazzaro M, Gatto C, Iossa S, Cigliano L (2021) Fructose removal from the diet reverses inflammation, mitochondrial dysfunction, and oxidative stress in hippocampus. Antioxidants (Basel) 10:487.RatNervous system
King 2021 J Biol Chem2021King WT, Axelrod CL, Zunica ERM, Noland RC, Davuluri G, Fujioka H, Tandler B, Pergola K, Hermann GE, Rogers RC, López-Domènech S, Dantas WS, Stadler K, Hoppel CL, Kirwan JP (2021) Dynamin-related protein 1 regulates substrate oxidation in skeletal muscle by stabilizing cellular and mitochondrial calcium dynamics. J Biol Chem 297:101196.MouseSkeletal muscle
Gratl 2021 J Transl Med2021Gratl A, Pesta D, Gruber L, Speichinger F, Raude B, Omran S, Greiner A, Frese JP (2021) The effect of revascularization on recovery of mitochondrial respiration in peripheral artery disease: a case control study. https://doi.org/10.1186/s12967-021-02908-0JHumanSkeletal muscleIschemia-reperfusion
Morgan 2021 Resuscitation2021Morgan RW, Sutton RM, Himebauch AS, Roberts AL, Landis WP, Lin Y, Starr J, Ranganathan A, Delso N, Mavroudis CD, Volk L, Slovis J, Marquez AM, Nadkarni VM, Hefti M, Berg RA, Kilbaugh TJ (2021) A randomized and blinded trial of inhaled nitric oxide in a piglet model of pediatric cardiopulmonary resuscitation. Resuscitation 162:274-83 .PigNervous systemCardiovascular
Gomez-Valades 2021 Cell Metab2021Gómez-Valadés AG, Pozo M, Varela L, Boudjadja MB, Ramírez S, Chivite I, Eyre E, Haddad-Tóvolli R, Obri A, Milà-Guasch M, Altirriba J, Schneeberger M, Imbernón M, Garcia-Rendueles AR, Gama-Perez P, Rojo-Ruiz J, Rácz B, Alonso MT, Gomis R, Zorzano A, D'Agostino G, Alvarez CV, Nogueiras R, Garcia-Roves PM, Horvath TL, Claret M (2021) Mitochondrial cristae-remodeling protein OPA1 in POMC neurons couples Ca2+ homeostasis with adipose tissue lipolysis . Cell Metab 33:1820-35.e9.MouseNervous system
Knapp-Wilson 2021 J Cell Sci2021Knapp-Wilson A, Pereira GC, Buzzard E, Ford HC, Richardson A, Corey RA, Neal C, Verkade P, Halestrap AP, Gold VAM, Kuwabara PE, Collinson I (2021) Maintenance of complex I and its supercomplexes by NDUF-11 is essential for mitochondrial structure, function and health. J Cell Sci 134:jcs258399. doi: 10.1242/jcs.258399Caenorhabditis elegansOxidative stress;RONS
Hoppel 2021 Front Physiol2021Hoppel F, Calabria E, Pesta DH, Kantner-Rumplmair W, Gnaiger E, Burtscher M (2021) Effects of ultramarathon running on mitochondrial function of platelets and oxidative stress parameters: a pilot study. https://doi.org/10.3389/fphys.2021.632664HumanPlateletOxidative stress;RONS
Su 2021 Chin J Physiol2021Su Y, Wang Y, Xu P, Sun Y, Ping Z, Huang H, Cao X (2021) Study on the time-effectiveness of exercise preconditioning on heart protection in exhausted rats. Chin J Physiol 64:97-105.RatHeart
Zanou 2021 Nat Commun2021Zanou N, Dridi H, Reiken S, Imamura de Lima T, Donnelly C, De Marchi U, Ferrini M, Vidal J, Sittenfeld L, Feige JN, Garcia-Roves PM, Lopez-Mejia IC, Marks AR, Auwerx J, Kayser B, Place N (2021) Acute RyR1 Ca2+ leak enhances NADH-linked mitochondrial respiratory capacity. Nat Commun 12:7219.MouseSkeletal muscle
Terwilliger 2021 Vasc Med2021Terwilliger ZS, Ryan TE, Goldberg EJ, Schmidt CA, Yamaguchi DJ, Karnekar R, Brophy P, Green TD, Zeczycki TN, Mac Gabhann F, Annex BH, McClung JM (2021) Racial differences in the limb skeletal muscle transcriptional programs of patients with critical limb ischemia. Vasc Med 26:247-58.HumanSkeletal muscleCardiovascular
Gnaiger 2021 MitoFit BCA2021Gnaiger E (2021) Bioenergetic cluster analysis – mitochondrial respiratory control in human fibroblasts. MitoFit Preprints 2021.08. https://doi.org/10.26124/mitofit:2021-0008HumanFibroblastAging;senescence
Davis 2021 Comparative Exercise Physiology2021Davis Michael, Barrett Montana, Popken Andrea (2021) Effect of hyperthermia and acidosis on equine skeletal muscle mitochondrial oxygen consumption. Comparative Exercise Physiology 17:171-179.HorseSkeletal muscleTemperature
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
Gvozdjakova 2021 PLoS One2021Gvozdjáková A, Sumbalová Z, Kucharská J, Szamosová M, Čápová L, Rausová Z, Vančová O, Mojto V, Langsjoen P, Palacka P (2021) Platelet mitochondrial respiration and coenzyme Q10 could be used as new diagnostic strategy for mitochondrial dysfunction in rheumatoid diseases. PLoS ONE 16:e0256135.HumanPlateletOther
Nedel 2021 Intensive Care Med Exp2021Nedel WL, Kopczynski A, Rodolphi MS, Strogulski NR, De Bastiani M, Montes THM, Abruzzi J Jr, Galina A, Horvath TL, Portela LV (2021) Mortality of septic shock patients is associated with impaired mitochondrial oxidative coupling efficiency in lymphocytes: a prospective cohort study. Intensive Care Med Exp 9:39.HumanLymphocyteSepsis
MiPNet21.17 BloodCellsIsolation2020-10-22
O2k-Protocols
O2k-Protocols: Isolation of blood cells for HRR.
HumanBlood cells
Platelet
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Lensu 2020 Nutrients2020Lensu S, Pariyani R, Mäkinen E, Yang B, Saleem W, Munukka E, Lehti M, Driuchina A, Lindén J, Tiirola M, Lahti L, Pekkala S (2020) Prebiotic xylo-oligosaccharides ameliorate high-fat-diet-induced hepatic steatosis in rats . Nutrients 12:E3225.RatLiverOther
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
Allen 2020 Commun Biol2020Allen ME, Pennington ER, Perry JB, Dadoo S, Makrecka-Kuka M, Dambrova M, Moukdar F, Patel HD, Han X, Kidd GK, Benson EK, Raisch TB, Poelzing S, Brown DA, Shaikh SR (2020) The cardiolipin-binding peptide elamipretide mitigates fragmentation of cristae networks following cardiac ischemia reperfusion in rats. Commun Biol 3:389.RatHeartIschemia-reperfusion
Rodriguez 2020 J Gerontol A Biol Sci Med Sci2020Rodríguez E, Hakkou M, Hagen TM, Lemieux H, Blier PU (2020) Divergences in the control of mitochondrial respiration are associated with lifespan variation in marine bivalves. J Gerontol A Biol Sci Med Sci 76:796-804.MolluscsAging;senescence
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Cheng 2020 Am J Physiol Heart Circ Physiol2020Cheng TC, Philip JL, Tabima DM, Kumari S, Yakubov B, Frump AL, Hacker TA, Bellofiore A, Li R, Sun X, Goss KN, Lahm T, Chesler N (2020) Estrogen receptor alpha prevents right ventricular diastolic dysfunction and fibrosis in female rats . Am J Physiol Heart Circ Physiol 319:H1459-73.RatHeartCardiovascular
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
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... further results



Labels:




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

HRR: Theory 



MitoPedia concepts: Respiratory control ratio, Ergodynamics 


MitoPedia methods: Respirometry