Semantic search
From Bioblast
Year | Reference | Organism | Tissue;cell | Stress | Diseases | |
---|---|---|---|---|---|---|
Scalzo 2021 J Physiol | 2021 | Scalzo 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. | Human | Skeletal muscle | Diabetes | |
Scandalis 2019 Abstract IOC141 | Scandalis LM, Kramer P, Nelson B, Dozier S, Stone J, Kitzman D, Molina AJA (2019) Oxygen consumption of skeletal muscle in heart failure with preserved ejection fraction. Mitochondr Physiol Network 24.02. | Human | Skeletal muscle | Cardiovascular | ||
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. JAMA Cardiol 8:575–84. https://doi.org/10.1001/jamacardio.2023.0957 | Human | Skeletal muscle | Cardiovascular | |
Scheffer 2021 Brain Commun | 2021 | Scheffer DDL, Freitas FC, Aguiar AS Jr, Ward C, Guglielmo LGA, Prediger RD, Cronin SJF, Walz R, Andrews NA, Latini A (2021) Impaired dopamine metabolism is linked to fatigability in mice and fatigue in Parkinson's disease patients. Brain Commun 3:fcab116. | Rat | Skeletal muscle | Parkinson's | |
Schiffer 2014 FASEB J | 2014 | Schiffer TA, Ekblom B, Lundberg JO, Weitzberg E, Larsen FJ (2014) Dynamic regulation of metabolic efficiency explains tolerance to acute hypoxia in humans. FASEB J 28:4303-11. | Human | Skeletal muscle | Ischemia-reperfusion Hypoxia | |
Schoettl 2015 Endocrinology | 2015 | Schöttl T, Kappler L, Braun K, Fromme T, Klingenspor M (2015) Limited mitochondrial capacity of visceral versus subcutaneous white adipocytes in male C57BL/6N mice. Endocrinology 156:923-33. | Mouse | Fat | Oxidative stress;RONS | |
Schoettl 2015 Mol Metab | 2015 | Schöttl T, Kappler L, Fromme T, Klingenspor M (2015) Limited OXPHOS capacity in white adipocytes is a hallmark of obesity in laboratory mice irrespective of the glucose tolerance status. Mol Metab 4:631-42. | Mouse | Fat Other cell lines | Obesity | |
Schwarzkopf 2015 Neuroscience | 2015 | Schwarzkopf TM, Koch K, Klein J (2015) Reduced severity of ischemic stroke and improvement of mitochondrial function after dietary treatment with the anaplerotic substance triheptanoin. Neuroscience 300:201-9. | Mouse | Nervous system | Ischemia-reperfusion | Cardiovascular |
Scott 2009 Proc Biol Sci | 2009 | Scott GR, Egginton S, Richards JG, Milsom WK (2009) Evolution of muscle phenotype for extreme high altitude flight in the bar-headed goose. Proc Biol Sci 276:3645-53. https://doi.org/10.1098/rspb.2009.0947 | Birds | Skeletal muscle | Ischemia-reperfusion | |
Scott 2013 Abstract MiP2013 | Scott GR, Mahalingam S, McClelland GB(2013) Mitochondrial adaptations to hypoxia in high-altitude birds and mammals. Mitochondr Physiol Network 18.08. | Other mammals Birds | Skeletal muscle | |||
Scott 2016 Thesis | 2016 | Scott KY (2016) Evaluation of cardiac mitochondrial function in the fructose-fed rat. Master's Thesis p98. | Rat | Heart | Diabetes | |
Scott 2018 Integr Comp Biol | 2018 | Scott GR, Guo KH, Dawson NJ (2018) The mitochondrial basis for adaptive variation in aerobic performance in high-altitude deer mice. Integr Comp Biol 58:506-18. https://doi.org/10.1093/icb/icy056 | Mouse | Heart Skeletal muscle | Hypoxia | |
Seite 2018 Sci Rep | 2018 | Seite S, Mourier A, Camougrand N, Salin B, Figueiredo-Silva AC, Fontagne-Dicharry S, Panserat S, Seiliez I (2018) Dietary methionine deficiency affects oxidative status, mitochondrial integrity and mitophagy in the liver of rainbow trout (Oncorhynchus mykiss). Sci Rep 8:10151. | Fishes | Liver | ||
Sengupta 2016 Free Radic Biol Med | 2016 | Sengupta S, Yang G, O'Donnell JC, Hinson MD, McCormack SE, Falk MJ, La P, Robinson MB, Williams ML, Yohannes MT, Polyak E, Nakamaru-Ogiso E, Dennery PA (2016) The circadian gene Rev-erbα improves cellular bioenergetics and provides preconditioning for protection against oxidative stress. Free Radic Biol Med 93:177-89. | Mouse | Lung;gill Fibroblast | Oxidative stress;RONS | |
Senyilmaz 2015 Nature | 2015 | Senyilmaz D, Virtue S, Xu X, Tan CY, Griffin JL, Miller AK, Vidal-Puig A, Teleman AA (2015) Regulation of mitochondrial morphology and function by stearoylation of TFR1. Nature 525:124-8. | Drosophila | Parkinson's | ||
Seo 2017 Elife | 2017 | Seo AY, Lau PW, Feliciano D, Sengupta P, Gros MAL, Cinquin B, Larabell CA, Lippincott-Schwartz J (2017) AMPK and vacuole-associated Atg14p orchestrate μ-lipophagy for energy production and long-term survival under glucose starvation. Elife 6. pii: e21690. | Saccharomyces cerevisiae | Other | ||
Seo 2019 Exp Neurol | 2019 | Seo JH, Park HS, Park SS, Kim CJ, Kim DH, Kim TW (2019) Physical exercise ameliorates psychiatric disorders and cognitive dysfunctions by hippocampal mitochondrial function and neuroplasticity in post-traumatic stress disorder. Exp Neurol 322:113043. | Rat | Nervous system | Other | |
Seo 2020 J Clin Med | 2020 | Seo DY, Heo JW, No MH, Yoo SZ, Ko JR, Park DH, Kang JH, Kim CJ, Jung SJ, Han J, Kwak HB (2020) Exercise training protects against atorvastatin-induced skeletal muscle dysfunction and mitochondrial dysfunction in the skeletal muscle of rats. J Clin Med 9:E2292. | Rat | Skeletal muscle | ||
Serna 2020 J Bioenerg Biomembr | 2020 | Serna JDC, Caldeira da Silva CC, Kowaltowski AJ (2020) Functional changes induced by caloric restriction in cardiac and skeletal muscle mitochondria. J Bioenerg Biomembr 52:269-77. | Rat | Heart Skeletal muscle | Permeability transition | Aging;senescence |
Shabalina 2017 Abstract MITOEAGLE Barcelona |
Control of UCP1 activity in brown fat mitochondria. | Mouse | Fat | Oxidative stress;RONS | Obesity | |
Shao 2019 Cardiovasc Diabetol | 2019 | Shao Q, Meng L, Lee S, Tse G, Gong M, Zhang Z, Zhao J, Zhao Y, Li G, Liu T (2019) Empagliflozin, a sodium glucose co-transporter-2 inhibitor, alleviates atrial remodeling and improves mitochondrial function in high-fat diet/streptozotocin-induce diabetic rats. Cardiovasc Diabetol 18:165. | Rat | Heart | Diabetes | |
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 | |
Sheldon 2015 Abstract MiPschool Greenville 2015 | eNOS is required to preserve hepatic mitochondrial function in western diet-induced nonalcoholic fatty liver disease. | Mouse | Liver | |||
Shi 2020 Diabetes | 2020 | Shi JH, Lu JY, Chen HY, Wei CC, Xu X, Li H, Bai Q, Xia FZ, Lam SM, Zhang H, Shi YN, Cao D, Chen L, Shui G, Yang X, Lu Y, Chen YX, Zhang WJ (2020) Liver ChREBP protects against fructose-induced glycogenic hepatotoxicity by regulating L-type pyruvate kinase. Diabetes 120:29. | Mouse | Liver | ||
Silva 2016 Thesis | 2016 | Silva Luana Caroline Schüeler da (2016) Fucoxantina inibe a oxidação de LDL e ativação de macrófagos in vitro. PhD Thesis:93 pp. | Human | Oxidative stress;RONS | Cardiovascular | |
Simard 2020b Metabolites | 2020 | Simard CJ, Touaibia M, Allain EP, Hebert-Chatelain E, Pichaud N (2020) Role of the mitochondrial pyruvate carrier in the occurrence of metabolic inflexibility in Drosophila melanogaster exposed to dietary sucrose. Metabolites 10:E411. | Drosophila | |||
Sitnick 2013 Diabetes | 2013 | Sitnick MT, Basantani MK, Cai L, Schoiswohl G, Yazbeck CF, Distefano G, Ritov V, Delany JP, Schreiber R, Stolz DB, Gardner NP, Kienesberger PC, Pulinilkunnil T, Zechner R, Goodpaster BH, Coen P, Kershaw EE (2013) Skeletal muscle triacylglycerol hydrolysis does not influence metabolic complications of obesity. Diabetes 62:3350-6. | Mouse | Skeletal muscle | Diabetes Obesity | |
Skemiene 2015 FEBS J | 2015 | Skemiene K, Liobikas J, Borutaite V (2015) Anthocyanins as substrates for mitochondrial complex I - protective effect against heart ischemic injury. FEBS J 282:963-71. | Rat | Heart | Ischemia-reperfusion | |
Skolik 2017 Abstract IOC122 | What can we learn from different sugars as substrates for cancer cells? | Human | Liver | Cancer | ||
Slinde 2013 Abstract MiP2013 | Slinde E, Egelandsdal B, Olsen RE (2013) Respiration of tissue and mitochondria from Atlantic salmon (Salmo salar, L) liver, muscle, heart, brain and blood. Mitochondr Physiol Network 18.08. | Other mammals Fishes | Heart Liver Blood cells | Temperature | ||
Smenes 2015 Abstract IOC100 | Smenes BT, Baekkerud FH, Hassel E, Wohlwend M, Slagsvold KH, Rognmo O, Wahba A (2015) Mitochondrial function in patients exercising prior to coronary surgery – A single blinded randomized controlled trial. Mitochondr Physiol Network 20.01. | Human | Skeletal muscle | Ischemia-reperfusion | Cardiovascular | |
Smenes 2018 Interact Cardiovasc Thorac Surg | 2018 | Smenes BT, Bækkerud FH, Slagsvold KH, Hassel E, Wohlwend M, Pinho M, Høydal M, Wisløff U, Rognmo Ø, Wahba A (2018) Acute exercise is not cardioprotective and may induce apoptotic signalling in heart surgery: a randomized controlled trial. Interact Cardiovasc Thorac Surg 27:95-101. | Human | Heart | Ischemia-reperfusion | Aging;senescence Cardiovascular |
Snook 2016 Am J Physiol Regul Integr Comp Physiol | 2016 | Snook LA, MacPherson RE, Monaco CM, Frendo-Cumbo S, Castellani L, Peppler WT, Anderson ZG, Buzelle SL, LeBlanc PJ, Holloway GP, Wright DC (2016) Prior exercise training blunts short term highfat diet induced weight gain. Am J Physiol Regul Integr Comp Physiol 311:R315-24. | Mouse | Fat | Obesity | |
Sobotka 2016 Abstract IOC116 | Sobotka O, Kucera Otto, Stankova P, Endlicher R, Nozickova K, Banni A, Cervinkova Z (2016) Mitochondrial respiration in fatty liver. Mitochondr Physiol Network 21.11 | Rat | Liver | Obesity | ||
Sobotka 2017 Abstract MITOEAGLE Barcelona |
The effect of 24 weeks of high-fat and high-cholesterol diet on rat liver mitochondria. Sobotka_Presentation | Rat | Liver | Other Obesity | ||
Sobotka 2017 Thesis | 2017 | Sobotka O (2017) Pharmacological and metabolic influence on liver mitochondrial functions. PhD Thesis p127. | Mouse Rat | Liver | ||
Soendergaard 2016 Abstract IOC109 | Soendergaard SD (2016) Acute exposure of human muscle fibers to EPO or Actovegin has a marked effect on the mitochondrial respiratory capacity. Mitochondr Physiol Network 21.01. | Human | Skeletal muscle | |||
Soendergaard 2016 Eur J Sport Sci | 2016 | Søndergård SD, Dela F, Helge JW, Larsen S (2016) Actovegin, a non-prohibited drug increases oxidative capacity in human skeletal muscle. Eur J Sport Sci 16:801-7. | Human | Skeletal muscle | ||
Souza 2018 Sci Rep | 2018 | Souza RWA, Alves CRR, Medeiros A, Rolim N, Silva GJJ, Moreira JBN, Alves MN, Wohlwend M, Gebriel M, Hagen L, Sharma A, Koch LG, Britton SL, Slupphaug G, Wisløff U, Brum PC (2018) Differential regulation of cysteine oxidative post-translational modifications in high and low aerobic capacity. Sci Rep 8:17772. | Rat | Heart Skeletal muscle | ||
Spagnuolo 2022 Mol Neurobiol | 2022 | Spagnuolo MS, Mazzoli A, Nazzaro M, Troise AD, Gatto C, Tonini C, Colardo M, Segatto M, Scaloni A, Pallottini V, Iossa S, Cigliano L (2022) Long-lasting Impact of sugar intake on neurotrophins and neurotransmitters from adolescence to young adulthood in rat frontal cortex. https://doi.org/10.1007/s12035-022-03115-8 | Rat | Nervous system | ||
Sparks 2014 Abstract MiP2014 | NAMPT remodels substrate metabolism in skeletal muscle. | Mouse | Skeletal muscle | |||
Sparks 2016 Diabetologia | 2016 | Sparks LM, Gemmink A, Phielix E, Bosma M, Schaart G, Moonen-Kornips E, Jörgensen JA, Nascimento EB, Hesselink MK, Schrauwen P, Hoeks J (2016) ANT1-mediated fatty acid-induced uncoupling as a target for improving myocellular insulin sensitivity. Diabetologia 59:1030-9. | Human Mouse Rat | Skeletal muscle Other cell lines | Diabetes | |
Spendiff 2014 Abstract MiP2014 | Lessons from the master athlete: mitochondrial contributions to aging. | Human | Skeletal muscle | Oxidative stress;RONS | Aging;senescence | |
Spendiff 2016 J Physiol | 2016 | Spendiff S, Vuda M, Gouspillou G, Aare S, Perez A, Morais JA, Jagoe RT, Filion ME, Glicksman R, Kapchinsky S, MacMillan NJ, Pion CH, Aubertin-Leheudre M, Hettwer S, Correa JA, Taivassalo T, Hepple RT (2016) Denervation drives mitochondrial dysfunction in skeletal muscle of octogenarians. J Physiol 594:7361-79. | Human Mouse | Skeletal muscle | Permeability transition | Aging;senescence Myopathy |
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 | ||
Stanford 2018 Cell Metab | 2018 | Stanford KI, Lynes MD, Takahashi H, Baer LA, Arts PJ, May FJ, Lehnig AC, Middelbeek RJW, Richard JJ, So K, Chen EY, Gao F, Narain NR, Distefano G, Shettigar VK, Hirshman MF, Ziolo MT, Kiebish MA, Tseng YH, Coen PM, Goodyear LJ (2018) 12,13-diHOME: an exercise-induced lipokine that increases skeletal muscle fatty acid uptake. Cell Metab 27:1111-20. | Human Mouse | Skeletal muscle | Temperature | |
Stankova 2018 MiP2018 | Impact of western diet on energy metabolism in mouse liver. | Mouse | Liver | Obesity Other | ||
Stankova 2020 Int J Mol Sci | 2020 | Staňková P, Kučera O, Peterová E, Lotková H, Maseko TE, Nožičková K, Červinková Z (2020) Adaptation of mitochondrial substrate flux in a mouse model of nonalcoholic fatty liver disease. Int J Mol Sci 21:E1101. | Mouse | Liver | Other | |
Stankova 2021 Int J Mol Sci | 2021 | Staňková P, Kučera O, Peterová E, Elkalaf M, Rychtrmoc D, Melek J, Podhola M, Zubáňová V, Červinková Z (2021) Western diet decreases the liver mitochondrial oxidative flux of succinate: insight from a murine NAFLD model. https://doi.org/10.3390/ijms22136908 | Mouse | Liver | Oxidative stress;RONS | Obesity |
Stephenson 2012 Am J Physiol Endocrinol Metab | 2012 | Stephenson EJ, Camera DM, Jenkins TA, Lee JS, Kosari S, Hawley JA, Stepto NK (2012) Skeletal muscle respiratory capacity is enhanced in rats consuming an obesogenic Western diet. Am J Physiol Endocrinol Metab 302:E1541-49. | Rat | Skeletal muscle | Obesity |