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 YearReferenceTissue and cellCell lineMammal and modelNonmammal
MiPNet18.10 O2k-Specifications2024-03-26
Oroboros

O2k-specifications for respirometry and comprehensive OXPHOS analysis.

FibroblastHuman
Mahapatra 2024 J Gerontol A Biol Sci Med Sci2024Mahapatra G, Gao Z, Bateman JR 3rd, Lockhart SN, Bergstrom J, Piloso JE, Craft S, Molina AJA (2024) Peripheral blood cells from older adults exhibit sex-associated differences in mitochondrial function. J Gerontol A Biol Sci Med Sci [Epub ahead of print]. https://doi.org/10.1093/gerona/glae098Blood cellsHuman
Lin 2024 Apoptosis2024Lin HY, Liang CJ, Yang MY, Chen PL, Wang TM, Chen YH, Shih YH, Liu W, Chiu CC, Chiang CK, Lin CS, Lin HC (2024) Critical roles of tubular mitochondrial ATP synthase dysfunction in maleic acid-induced acute kidney injury. https://doi.org/10.1007/s10495-023-01897-3KidneyHuman
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.2448068.034Nervous systemMouse
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.2024.01.008LiverHuman
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.14119Skeletal muscleMouse
Meldau 2024 Mol Genet Metab Rep2024Meldau S, Ackermann S, Riordan G, van der Watt GF, Spencer C, Raga S, Khan K, Blackhurst DM, van der Westhuizen FH (2024) A novel mitochondrial DNA variant in MT-ND6: m.14430A>C p.(Trp82Gly) identified in a patient with Leigh syndrome and complex I deficiency. Mol Genet Metab Rep 39:101078. https://doi.org/10.1016/j.ymgmr.2024.101078FibroblastHuman
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
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.246990FibroblastOther mammals
Pegoraro 2024 Adv Drug Deliv Rev2024Pegoraro C, Domingo I, Conejos-Sánchez I, Vicent MJ (2024) Unlocking the mitochondria for nanomedicine-based treatments: overcoming biological barriers, improving designs, and selecting verification techniques.
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.245828Artemia
Romagnolo 2024 Acta Neuropathol2024Romagnolo A, Dematteis G, Scheper M, Luinenburg MJ, Mühlebner A, Van Hecke W, Manfredi M, De Giorgis V, Reano S, Filigheddu N, Bortolotto V, Tapella L, Anink JJ, François L, Dedeurwaerdere S, Mills JD, Genazzani AA, Lim D, Aronica E (2024) Astroglial calcium signaling and homeostasis in tuberous sclerosis complex. Acta Neuropathol 147:48. https://doi.org/10.1007/s00401-024-02711-3Nervous systemHuman
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.2024.1356312Skeletal muscleMouse
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.2024.02.001Skeletal muscleHuman
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/s43856-024-00465-3LiverMouse
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.2024.167033Nervous system
Liver		Mouse
Torcasio 2024 J Transl Med2024Torcasio R, Gallo Cantafio ME, Veneziano C, De Marco C, Ganino L, Valentino I, Occhiuzzi MA, Perrotta ID, Mancuso T, Conforti F, Rizzuti B, Martino EA, Gentile M, Neri A, Viglietto G, Grande F, Amodio N (2024) Targeting of mitochondrial fission through natural flavanones elicits anti-myeloma activity. J Transl Med 22:208. https://doi.org/10.1186/s12967-024-05013-0Blood cellsHuman
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.2024.116254LiverMouse
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/s41467-023-44057-6LiverMouse
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.adj2752Skeletal muscleMouse
Shi 2024 Clin Sci (Lond)2024Shi L, Yang J, Tao Z, Zheng L, Bui TF, Alonso RL, Yue F, Cheng Z (2024) Loss of FoxO1 activates an alternate mechanism of mitochondrial quality control for healthy adipose browning. Clin Sci (Lond) 138:371-85. https://doi.org/10.1042/cs20230973FibroblastMouse
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.13439Skeletal muscleMouse
Ravasz 2024 Sci Rep2024Ravasz D, Bui D, Nazarian S, Pallag G, Karnok N, Roberts J, Marzullo BP, Tennant DA, Greenwood B, Kitayev A, Hill C, Komlódi T, Doerrier C, Cunatova K, Fernandez-Vizarra E, Gnaiger E, Kiebish Michael A, Raska A, Kolev K, Czumbel B, Narain NR, Seyfried TN, Chinopoulos C (2024) Residual Complex I activity and amphidirectional Complex II operation support glutamate catabolism through mtSLP in anoxia. Sci Rep 14:1729. https://doi.org/10.1038/s41598-024-51365-4Heart
Liver		Mouse
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/ep091304HeartMouse
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.2024.12380LiverHuman
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
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:2024-0002Skeletal muscleHorse
Fehsenfeld 2024 Comp Biochem Physiol A Mol Integr Physiol2024Fehsenfeld S, Yoon GR, Quijada-Rodriguez AR, Kandachi-Toujas H, Calosi P, Breton S, Weihrauch D (2024) Short-term exposure to high pCO2 leads to decreased branchial cytochrome C oxidase activity in the presence of octopamine in a decapod. https://doi.org/10.1016/j.cbpa.2024.111603
Song 2024 Commun Biol2024Song A, Zhao N, Hilpert DC, Perry C, Baur JA, Wallace DC, Schaefer PM (2024) Visualizing subcellular changes in the NAD(H) pool size versus redox state using fluorescence lifetime imaging microscopy of NADH. Commun Biol 7:428. https://doi.org/10.1038/s42003-024-06123-7HEKHuman
Nastasi 2024 Int J Mol Sci2024Nastasi MR, Borisov VB, Forte E (2024) Membrane-bound redox enzyme cytochrome bd-I promotes carbon monoxide-resistant Escherichia coli growth and respiration. https://doi.org/10.3390/ijms25021277
Taylor 2024 Pilot Feasibility Stud2024Taylor MK, Burns JM, Choi IY, Herda TJ, Lee P, Smith AN, Sullivan DK, Swerdlow RH, Wilkins HM (2024) Protocol for a single-arm, pilot trial of creatine monohydrate supplementation in patients with Alzheimer's disease. Pilot Feasibility Stud 10:42. https://doi.org/10.1186/s40814-024-01469-5Lymphocyte
Platelet		Human
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.2024.103037Heart
Skeletal muscle		Human
Mouse
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/phy2.15957FatHuman
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-wSkeletal muscleDrosophila
MiPNet28.08 Oroboros O2k Series J manual2023-10-19
O2k-Manual

Oroboros O2k Series J manual

MiPNet28.07 NextGen-O2k Series XB manual2023-10-19
O2k-Manual

NextGen-O2k Series XB manual

MiPNet14.06 Instrumental O2 background2023-10-19
O2k-Manual

O2k Quality Control 2: Instrumental oxygen background correction and accuracy of oxygen flux.

MiPNet28.10 SmartPOS-service2023-09-29
O2k-Manual

SmartPOS: Service

MiPNet19.14 SOP Hamilton microsyringes2023-09-28
O2k-Manual

SOP for manual O2k-titrations with Hamilton microsyringes.

MiPNet28.09 O2k-Fluo Smart-Module manual2023-09-25
O2k-Manual

O2k-Fluo Smart-Module manual

MiPNet28.06 IOC161 Coimbra PT2023-04-12
O2k-Network

Cantanhede, PT, 2023 Apr 12. Oroboros O2k-Workshop on high-resolution respirometry (HRR), IOC161.

MiPNet19.03 O2k-cleaning and ISS2023-03-14
O2k-Manual

O2k-Chamber cleaning SOP and Integrated Suction System (ISS).

MiPNet22.11 O2k-FluoRespirometer manual2023-03-14
O2k-Manual

O2k-FluoRespirometer manual.

MiPNet28.03 IOC157 Los Angeles US2023-02-14
O2k-Network

Los Angeles, CA US, 2023 Feb 14-16. Oroboros O2k-Workshop on high-resolution respirometry (HRR), IOC157.

MiPNet06.03 POS-calibration-SOP2023-02-06
O2k-Manual

O2k Quality Control 1: Polarographic oxygen sensors and accuracy of calibration.

Vilas-Boas 2023 J Biol Chem2023Vilas-Boas EA, Cabral-Costa JV, Ramos VM, Caldeira da Silva CC, Kowaltowski AJ (2023) Goldilocks calcium concentrations and the regulation of oxidative phosphorylation: too much, too little, or just right. https://doi.org/10.1016/j.jbc.2023.102904LiverMouse
Sucha 2023 Int J Mol Sci2023Sucha M, Benediktova S, Tichanek F, Jedlicka J, Kapl S, Jelinkova D, Purkartova Z, Tuma J, Kuncova J, Cendelin J (2023) Experimental treatment with edaravone in a mouse model of spinocerebellar ataxia 1. https://doi.org/10.3390/ijms241310689Nervous systemMouse
Sharma 2023 Biosci Biotechnol Biochem2023Sharma S, Zhang X, Azhar G, Patyal P, Verma A, Kc G, Wei JY (2023) Valine improves mitochondrial function and protects against oxidative stress. https://doi.org/10.1093/bbb/zbad169Skeletal muscleMouse
Dreher 2023 Int J Obes (Lond)2023Dreher SI, Irmler M, Pivovarova-Ramich O, Kessler K, Jürchott K, Sticht C, Fritsche L, Schneeweiss P, Machann J, Pfeiffer AFH, Hrabě de Angelis M, Beckers J, Birkenfeld AL, Peter A, Niess AM, Weigert C, Moller A (2023) Acute and long-term exercise adaptation of adipose tissue and skeletal muscle in humans: a matched transcriptomics approach after 8-week training-intervention. https://doi.org/10.1038/s41366-023-01271-ySkeletal muscle
Fat		Human
Clemente 2023 Commun Biol2023Clemente N, Baroni S, Fiorilla S, Tasso F, Reano S, Borsotti C, Ruggiero MR, Alchera E, Corrazzari M, Walker G, Follenzi A, Crich SG, Carini R (2023) Boosting intracellular sodium selectively kills hepatocarcinoma cells and induces hepatocellular carcinoma tumor shrinkage in mice. https://doi.org/10.1038/s42003-023-04946-4LiverHuman
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.00158.2023Skeletal muscleHuman
Doke 2023 Nat Metab2023Doke T, Mukherjee S, Mukhi D, Dhillon P, Abedini A, Davis JG, Chellappa K, Chen B, Baur JA, Susztak K (2023) NAD+ precursor supplementation prevents mtRNA/RIG-I-dependent inflammation during kidney injury. https://doi.org/10.1038/s42255-023-00761-7KidneyHuman
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/phy2.15734Skeletal muscleHuman
Sadri 2023 Arch Biochem Biophys2023Sadri S, Tomar N, Yang C, Audi SH, Cowley AW Jr, Dash RK (2023) Effects of ROS pathway inhibitors and NADH and FADH2 linked substrates on mitochondrial bioenergetics and ROS emission in the heart and kidney cortex and outer medulla. Arch Biochem Biophys 744:109690. https://doi.org/10.1016/j.abb.2023.109690Heart
Kidney		Rat
Naghipour 2023 Dis Model Mech2023Naghipour S, Fisher JJ, Perkins AV, Peart JN, Headrick JP, Du Toit EF (2023) Trimethylamine-N-oxide paradoxically depresses contractile function while activating mitochondrial respiration in mouse hearts. https://doi.org/10.1242/dmm.049975
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.2023.05.002Skeletal muscleMouse
Santos-Silva 2023 Transl Psychiatry2023Santos-Silva T, Hazar Ülgen D, Lopes CFB, Guimarães FS, Alberici LC, Sandi C, Gomes FV (2023) Transcriptomic analysis reveals mitochondrial pathways associated with distinct adolescent behavioral phenotypes and stress response. https://doi.org/10.1038/s41398-023-02648-3Nervous systemRat
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/molecules28010421Endothelial;epithelial;mesothelial cellHuman
Shi 2023 Redox Biol2023Shi L, Tao Z, Zheng L, Yang J, Hu X, Scott K, de Kloet A, Krause E, Collins JF, Cheng Z (2023) FoxO1 regulates adipose transdifferentiation and iron influx by mediating Tgfβ1 signaling pathway. https://doi.org/10.1016/j.redox.2023.102727FatMouse
Mahmoud 2023 Pharmacol Res2023Mahmoud AM, Kostrzewa M, Marolda V, Cerasuolo M, Maccarinelli F, Coltrini D, Rezzola S, Giacomini A, Mollica MP, Motta A, Paris D, Zorzano A, Marzo VD, Ronca R, Ligresti A (2023) Cannabidiol alters mitochondrial bioenergetics via VDAC1 and triggers cell death in hormone-refractory prostate cancer. https://doi.org/10.1016/j.phrs.2023.106683Endothelial;epithelial;mesothelial cellMouse
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-zSkeletal muscleHuman
Krause 2023 J Transl Med2023Krause J, Nickel A, Madsen A, Aitken-Buck HM, Stoter AMS, Schrapers J, Ojeda F, Geiger K, Kern M, Kohlhaas M, Bertero E, Hofmockel P, Hübner F, Assum I, Heinig M, Müller C, Hansen A, Krause T, Park DD, Just S, Aïssi D, Börnigen D, Lindner D, Friedrich N, Alhussini K, Bening C, Schnabel RB, Karakas M, Iacoviello L, Salomaa V, Linneberg A, Tunstall-Pedoe H, Kuulasmaa K, Kirchhof P, Blankenberg S, Christ T, Eschenhagen T, Lamberts RR, Maack C, Stenzig J, Zeller T (2023) An arrhythmogenic metabolite in atrial fibrillation. https://doi.org/10.1186/s12967-023-04420-zHeartHuman
Bahire 2023 Mitochondrion2023Bahire KL, Maļuhins R, Bello F, Freitag SV, Jeļisejevs I, Gile R, Upīte J, Plesnila N, Jansone B (2023) Hemispheric analysis of mitochondrial complex I and II activity in the mouse model of ischemia-reperfusion-induced injury. https://doi.org/10.1016/j.mito.2023.02.005Nervous systemMouse
Strogulski 2023 J Neurochem2023Strogulski NR, Portela LV, Polster BM, Loane DJ (2023) Fundamental neurochemistry review: microglial immunometabolism in traumatic brain injury. https://doi.org/10.1111/jnc.15959
Koizumi 2023 Front Cardiovasc Med2023Koizumi T, Watanabe M, Yokota T, Tsuda M, Handa H, Koya J, Nishino K, Tatsuta D, Natsui H, Kadosaka T, Koya T, Nakao M, Hagiwara H, Kamada R, Temma T, Tanaka S, Anzai T (2023) Empagliflozin suppresses mitochondrial reactive oxygen species generation and mitigates the inducibility of atrial fibrillation in diabetic rats. Front Cardiovasc Med 10: 1005408.HeartRat
Peixoto 2023 J Physiol Biochem2023Peixoto ÁS, Moreno MF, Castro É, Perandini LA, Belchior T, Oliveira TE, Vieira TS, Gilio GR, Tomazelli CA, Leonardi BF, Ortiz-Silva M, Silva Junior LP, Moretti EH, Steiner AA, Festuccia WT (2023) Hepatocellular carcinoma induced by hepatocyte Pten deletion reduces BAT UCP-1 and thermogenic capacity in mice, despite increasing serum FGF-21 and iWAT browning. https://doi.org/10.1007/s13105-023-00970-4Liver
Fat		Mouse
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-wLiverMouse
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.2023.105079Skeletal muscleMouse
Urzi 2023 Anal Chem2023Urzì C, Meyer C, Nuoffer JM, Vermathen P (2023) Methods for oxygen determination in an NMR bioreactor as a surrogate marker for metabolomic studies in living cell cultures. https://doi.org/10.1021/acs.analchem.3c02314
Cruz-Gregorio 2023 Phytother Res2023Cruz-Gregorio A, Aranda-Rivera AK, Aparicio-Trejo OE, Medina-Campos ON, Sciutto E, Fragoso G, Pedraza-Chaverri J (2023) α-Mangostin induces oxidative damage, mitochondrial dysfunction, and apoptosis in a triple-negative breast cancer model. https://doi.org/10.1002/ptr.7812Endothelial;epithelial;mesothelial cellMouse
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:2023-0006Nervous systemMouse
Rat
Yang 2023 Redox Biol2023Yang X, Gu C, Cai J, Li F, He X, Luo L, Xiao W, Hu B, Hu J, Qian H, Ren S, Zhang L, Zhu X, Yang L, Yang J, Yang Z, Zheng Y, Huang X, Wang Z (2023) Excessive SOX8 reprograms energy and iron metabolism to prime hepatocellular carcinoma for ferroptosis. https://doi.org/10.1016/j.redox.2023.103002LiverHuman
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/v1Skeletal muscleMouse
Galli 2023 Comp Biochem Physiol A Mol Integr Physiol2023Galli GLJ, Shiels HA, White E, Couturier CS, Stecyk JAW (2023) The air-breathing Alaska blackfish (Dallia pectoralis) suppresses brain mitochondrial reactive oxygen species to survive cold hypoxic winters. https://doi.org/10.1016/j.cbpa.2022.111355Nervous systemFishes
Li 2023 Cell Rep2023Li BY, Peng WQ, Liu Y, Guo L, Tang QQ (2023) HIGD1A links SIRT1 activity to adipose browning by inhibiting the ROS/DNA damage pathway. https://doi.org/10.1016/j.celrep.2023.112731
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-zHeartMouse
Glombik 2023 Int J Mol Sci2023Glombik K, Kukla-Bartoszek M, Curzytek K, Detka J, Basta-Kaim A, Budziszewska B (2023) The effects of prenatal dexamethasone exposure on brain metabolic homeostasis in adulthood: implications for depression. Int J Mol Sci 24:1156. https://doi.org/10.3390/ijms24021156Nervous systemRat
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Dewidar 2023 EBioMedicine2023Dewidar B, Mastrototaro L, Englisch C, Ress C, Granata C, Rohbeck E, Pesta D, Heilmann G, Wolkersdorfer M, Esposito I, Reina Do Fundo M, Zivehe F, Yavas A, Roden M (2023) Alterations of hepatic energy metabolism in murine models of obesity, diabetes and fatty liver diseases. https://doi.org/10.1016/j.ebiom.2023.104714Skeletal muscle
Liver		Mouse
Horvath 2023 Antioxidants (Basel)2023Horváth T, Sándor L, Baráth B, Donka T, Baráth B, Mohácsi Á, Jász KD, Hartmann P, Boros M (2023) Methane admixture protects liver mitochondria and improves graft function after static cold storage and reperfusion. Antioxidants (Basel) 12:271. https://doi.org/10.3390/antiox12020271LiverRat
Ren 2023 Cell Discov2023Ren X, Yan J, Zhao Q, Bao X, Han X, Zheng C, Zhou Y, Chen L, Wang B, Yang L, Lin X, Liu D, Lin Y, Li M, Fang H, Lu Z, Lyu J (2023) The Fe-S cluster assembly protein IscU2 increases α-ketoglutarate catabolism and DNA 5mC to promote tumor growth. https://doi.org/10.1038/s41421-023-00558-8Islet cell;pancreas;thymusHuman
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/jp284734Skeletal muscleHuman
Sumner 2023 Transl Psychiatry2023Sumner JA, Cleveland S, Chen T, Gradus JL (2023) Psychological and biological mechanisms linking trauma with cardiovascular disease risk. https://doi.org/10.1038/s41398-023-02330-8
Bellar 2023 Clin Transl Med2023Bellar A, Welch N, Dasarathy J, Attaway A, Musich R, Kumar A, Sekar J, Mishra S, Sandlers Y, Streem D, Nagy LE, Dasarathy S (2023) Peripheral blood mononuclear cell mitochondrial dysfunction in acute alcohol-associated hepatitis. https://doi.org/10.1002/ctm2.1276Blood cellsHuman
Donnelly 2023 MitoFit2023Donnelly C, Komlódi T, Cecatto C, Cardoso LHD, Compagnion AC, Matera A, Tavernari D, Zanou N, Kayser B, Gnaiger E, Place N (2023) Functional hypoxia reduces mitochondrial calcium uptake. MitoFit Preprints 2023.2. https://doi.org/10.26124/mitofit:2023-00022024-11-17 published in Redox Biol.Skeletal muscle
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Haney 2023 Nat Med2023Haney M, Vallée M, Fabre S, Collins Reed S, Zanese M, Campistron G, Arout CA, Foltin RW, Cooper ZD, Kearney-Ramos T, Metna M, Justinova Z, Schindler C, Hebert-Chatelain E, Bellocchio L, Cathala A, Bari A, Serrat R, Finlay DB, Caraci F, Redon B, Martín-García E, Busquets-Garcia A, Matias I, Levin FR, Felpin FX, Simon N, Cota D, Spampinato U, Maldonado R, Shaham Y, Glass M, Thomsen LL, Mengel H, Marsicano G, Monlezun S, Revest JM, Piazza PV (2023) Signaling-specific inhibition of the CB1 receptor for cannabis use disorder: phase 1 and phase 2a randomized trials. https://doi.org/10.1038/s41591-023-02381-w
Menail 2023 FASEB J2023Menail HA, Cormier SB, Léger A, Robichaud S, Hebert-Chatelain E, Lamarre SG, Pichaud N (2023) Age-related flexibility of energetic metabolism in the honey bee Apis mellifera. https://doi.org/10.1096/fj.202300654rHexapods
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-wSkeletal muscleHuman
Pinho 2023 Eur J Clin Invest2023Pinho ACO, Santos D, Oliveira PJ, Leal EC, Carvalho E (2023) Real-time OXPHOS capacity analysis in wounded skin from diabetic mice: A pilot study. https://doi.org/10.1111/eci.14128Mouse
Pereyra 2023 Am J Physiol Gastrointest Liver Physiol2023Pereyra AS, McLaughlin KL, Buddo KA, Ellis JM (2023) Medium-chain fatty acid oxidation is independent of L-carnitine in liver and kidney but not in heart and skeletal muscle. https://doi.org/10.1152/ajpgi.00105.2023Heart
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Kidney		Mouse
Wen 2023 PLoS One2023Wen W, Guo C, Chen Z, Yang D, Zhu D, Jing Q, Zheng L, Sun C, Tang C (2023) Regular exercise attenuates alcoholic myopathy in zebrafish by modulating mitochondrial homeostasis. https://doi.org/10.1371/journal.pone.0294700Skeletal muscleZebrafish
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.2023.106022Heart
Nervous system		Rat
Fleischman 2023 Mol Metab2023Fleischman JY, Van den Bergh F, Collins NL, Bowers M, Beard DA, Burant CF (2023) Higher mitochondrial oxidative capacity is the primary molecular differentiator in muscle of rats with high and low intrinsic cardiorespiratory fitness. https://doi.org/10.1016/j.molmet.2023.101793Heart
Skeletal muscle		Rat
Patitucci 2023 bioRxiv2023Patitucci C, Hernández-Camacho JD, Vimont E, Cokelaer T, Chaze T, Gianetto QG, Matondo M, Gazi A, Nemazanyy I, Stroud DA, Hock DH, Donnarumma E, Wai T (2023) Mtfp1 ablation enhances mitochondrial respiration and protects against hepatic steatosis. bioRxiv https://doi.org/10.1101/2023.04.26.538374 .
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-wBlood cellsHuman
Bellissimo 2023 Exp Physiol2023Bellissimo CA, Castellani LN, Finch MS, Murugathasan M, Gandhi S, Sweeney G, Abdul-Sater AA, MacPherson REK, Perry CGR (2023) Memory impairment in the D2.mdx mouse model of Duchenne muscular dystrophy is prevented by the adiponectin receptor agonist ALY688. https://doi.org/10.1113/ep091274Nervous systemMouse
Zvejniece 2023 Biomed Pharmacother2023Zvejniece L, Svalbe B, Vavers E, Ozola M, Grinberga S, Gukalova B, Sevostjanovs E, Liepinsh E, Dambrova M (2023) Decreased long-chain acylcarnitine content increases mitochondrial coupling efficiency and prevents ischemia-induced brain damage in rats.Rat
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.2023.10.017Nervous systemMouse
Mills 2023 Nature2023Mills EL, Ryan DG, Prag HA, Dikovskaya D, Menon D, Zaslona Z, Jedrychowski MP, Costa ASH, Higgins M, Hams E, Szpyt J, Runtsch MC, King MS, McGouran JF, Fischer R, Kessler BM, McGettrick AF, Hughes MM, Carroll RG, Booty LM, Knatko EV, Meakin PJ, Ashford MLJ, Modis LK, Brunori G, Sévin DC, Fallon PG, Caldwell ST, Kunji ERS, Chouchani ET, Frezza C, Dinkova-Kostova AT, Hartley RC, Murphy MP, O'Neill LA (2023) Itaconate is an anti-inflammatory metabolite that activates Nrf2 via alkylation of KEAP1. https://doi.org/10.1038/nature25986LiverRat
Thompson 2023 Geroscience2023Thompson SD, Barrett KL, Rugel CL, Redmond R, Rudofski A, Kurian J, Curtin JL, Dayanidhi S, Lavasani M (2023) Sex-specific preservation of neuromuscular function and metabolism following systemic transplantation of multipotent adult stem cells in a murine model of progeria. https://doi.org/10.1007/s11357-023-00892-5Skeletal muscleMouse
Janz 2023 Mol Metab2023Janz A, Walz K, Cirnu A, Surjanto J, Urlaub D, Leskien M, Kohlhaas M, Nickel A, Brand T, Nose N, Wörsdörfer P, Wagner N, Higuchi T, Maack C, Dudek J, Lorenz K, Klopocki E, Ergün S, Duff HJ, Gerull B (2023) Mutations in DNAJC19 cause altered mitochondrial structure and increased mitochondrial respiration in human iPSC-derived cardiomyocytes. https://doi.org/10.1016/j.molmet.2023.101859HeLaHuman
Yang 2023 Cell Death Discov2023Yang H, Gao Y, Xu D, Xu K, Liang SQ, Yang Z, Scherz A, Hall SRR, Forster S, Berezowska S, Yao F, Ochsenbein AF, Marti TM, Kocher GJ, Schmid RA, Dorn P, Peng RW (2023) MEK1 drives oncogenic signaling and interacts with PARP1 for genomic and metabolic homeostasis in malignant pleural mesothelioma. https://doi.org/10.1038/s41420-023-01307-2Lung;gill
Endothelial;epithelial;mesothelial cell		Human
Hryc 2023 Nat Commun2023Hryc CF, Mallampalli VKPS, Bovshik EI, Azinas S, Fan G, Serysheva II, Sparagna GC, Baker ML, Mileykovskaya E, Dowhan W (2023) Structural insights into cardiolipin replacement by phosphatidylglycerol in a cardiolipin-lacking yeast respiratory supercomplex. https://doi.org/10.1038/s41467-023-38441-5Saccharomyces cerevisiae
Som 2023 Am J Physiol Cell Physiol2023Som R, Fink BD, Yu L, Sivitz WI (2023) Oxaloacetate regulates complex II respiration in brown fat: dependence on UCP1 expression. Am J Physiol Cell Physiol 324:C1236-48. doi: 10.1152/ajpcell.00565.2022FatMouse
Heo 2023 J Cachexia Sarcopenia Muscle2023Heo J, Schifino AG, McFaline-Figueroa J, Miller DL, Hoffman JR, Noble EE, Greising SM, Call JA (2023) Differential effects of Western diet and traumatic muscle injury on skeletal muscle metabolic regulation in male and female mice. https://doi.org/10.1002/jcsm.13361Skeletal muscleMouse
Bassot 2023 Cell Rep2023Bassot A, Chen J, Takahashi-Yamashiro K, Yap MC, Gibhardt CS, Le GNT, Hario S, Nasu Y, Moore J, Gutiérrez T, Mina L, Mast H, Moses A, Bhat R, Ballanyi K, Lemieux H, Sitia R, Zito E, Bogeski I, Campbell RE, Simmen T (2023) The endoplasmic reticulum kinase PERK interacts with the oxidoreductase ERO1 to metabolically adapt mitochondria. Cell Rep 42:111899. https://doi.org/10.1016/j.celrep.2022.111899HEK
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Mouse
Bowering 2023 Front Physiol2023Bowering LR, McArley TJ, Devaux JBL, Hickey AJR, Herbert NA (2023) Metabolic resilience of the Australasian snapper (Chrysophrys auratus) to marine heatwaves and hypoxia. https://doi.org/10.3389/fphys.2023.1215442HeartFishes
Wang 2023 Cancer Cell Int2023Wang Y, Wang J, Chen L, Chen Z, Wang T, Xiong S, Zhou T, Wu G, He L, Cao J, Liu M, Li H, Gu H (2023) PRRG4 regulates mitochondrial function and promotes migratory behaviors of breast cancer cells through the Src-STAT3-POLG axis. https://doi.org/10.1186/s12935-023-03178-0Endothelial;epithelial;mesothelial cellHuman
Kim 2023 bioRxiv2023Kim Y, Li C, Gu C, Tycksen E, Puri A, Pietka TA, Sivapackiam J, Fang Y, Kidd K, Park SJ, Johnson BG, Kmoch S, Duffield JS, Bleyer AJ, Jackrel ME, Urano F, Sharma V, Lindahl M, Chen YM (2023) MANF stimulates autophagy and restores mitochondrial homeostasis to treat toxic proteinopathy. https://doi.org/10.1101/2023.01.10.523171Endothelial;epithelial;mesothelial cellMouse
Kienzle 2023 BMC Biol2023Kienzle L, Bettinazzi S, Choquette T, Brunet M, Khorami HH, Jacques JF, Moreau M, Roucou X, Landry CR, Angers A, Breton S (2023) A small protein coded within the mitochondrial canonical gene nd4 regulates mitochondrial bioenergetics. https://doi.org/10.1186/s12915-023-01609-yHEK
HeLa		Human
Morales-Rubio 2023 Sci Rep2023Morales-Rubio R, Bernal-Ramírez J, Rubio-Infante N, Luévano-Martínez LA, Ríos A, Escalante BA, García-Rivas G, Rodríguez González J (2023) Cellular shortening and calcium dynamics are improved by noisy stimulus in a model of cardiomyopathy. https://doi.org/10.1038/s41598-023-41611-6HeartMouse
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/s00442-023-05344-7Blood cellsBirds
Gonnot 2023 Nat Commun2023Gonnot F, Boulogne L, Brun C, Dia M, Gouriou Y, Bidaux G, Chouabe C, Crola Da Silva C, Ducreux S, Pillot B, Kaczmarczyk A, Leon C, Chanon S, Perret C, Sciandra F, Dargar T, Gache V, Farhat F, Sebbag L, Bochaton T, Thibault H, Ovize M, Paillard M, Gomez L (2023) SERCA2 phosphorylation at serine 663 is a key regulator of Ca2+ homeostasis in heart diseases. https://doi.org/10.1038/s41467-023-39027-xHeartMouse
Luptak 2023 Antioxidants (Basel)2023Ľupták M, Fišar Z, Hroudová J (2023) Different effects of SSRIs, Bupropion, and Trazodone on mitochondrial functions and monoamine oxidase isoform activity. Antioxidants (Basel) 12:1208. https://doi.org/10.3390/antiox12061208Nervous systemPig
Calabria 2023 Biomedicines2023Calabria E, Muollo V, Cavedon V, Capovin T, Saccenti L, Passarotti F, Ghiotto L, Milanese C, Gelati M, Rudi D, Salvagno GL, Lippi G, Tam E, Schena F, Pogliaghi S (2023) Type 2 diabetes related mitochondrial defects in peripheral mononucleated blood cells from overweight postmenopausal women. https://doi.org/10.3390/biomedicines11010121Blood cellsHuman
Antona 2023 Cell Death Discov2023Antona A, Leo G, Favero F, Varalda M, Venetucci J, Faletti S, Todaro M, Mazzucco E, Soligo E, Saglietti C, Stassi G, Manfredi M, Pelicci G, Corà D, Valente G, Capello D (2023) Targeting lysine-specific demethylase 1 (KDM1A/LSD1) impairs colorectal cancer tumorigenesis by affecting cancer cells stemness, motility, and differentiation. https://doi.org/10.1038/s41420-023-01502-1Endothelial;epithelial;mesothelial cellHuman
Zhang 2023 Nat Commun2023Zhang Y, Fan Y, Hu H, Zhang X, Wang Z, Wu Z, Wang L, Yu X, Song X, Xiang P, Zhang X, Wang T, Tan S, Li C, Gao L, Liang X, Li S, Li N, Yue X, Ma C (2023) ZHX2 emerges as a negative regulator of mitochondrial oxidative phosphorylation during acute liver injury. https://doi.org/10.1038/s41467-023-43439-0LiverMouse
Marin 2023 Exp Gerontol2023Marin CT, de Souza Lino AD, Avelar IDS, Barbosa MR, Scarlato GCG, Cavalini DF, Tamanini F, Alexandrino AV, Vercesi AE, Shiguemoto GE (2023) Resistance training prevents dynamics and mitochondrial respiratory dysfunction in vastus lateralis muscle of ovariectomized rats. https://doi.org/10.1016/j.exger.2023.112081Skeletal muscleRat
Horcas-Nieto 2023 Biochim Biophys Acta Mol Basis Dis2023Horcas-Nieto JM, Versloot CJ, Langelaar-Makkinje M, Gerding A, Blokzijl T, Koster MH, Baanstra M, Martini IA, Coppes RP, Bourdon C, van Ijzendoorn SCD, Kim P, Bandsma RHJ, Bakker BM (2023) Organoids as a model to study intestinal and liver dysfunction in severe malnutrition. https://doi.org/10.1016/j.bbadis.2022.166635Liver
Other cell lines		Mouse
Campesan 2023 Neurobiol Dis2023Campesan S, Del Popolo I, Marcou K, Straatman-Iwanowska A, Repici M, Boytcheva KV, Cotton VE, Allcock N, Rosato E, Kyriacou CP, Giorgini F (2023) Bypassing mitochondrial defects rescues Huntington's phenotypes in Drosophila. https://doi.org/10.1016/j.nbd.2023.106236
Stouth 2023 Autophagy2023Stouth DW, vanLieshout TL, Mikhail AI, Ng SY, Raziee R, Edgett BA, Vasam G, Webb EK, Gilotra KS, Markou M, Pineda HC, Bettencourt-Mora BG, Noor H, Moll Z, Bittner ME, Gurd BJ, Menzies KJ, Ljubicic V (2023) CARM1 drives mitophagy and autophagy flux during fasting-induced skeletal muscle atrophy. https://doi.org/10.1080/15548627.2023.2288528Skeletal muscleMouse
Hosler 2023 Mitochondrion2023Hosler J, Hoang N, Shirey Edwards K (2023) The cyclic lipopeptide micafungin induces rupture of isolated mitochondria by reprograming the mitochondrial inner membrane anion channel. https://doi.org/10.1016/j.mito.2023.05.004LiverRat
Correia 2023 Endocrinology2023Correia CM, Præstholm SM, Havelund JF, Pedersen FB, Siersbæk MS, Ebbesen MF, Gerhart-Hines Z, Heeren J, Brewer J, Larsen S, Blagoev B, Færgeman NJ, Grøntved L (2023) Acute deletion of the glucocorticoid receptor in hepatocytes disrupts postprandial lipid metabolism in male mice. https://doi.org/10.1210/endocr/bqad128Mouse
Whytock 2023 Am J Physiol Endocrinol Metab2023Whytock KL, Pino MF, Sun Y, Yu G, De Carvalho FG, Yeo RX, Vega RB, Parmar G, Divoux A, Kapoor N, Yi F, Cornnell H, Patten DA, Harper ME, Gardell SJ, Smith SR, Walsh MJ, Sparks LM (2023) Comprehensive interrogation of human skeletal muscle reveals a dissociation between insulin resistance and mitochondrial capacity. https://doi.org/10.1152/ajpendo.00143.2023
Duran-Gueell 2023 FASEB J2023Duran-Güell M, Garrabou G, Flores-Costa R, Casulleras M, López-Vicario C, Zhang IW, Cantó-Santos J, Contreras BJ, Sánchez-Rodríguez MB, Romero-Grimaldo B, Horrillo R, Costa M, Arroyo V, Clària J (2023) Essential role for albumin in preserving liver cells from TNFα-induced mitochondrial injury. https://doi.org/10.1096/fj.202201526rLiverMouse
Nollet 2023 Eur Heart J2023Nollet EE, Duursma I, Rozenbaum A, Eggelbusch M, Wüst RCI, Schoonvelde SAC, Michels M, Jansen M, van der Wel NN, Bedi KC, Margulies KB, Nirschl J, Kuster DWD, van der Velden J (2023) Mitochondrial dysfunction in human hypertrophic cardiomyopathy is linked to cardiomyocyte architecture disruption and corrected by improving NADH-driven mitochondrial respiration. https://doi.org/10.1093/eurheartj/ehad028HeartHuman
Radaelli 2023 Elife2023Radaelli E, Assenmacher CA, Verrelle J, Banerjee E, Manero F, Khiati S, Girona A, Lopez-Lluch G, Navas P, Spinazzi M (2023) Mitochondrial defects caused by PARL deficiency lead to arrested spermatogenesis and ferroptosis. https://doi.org/10.7554/elife.84710
Godtliebsen 2023 Autophagy2023Godtliebsen G, Larsen KB, Bhujabal Z, Opstad IS, Nager M, Punnakkal AR, Kalstad TB, Olsen R, Lund T, Prasad DK, Agarwal K, Myrmel T, Birgisdottir AB (2023) High-resolution visualization and assessment of basal and OXPHOS-induced mitophagy in H9c2 cardiomyoblasts. https://doi.org/10.1080/15548627.2023.2230837HeartRat
Ismaeel 2023 Physiol Rep2023Ismaeel A, Valentino TR, Burke B, Goh J, Saliu TP, Albathi F, Owen A, McCarthy JJ, Wen Y (2023) Acetate and succinate benefit host muscle energetics as exercise-associated post-biotics. https://doi.org/10.14814/phy2.15848Skeletal muscleMouse
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.246164Lung;gillMolluscs
Kumar 2023 J Nutr Biochem2023Kumar A, Bellar A, Mishra S, Sekar J, Welch N, Dasarathy S (2023) L-Isoleucine reverses hyperammonemia-induced myotube mitochondrial dysfunction and post-mitotic senescence. https://doi.org/10.1016/j.jnutbio.2023.109498
Airik 2023 Antioxidants (Basel)2023Airik M, Arbore H, Childs E, Huynh AB, Phua YL, Chen CW, Aird K, Bharathi S, Zhang B, Conlon P, Kmoch S, Kidd K, Bleyer AJ, Vockley J, Goetzman E, Wipf P, Airik R (2023) Mitochondrial ROS triggers KIN pathogenesis in FAN1-deficient kidneys. https://doi.org/10.3390/antiox12040900KidneyHuman
Curtabbi 2023 Redox Biol2023Curtabbi A, Guarás A, Cabrera-Alarcón JL, Rivero M, Calvo E, Rosa-Moreno M, Vázquez J, Medina M, Enríquez JA (2023) Regulation of respiratory complex I assembly by FMN cofactor targeting. https://doi.org/10.1016/j.redox.2023.103001Fibroblast
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Flockhart 2023 Redox Biol2023Flockhart M, Nilsson LC, Tillqvist EN, Vinge F, Millbert F, Lännerström J, Nilsson PH, Samyn D, Apró W, Sundqvist ML, Larsen FJ (2023) Glucosinolate-rich broccoli sprouts protect against oxidative stress and improve adaptations to intense exercise training. https://doi.org/10.1016/j.redox.2023.102873
Davis 2023 MitoFit2023Davis MS, Barrett MR, Bayly WM, Bolinger A (2023) Effect of selected fluorophores on equine skeletal muscle mitochondrial respiration. MitoFit Preprints 2023.5. https://doi.org/10.26124/mitofit:2023-0005Skeletal muscleHorse
Walsh 2023 FASEB J2023Walsh MA, Musci RV, Jacobs RA, Hamilton KL (2023) A practical perspective on how to develop, implement, execute, and reproduce high-resolution respirometry experiments: The physiologist's guide to an Oroboros O2k. https://doi.org/10.1096/fj.202301644rr
Verma 2023 Int J Mol Sci2023Verma A, Azhar G, Zhang X, Patyal P, Kc G, Sharma S, Che Y, Wei JY (2023) P. gingivalis-LPS induces mitochondrial dysfunction mediated by neuroinflammation through oxidative stress. Int J Mol Sci 24:950. https://doi.org/10.3390/ijms24020950Endothelial;epithelial;mesothelial cellHuman
MiPNet27.10 IOC156 Ramat Gan IL2022-11-28
O2k-Network

Ramat Gan IL, 2022 Nov 28-30 Oroboros O2k-Workshop on high-resolution respirometry (HRR), IOC156.

MiPNet26.14 Oxia2022-10-31
O2k-Manual

Oxia - HyperOxia to HypOxia.

MiPNet27.07 Sample Holder2022-08-09
O2k-Manual

Sample Holder.

MiPNet26.13 NextGen-O2k manual2022-07-25
O2k-Manual

NextGen-O2k manual

MiPNet26.12 NextGen-O2k: NADH-Module2022-05-17
O2k-Manual

NextGen-O2k: NADH-Module manual

Hamann 2022 J Fungi (Basel)2022Hamann A, Osiewacz HD, Teichert I (2022) Sordaria macrospora sterile mutant pro34 is impaired in respiratory complex I assembly. https://doi.org/10.3390/jof8101015Fungi
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Chinas 2022 Metabolites2022Chiñas Merlin A, Gonzalez K, Mockler S, Perez Y, Jia UA, Chicco AJ, Ullevig SL, Chung E (2022) Switching to a standard chow diet at weaning improves the effects of maternal and postnatal high-fat and high-sucrose diet on cardiometabolic health in adult male mouse offspring. https://doi.org/10.3390/metabo12060563HeartMouse
Brown 2022 Redox Biol2022Brown JL, Peelor FF 3rd, Georgescu C, Wren JD, Kinter M, Tyrrell VJ, O'Donnell VB, Miller BF, Van Remmen H (2022) Lipid hydroperoxides and oxylipins are mediators of denervation induced muscle atrophy. https://doi.org/10.1016/j.redox.2022.102518Skeletal muscleMouse
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Vera-Vives 2022 BEC2022Vera-Vives AM, Perin G, Morosinotto T (2022) High-resolution photosynthesis-irradiance curves in microalgae. Bioenerg Commun 2022.19. https://doi.org/10.26124/bec:2022-0019Algae
Brunetta 2022 Redox Biol2022Brunetta HS, Petrick HL, Momken I, Handy RM, Pignanelli C, Nunes EA, Piquereau J, Mericskay M, Holloway GP (2022) Nitrate consumption preserves HFD-induced skeletal muscle mitochondrial ADP sensitivity and lysine acetylation: A potential role for SIRT1. https://doi.org/10.1016/j.redox.2022.102307Skeletal muscleMouse
Schober 2022 Hum Mol Genet2022Schober FA, Tang JX, Sergeant K, Moedas MF, Zierz CM, Moore D, Smith C, Lewis D, Guha N, Hopton S, Falkous G, Lam A, Pyle A, Poulton J, Gorman GS, Taylor RW, Freyer C, Wredenberg A (2022) Pathogenic SLC25A26 variants impair SAH transport activity causing mitochondrial disease. https://doi.org/10.1093/hmg/ddac002FibroblastMouse
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Vandenberg 2022 Am J Physiol Cell Physiol2022Vandenberg GG, Thotakura A, Scott AL (2022) Mitochondrial bioenergetics of astrocytes in Fragile X syndrome: new perspectives on culture conditions and sex effects. Am J Physiol Cell Physiol 322:C125-35. https://doi.org/10.1152/ajpcell.00130.2021Nervous systemMouse
Smith 2022 J Pineal Res2022Smith KLM, Swiderska A, Lock MC, Graham L, Iswari W, Choudhary T, Thomas D, Kowash HM, Desforges M, Cottrell EC, Trafford AW, Giussani DA, Galli GLJ (2022) Chronic developmental hypoxia alters mitochondrial oxidative capacity and reactive oxygen species production in the fetal rat heart in a sex-dependent manner. https://doi.org/10.1111/jpi.12821HeartRat
Bresciani 2022 J Hepatol2022Bresciani N, Demagny H, Lemos V, Pontanari F, Li X, Sun Y, Li H, Perino A, Auwerx J, Schoonjans K (2022) The Slc25a47 locus is a novel determinant of hepatic mitochondrial function implicated in liver fibrosis. https://doi.org/10.1016/j.jhep.2022.05.040LiverMouse
Bikman 2022 Eur J Clin Nutr2022Bikman BT, Shimy KJ, Apovian CM, Yu S, Saito ER, Walton CM, Ebbeling CB, Ludwig DS (2022) A high-carbohydrate diet lowers the rate of adipose tissue mitochondrial respiration. https://doi.org/10.1038/s41430-022-01097-3FatHuman
Lai 2022 PLoS One2022Lai RE, Holman ME, Chen Q, Rivers J, Lesnefsky EJ, Gorgey AS (2022) Assessment of mitochondrial respiratory capacity using minimally invasive and noninvasive techniques in persons with spinal cord injury. PLoS One 17:e0265141.Skeletal muscle
Mandic 2022 J Comp Physiol B2022Mandic M, Frazier AJ, Naslund AW, Todgham AE (2022) A comparative and ontogenetic examination of mitochondrial function in antarctic notothenioid species. https://doi.org/10.1007/s00360-022-01461-6HeartFishes
Desjardins 2022 Proc Natl Acad Sci U S A2022Desjardins EM, Smith BK, Day EA, Ducommun S, Sanders MJ, Nederveen JP, Ford RJ, Pinkosky SL, Townsend LK, Gutgesell RM, Lu R, Sakamoto K, Steinberg GR (2022) The phosphorylation of AMPKβ1 is critical for increasing autophagy and maintaining mitochondrial homeostasis in response to fatty acids. https://doi.org/10.1073/pnas.2119824119LiverMouse
Pinho 2022 Antioxidants (Basel)2022Pinho N, Bombaça AC, Wiśniewski JR, Dias-Lopes G, Saboia-Vahia L, Cupolillo E, de Jesus JB, de Almeida RP, Padrón G, Menna-Barreto R, Cuervo P (2022) Nitric oxide resistance in Leishmania (Viannia) braziliensis involves regulation of glucose consumption, glutathione metabolism and abundance of pentose phosphate pathway enzymes. https://doi.org/10.3390/antiox11020277Protists
Lang 2022 Cell Mol Life Sci2022Lang M, Grünewald A, Pramstaller PP, Hicks AA, Pichler I (2022) A genome on shaky ground: exploring the impact of mitochondrial DNA integrity on Parkinson's disease by highlighting the use of cybrid models. https://doi.org/10.1007/s00018-022-04304-3
Cherix 2022 Mol Psychiatry2022Cherix A, Poitry-Yamate C, Lanz B, Zanoletti O, Grosse J, Sandi C, Gruetter R, Cardinaux JR (2022) Deletion of Crtc1 leads to hippocampal neuroenergetic impairments associated with depressive-like behavior. https://doi.org/10.1038/s41380-022-01791-5Nervous systemMouse
Alexander 2022 Cardiovasc Drugs Ther2022Alexander ED, Aldridge JL, Burleson TS, Frasier CR (2022) Teriflunomide treatment exacerbates cardiac ischemia reperfusion injury in isolated rat hearts. https://doi.org/10.1007/s10557-022-07341-zHeartRat
Thapa 2022 Physiol Rep2022Thapa D, Bugga P, Mushala BAS, Manning JR, Stoner MW, McMahon B, Zeng X, Cantrell PS, Yates N, Xie B, Edmunds LR, Jurczak MJ, Scott I (2022) GCN5L1 impairs diastolic function in mice exposed to a high fat diet by restricting cardiac pyruvate oxidation. https://doi.org/10.14814/phy2.15415HeartMouse
Gutierrez 2022 Cell Rep Med2022Gutierrez AD, Gao Z, Hamidi V, Zhu L, Saint Andre KB, Riggs K, Ruscheinsky M, Wang H, Yu Y, Miller C 3rd, Vasquez H, Taegtmeyer H, Kolonin MG (2022) Anti-diabetic effects of GLP1 analogs are mediated by thermogenic interleukin-6 signaling in adipocytes. https://doi.org/10.1016/j.xcrm.2022.100813FatMouse
Bina 2022 Mol Cell Biochem2022Bînă AM, Aburel OM, Avram VF, Lelcu T, Lința AV, Chiriac DV, Mocanu AG, Bernad E, Borza C, Craina ML, Popa ZL, Muntean DM, Crețu OM (2022) Impairment of mitochondrial respiration in platelets and placentas: a pilot study in preeclamptic pregnancies. https://doi.org/10.1007/s11010-022-04415-2Genital
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Hong 2022 Cell Stem Cell2022Hong X, Isern J, Campanario S, Perdiguero E, Ramírez-Pardo I, Segalés J, Hernansanz-Agustín P, Curtabbi A, Deryagin O, Pollán A, González-Reyes JA, Villalba JM, Sandri M, Serrano AL, Enríquez JA, Muñoz-Cánoves P (2022) Mitochondrial dynamics maintain muscle stem cell regenerative competence throughout adult life by regulating metabolism and mitophagy. https://doi.org/10.1016/j.stem.2022.07.009Skeletal muscleMouse
Saraiva 2022 Pathogens2022Saraiva FMS, Cosentino-Gomes D, Inacio JDF, Almeida-Amaral EE, Louzada-Neto O, Rossini A, Nogueira NP, Meyer-Fernandes JR, Paes MC (2022) Hypoxia effects on Trypanosoma cruzi epimastigotes proliferation, differentiation, and energy metabolism. https://doi.org/10.3390/pathogens11080897Protists
Penniman 2022 J Cachexia Sarcopenia Muscle2022Penniman CM, Bhardwaj G, Nowers CJ, Brown CU, Junck TL, Boyer CK, Jena J, Fuqua JD, Lira VA, O'Neill BT (2022) Loss of FoxOs in muscle increases strength and mitochondrial function during aging. https://doi.org/10.1002/jcsm.13124
Cruz-Gregorio 2022 Antioxidants (Basel)2022Cruz-Gregorio A, Aranda-Rivera AK, Aparicio-Trejo OE, Medina-Campos ON, Sciutto E, Fragoso G, Pedraza-Chaverri J (2022) GK-1 Induces oxidative stress, mitochondrial dysfunction, decreased membrane potential, and impaired autophagy flux in a mouse model of breast cancer. https://doi.org/10.3390/antiox12010056Endothelial;epithelial;mesothelial cellMouse
Zdrazilova 2022 PLOS ONE2022Zdrazilova L, Hansikova H, Gnaiger E (2022) Comparable respiratory activity in attached and suspended human fibroblasts. PLoS ONE 17:e0264496. https://doi.org/10.1371/journal.pone.0264496FibroblastHuman
McKenna 2022 J Appl Physiol (1985)2022McKenna CF, Salvador AF, Keeble AR, Khan NA, De Lisio M, Konopka AR, Paluska SA, Burd NA (2022) Muscle strength after resistance training correlates to mediators of muscle mass and mitochondrial respiration in middle-aged adults. https://doi.org/10.1152/japplphysiol.00186.2022Skeletal muscleHuman
Sautchuk 2022 Bone Rep2022Sautchuk R Jr, Eliseev RA (2022) Cell energy metabolism and bone formation. https://doi.org/10.1016/j.bonr.2022.101594
Evinova 2022 Mol Cell Biochem2022Evinova A, Hatokova Z, Tatarkova Z, Brodnanova M, Dibdiakova K, Racay P (2022) Endoplasmic reticulum stress induces mitochondrial dysfunction but not mitochondrial unfolded protein response in SH-SY5Y cells. https://doi.org/10.1007/s11010-021-04344-6
Tang 2022 Sci China Life Sci2022Tang G, Ma C, Li L, Zhang S, Li F, Wu J, Yin Y, Zhu Q, Liang Y, Wang R, Huang H, Zhao TJ, Yang H, Li P, Chen FJ (2022) PITPNC1 promotes the thermogenesis of brown adipose tissue under acute cold exposure. https://doi.org/10.1007/s11427-022-2157-yFatMouse
Leibold 2022 PLoS One2022Leibold S, Bagivalu Lakshminarasimha A, Gremse F, Hammerschmidt M, Michel M (2022) Long-term obesogenic diet leads to metabolic phenotypes which are not exacerbated by catch-up growth in zebrafish. https://doi.org/10.1371/journal.pone.0267933Zebrafish
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