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From Bioblast
| Year | Reference | Mammal and model | Tissue and cell | Stress | Diseases | |
|---|---|---|---|---|---|---|
| Vilas-Boas 2023 J Biol Chem | 2023 | Vilas-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.2023.102904 | Mouse | Liver | ||
| Thompson 2023 Geroscience | 2023 | Thompson 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/s11357-023-00892-5 | Mouse | Skeletal muscle | Aging;senescence | |
| Calabria 2023 Biomedicines | 2023 | Calabria 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/biomedicines11010121 | Human | Blood cells | Diabetes | |
| Ismaeel 2023 Physiol Rep | 2023 | Ismaeel 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/phy2.15848 | Mouse | Skeletal muscle | ||
| Fernando 2023 Commun Biol | 2023 | Fernando R, Shindyapina AV, Ost M, Santesmasses D, Hu Y, Tyshkovskiy A, Yim SH, Weiss J, Gladyshev VN, Grune T, Castro JP (2023) Downregulation of mitochondrial metabolism is a driver for fast skeletal muscle loss during mouse aging. https://doi.org/10.1038/s42003-023-05595-3 | Mouse | Skeletal muscle | Aging;senescence | |
| Marin 2023 Exp Gerontol | 2023 | Marin 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.2023.112081 | Rat | Skeletal muscle | ||
| Stampley 2023 Physiol Rep | 2023 | Stampley JE, Cho E, Wang H, Theall B, Johannsen NM, Spielmann G, Irving BA (2023) Impact of maximal exercise on immune cell mobilization and bioenergetics. https://doi.org/10.14814/phy2.15753 | Human | Blood cells | ||
| Kim 2023 Nat Commun | 2023 | Kim Y, Li C, Gu C, Fang Y, Tycksen E, Puri A, Pietka TA, Sivapackiam J, 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 autosomal dominant tubulointerstitial kidney disease in mice. Nat Commun 14:6493. https://doi.org/10.1038/s41467-023-42154-0 | Mouse | Kidney | ||
| Noone 2023 Cell Signal | 2023 | Noone J, Rochfort KD, O'Sullivan F, O'Gorman DJ (2023) SIRT4 is a regulator of human skeletal muscle fatty acid metabolism influencing inner and outer mitochondrial membrane-mediated fusion. https://doi.org/10.1016/j.cellsig.2023.110931 | Human | Skeletal muscle | ||
| Devaux 2023 J Comp Physiol B | 2023 | Devaux 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/s00360-023-01495-4 | Fishes | Nervous system | Oxidative stress;RONS | |
| Batterson 2023 Physiol Rep | 2023 | Batterson 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/phy2.15840 | Mouse | Skeletal muscle | ||
| Czyzowska 2023 Redox Biol | 2023 | Czyżowska 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.2023.102761 | Mouse | Skeletal muscle | Aging;senescence | |
| Steffen 2023 J Exp Biol | 2023 | Steffen 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.246164 | Molluscs | Lung;gill | Oxidative stress;RONS Hypoxia | |
| Pacheco-Fuentes 2023 Oecologia | 2023 | Pacheco-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/s00442-023-05344-7 | Birds | Blood cells | ||
| Colosio 2023 J Appl Physiol (1985) | 2023 | Colosio 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.00158.2023 | Human | Skeletal muscle | Infectious | |
| Wu 2023 Int Immunopharmacol | 2023 | Wu 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.2023.109716 | Mouse | Heart | Cardiovascular Myopathy Sepsis | |
| Golomb 2023 Sci Rep | 2023 | Golomb 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-w | Human | Skeletal muscle | Other | |
| Dabrowska 2023 Int J Mol Sci | 2023 | Dabrowska A, Zajac M, Bednarczyk P, Lukasiak A (2023) Effect of quercetin on mitoBKCa channel and mitochondrial function in human bronchial epithelial cells exposed to particulate matter. Int J Mol Sci 24:638. https://doi.org/10.3390/ijms24010638 | Human | Lung;gill Endothelial;epithelial;mesothelial cell | Oxidative stress;RONS | |
| Jiang 2023 Sci Rep | 2023 | Jiang 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-w | Mouse | Liver | Obesity | |
| Scandalis 2023 JAMA Cardiol | 2023 | Scandalis 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.2023.0957 | Human | Skeletal muscle | Cardiovascular | |
| Harmsen 2023 J Physiol | 2023 | Harmsen 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/jp285523 | Human | Skeletal muscle | Diabetes Obesity | |
| Mioc 2023 Molecules | 2023 | Mioc 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/molecules28010421 | Human | Endothelial;epithelial;mesothelial cell | Cancer | |
| Mancilla 2023 Physiol Rep | 2023 | Mancilla 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/phy2.15734 | Human | Skeletal muscle | ||
| Rodriguez 2023 BEC | 2023 | Rodríguez 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:2023-0003 | Drosophila | |||
| Temelie 2023 Int J Mol Sci | 2023 | Temelie 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/ijms24065891 | Mouse | Fibroblast | ||
| Nijholt 2023 Sci Rep | 2023 | Nijholt 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-z | Mouse | Heart | ||
| Sundaram 2023 Cell Metab | 2023 | Sundaram 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.2023.10.017 | Mouse | Nervous system | ||
| Gautam 2023 Neurobiol Dis | 2023 | Gautam 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.2023.106022 | Rat | Heart Nervous system | Neurodegenerative | |
| Frangos 2023 J Biol Chem | 2023 | Frangos 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.2023.105079 | Mouse | Skeletal muscle | ||
| Vamesu 2023 JCI Insight | 2023 | Vamesu 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.160697 | Mouse | Lung;gill | Other | |
| Ling 2023 EBioMedicine | 2023 | Ling 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.2023.104809 | Mouse | |||
| Davis 2023 Am J Physiol Regul Integr Comp Physiol . | 2023 | Davis MS, Bayly WM, Hansen CM, Barrett MR, Blake CA (2023) Effects of hyperthermia and acidosis on mitochondrial production of reactive oxygen species. Am J Physiol Regul Integr Comp Physiol . 325(6):R725-R734. | Horse | Skeletal muscle | Temperature | |
| Moellering 2023 Arthritis Res Ther | 2023 | Moellering 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-z | Human | Skeletal muscle | Other | |
| Fletcher 2023 Transl Res | 2023 | Fletcher 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.2023.05.002 | Mouse | Skeletal muscle | Myopathy Obesity | |
| Verma 2023 Int J Mol Sci | 2023 | Verma 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/ijms24020950 | Human | Endothelial;epithelial;mesothelial cell | Neurodegenerative | |
| Kyriazis 2023 Res Sq | 2023 | Kyriazis 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/v1 | Mouse | Skeletal muscle | Aging;senescence Obesity | |
| Arias-Reyes 2023 MitoFit | 2023 | Arias-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:2023-0006 | Mouse Rat | Nervous system | Hypoxia | |
| Kutschka 2023 Basic Res Cardiol | 2023 | Kutschka 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-x | Mouse | Heart | Inherited | |
| Gemmink 2023 Mol Metab | 2023 | Gemmink 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.2023.101727 | Human | Skeletal muscle | ||
| Noone 2023 J Physiol | 2023 | Noone 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/jp284734 | Human | Skeletal muscle | ||
| Thoral 2023 J Exp Biol | 2023 | Thoral E, Roussel D, Gasset E, Dutto G, Queiros Q, McKenzie DJ, Bourdeix JH, Metral L, Saraux C, Teulier L (2023) Temperature-dependent metabolic consequences of food deprivation in the European sardine. https://doi.org/10.1242/jeb.244984 | Fishes | Skeletal muscle | ||
| Davis 2023 MitoFit | 2023 | Davis 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:2023-0005 — 2024-04-25 published in Bioenerg Commun 2024.2. | Horse | Skeletal muscle | ||
| Bellissimo 2023 BEC | 2023 | Bellissimo CA, Soendergaard S, Hughes MC, Ramos SV, Larsen S, Perry CGR (2023) The influence of adenylate cycling on mitochondrial calcium-induced permeability transition in permeabilized skeletal muscle fibers. Bioenerg Commun 2023.1. https://doi.org/10.26124/bec:2023-0001 | Mouse | Skeletal muscle | Permeability transition | |
| Bowering 2023 Front Physiol | 2023 | Bowering 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.2023.1215442 | Fishes | Heart | Hypoxia | |
| Shirakawa 2023 Sci Rep | 2023 | Shirakawa 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-w | Human | Blood cells | Obesity | |
| Mazaki 2023 Cell Commun Signal | 2023 | Mazaki Y, Handa H, Fumoto Y, Horinouchi T, Onodera Y (2023) LRRK2 is involved in the chemotaxis of neutrophils and differentiated HL-60 cells, and the inhibition of LRRK2 kinase activity increases fMLP-induced chemotactic activity. https://doi.org/10.1186/s12964-023-01305-y | Human | Blood cells | ||
| Horcas-Nieto 2023 Biochim Biophys Acta Mol Basis Dis | 2023 | Horcas-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.2022.166635 | Mouse | Liver Other cell lines | Other | |
| Liu 2023 Pharmacol Res | 2023 | Liu S, Yue S, Guo Y, Han JY, Wang H (2023) Sorafenib induces cardiotoxicity through RBM20-mediated alternative splicing of sarcomeric and mitochondrial genes. https://doi.org/10.1016/j.phrs.2023.107017 | Rat | Heart | Cancer | |
| Silaidos 2023 Geroscience | 2023 | Silaidos CV, Reutzel M, Wachter L, Dieter F, Ludin N, Blum WF, Wudy SA, Matura S, Pilatus U, Hattingen E, Pantel J, Eckert GP (2023) Age-related changes in energy metabolism in peripheral mononuclear blood cells (PBMCs) and the brains of cognitively healthy seniors. https://doi.org/10.1007/s11357-023-00810-9 | Human | Blood cells | Aging;senescence | |
| Kim 2023 bioRxiv | 2023 | Kim 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/10.1101/2023.01.10.523171 | Mouse | Endothelial;epithelial;mesothelial cell | Other |
