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From Bioblast
| Year | Reference | Mammal and model | Tissue and cell | Stress | Diseases | |
|---|---|---|---|---|---|---|
| Cefis 2024 Acta Physiol (Oxf) | 2024 | Cefis 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.14119 | Mouse | Skeletal muscle | Aging;senescence | |
| Opperdoes 2024 BMC Genomics | 2024 | Opperdoes 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/s12864-024-10094-8 | Protists | |||
| Ciccone 2024 J Exp Biol | 2024 | Ciccone 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.246990 | Other mammals | Fibroblast | Hypoxia | |
| Patil 2024 J Exp Biol | 2024 | Patil 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.245828 | Artemia | Hypoxia | ||
| Kim 2024 J Exerc Rehabil | 2024 | Kim 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.2448068.034 | Mouse | Nervous system | ||
| Hu 2024 Front Endocrinol (Lausanne) | 2024 | Hu 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.2024.1356312 | Mouse | Skeletal muscle | ||
| Balmaceda 2024 Biochim Biophys Acta Mol Basis Dis | 2024 | Balmaceda 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.2024.167033 | Mouse | Nervous system Liver | Oxidative stress;RONS | |
| Hunter-Manseau 2024 Insect Sci | 2024 | Hunter-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/10.1111/1744-7917.13355 | Drosophila | |||
| Tsouka 2024 Commun Med (Lond) | 2024 | Tsouka 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/s43856-024-00465-3 | Mouse | Liver | Other | |
| Dong 2024 Nat Commun | 2024 | Dong 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/s41467-023-44057-6 | Mouse | Liver | ||
| Xiao 2024 Sci Adv | 2024 | Xiao 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.adj2752 | Mouse | Skeletal muscle | ||
| Qiao 2024 J Sport Health Sci | 2024 | Qiao 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.2024.02.001 | Human | Skeletal muscle | Aging;senescence | |
| Natsui 2024 Physiol Rep | 2024 | Natsui 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/phy2.15957 | Human | Fat | Cardiovascular | |
| Visker 2024 Exp Physiol | 2024 | Visker 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/ep091304 | Mouse | Heart | ||
| Meszaros 2024 Transpl Int | 2024 | Meszaros 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.2024.12380 | Human | Liver | Ischemia-reperfusion | Other |
| Cardoso 2024 MitoFit | 2024 | Cardoso LHD, Gnaiger E (2024) OXPHOS coupling and uncoupling. MitoFit Preprints 2024.2. https://doi.org/10.26124/mitofit:2024-0002 | ||||
| Fitzgerald 2024 J Cachexia Sarcopenia Muscle | 2024 | Fitzgerald 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.13439 | Mouse | Skeletal muscle | COPD | |
| Queiroz 2024 Ecotoxicol Environ Saf | 2024 | Queiroz 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.2024.116254 | Mouse | Liver | Other | |
| Abegg 2024 Toxicol Lett | 2024 | Abegg 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.2024.01.008 | Human | Liver | ||
| Donnelly 2024 Redox Biol | 2024 | Donnelly 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.2024.103037 | Human Mouse | Heart Skeletal muscle | Hypoxia | |
| Davis 2024 BEC | 2024 | Davis 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:2024-0002 | Horse | Skeletal muscle | ||
| Al-Sabri 2024 Sci Rep | 2024 | Al-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-w | Drosophila | Skeletal muscle | ||
| Lee 2024 ACS Nano | 2024 | Lee 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 | ||||
| Bellissimo 2023 Exp Physiol | 2023 | Bellissimo 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/ep091274 | Mouse | Nervous system | Myopathy | |
| Gong 2023 Biomed Pharmacother | 2023 | Gong DF, Sun SC, Wang RR, Dawuti A, Kong DW, Liu RQ, Du LD, Wang SB, Lu Y, Yuan TY, Du GH, Fang LH (2023) Salvianolic acid A improve mitochondrial respiration and cardiac function via inhibiting apoptosis pathway through CRYAB in diabetic cardiomyopathy. https://doi.org/10.1016/j.biopha.2023.114382 | Rat | Heart | Cardiovascular Diabetes | |
| Koizumi 2023 Front Cardiovasc Med | 2023 | Koizumi 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. | Rat | Heart | Cardiovascular Diabetes | |
| Garcia-Roche 2023 PLoS One | 2023 | García-Roche M, Talmón D, Cañibe G, Astessiano AL, Mendoza A, Cassina A, Quijano C, Carriquiry M (2023) Hepatic metabolism of grazing cows of two Holstein strains under two feeding strategies with different levels of pasture inclusion. https://doi.org/10.1371/journal.pone.0290551 | Bovines | Liver | ||
| Airik 2023 Antioxidants (Basel) | 2023 | Airik 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/antiox12040900 | Human | Kidney | Oxidative stress;RONS | Inherited |
| Sharma 2023 Biosci Biotechnol Biochem | 2023 | Sharma 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/zbad169 | Mouse | Skeletal muscle | Oxidative stress;RONS | |
| Nollet 2023 Eur Heart J | 2023 | Nollet 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/ehad028 | Human | Heart | Cardiovascular Myopathy | |
| Pharaoh 2023 Geroscience | 2023 | Pharaoh G, Kamat V, Kannan S, Stuppard RS, Whitson J, Martín-Pérez M, Qian WJ, MacCoss MJ, Villén J, Rabinovitch P, Campbell MD, Sweet IR, Marcinek DJ (2023) The mitochondrially targeted peptide elamipretide (SS-31) improves ADP sensitivity in aged mitochondria by increasing uptake through the adenine nucleotide translocator (ANT). https://doi.org/10.1007/s11357-023-00861-y | Mouse | Skeletal muscle | Aging;senescence | |
| Menail 2023 FASEB J | 2023 | Menail 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.202300654r | Hexapods | Aging;senescence | ||
| Hoogstraten 2023 Arch Toxicol | 2023 | Hoogstraten CA, Jacobs MME, de Boer G, van de Wal MAE, Koopman WJH, Smeitink JAM, Russel FGM, Schirris TJJ (2023) Metabolic impact of genetic and chemical ADP/ATP carrier inhibition in renal proximal tubule epithelial cells. https://doi.org/10.1007/s00204-023-03510-7 | Human | Kidney | ||
| Wen 2023 PLoS One | 2023 | Wen 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.0294700 | Zebrafish | Skeletal muscle | Myopathy | |
| Dewidar 2023 EBioMedicine | 2023 | Dewidar 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.2023.104714 | Mouse | Skeletal muscle Liver | Diabetes Obesity Other | |
| Krause 2023 J Transl Med | 2023 | Krause 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-z | Human | Heart | Cardiovascular | |
| Luther 2023 Am J Physiol Renal Physiol | 2023 | Luther T, Bülow Anderberg S, Persson P, Franzén S, Skorup P, Wernerson A, Hultenby K, Palm F, Schiffer TA, Frithiof R (2023) Renal mitochondrial dysfunction in ovine experimental sepsis associated acute kidney injury. https://doi.org/10.1152/ajprenal.00294.2022 | Other mammals | Kidney | Sepsis | |
| Santos-Silva 2023 Transl Psychiatry | 2023 | Santos-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/s41398-023-02648-3 | Rat | Nervous system | ||
| Bellar 2023 Clin Transl Med | 2023 | Bellar 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/ctm2.1276 | Human | Blood cells | Other | |
| Wang 2023 Nature | 2023 | Wang D, Townsend LK, DesOrmeaux GJ, Frangos SM, Batchuluun B, Dumont L, Kuhre RE, Ahmadi E, Hu S, Rebalka IA, Gautam J, Jabile MJT, Pileggi CA, Rehal S, Desjardins EM, Tsakiridis EE, Lally JSV, Juracic ES, Tupling AR, Gerstein HC, Paré G, Tsakiridis T, Harper ME, Hawke TJ, Speakman JR, Blondin DP, Holloway GP, Jørgensen SB, Steinberg GR (2023) GDF15 promotes weight loss by enhancing energy expenditure in muscle. https://doi.org/10.1038/s41586-023-06249-4 | Mouse | Skeletal muscle | Obesity | |
| Sathiaseelan 2023 J Gerontol A Biol Sci Med Sci | 2023 | Sathiaseelan R, Ahn B, Stout MB, Logan S, Wanagat J, Van M Nguyen H, Hord NG, Vandiver AR, Selvarani R, Ranjit R, Yarbrough H, Masingale A, Miller BF, Wolf RF, Austad SN, Richardson A (2023) A genetically heterogeneous rat model with divergent mitochondrial genomes. https://doi.org/10.1093/gerona/glad056 | Rat | Skeletal muscle | ||
| Deschemin 2023 Sci Rep | 2023 | Deschemin JC, Ransy C, Bouillaud F, Chung S, Galy B, Peyssonnaux C, Vaulont S (2023) Hepcidin deficiency in mice impairs white adipose tissue browning possibly due to a defect in de novo adipogenesis. https://doi.org/10.1038/s41598-023-39305-0 | Mouse | Fat | ||
| Salmon 2023 Geroscience | 2023 | Salmón P, Millet C, Selman C, Monaghan P, Dawson NJ (2023) Tissue-specific reductions in mitochondrial efficiency and increased ROS release rates during ageing in zebra finches, Taeniopygia guttata. https://doi.org/10.1007/s11357-022-00624-1 | Birds | Skeletal muscle Liver | Oxidative stress;RONS | Aging;senescence |
| Zvejniece 2023 Biomed Pharmacother | 2023 | Zvejniece 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 | Ischemia-reperfusion | ||
| Giovarelli 2023 Mol Med | 2023 | Giovarelli M, Serati A, Zecchini S, Guelfi F, Clementi E, Mandò C (2023) Cryopreserved placental biopsies maintain mitochondrial activity for high-resolution respirometry. https://doi.org/10.1186/s10020-023-00645-2 | Human | Genital | Cryopreservation | |
| Pereyra 2023 Am J Physiol Gastrointest Liver Physiol | 2023 | Pereyra 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.00105.2023 | Mouse | Heart Skeletal muscle Liver Kidney | ||
| Mousa 2023 Cell Rep | 2023 | Mousa MG, Vuppaladhadiam L, Kelly MO, Pietka T, Ek S, Shen KC, Meyer GA, Finck BN, Brookheart RT (2023) Site-1 protease inhibits mitochondrial respiration by controlling the TGF-β target gene Mss51. Cell Rep 42:112336. https://doi.org/10.1016/j.celrep.2023.112336 | Mouse | Skeletal muscle | ||
| Horvath 2023 Antioxidants (Basel) | 2023 | Horváth 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/antiox12020271 | Rat | Liver | Ischemia-reperfusion | |
| Stouth 2023 Autophagy | 2023 | Stouth 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/10.1080/15548627.2023.2288528 | Mouse | Skeletal muscle | ||
| Dominguez-Lopez 2023 Neuropharmacology | 2023 | Dominguez-Lopez S, Ahn B, Sataranatarajan K, Ranjit R, Premkumar P, Van Remmen H, Beckstead MJ (2023) Long-term methamphetamine self-administration increases mesolimbic mitochondrial oxygen consumption and decreases striatal glutathione. https://doi.org/10.1016/j.neuropharm.2023.109436 | Mouse | Nervous system |
