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From Bioblast
| Was published in year | Reference | Organism | Tissue;cell | |
|---|---|---|---|---|
| Abid 2019 J Clin Transl Sci | Abid H, Hart C, Lanza I (2019) Effects of local interleukin-6 on mitochondrial physiology in skeletal muscle. J Clin Transl Sci. | Skeletal muscle | ||
| Abid 2020 FASEB J | 2020 | Abid H, Ryan ZC, Delmotte P, Sieck GC, Lanza IR (2020) Extramyocellular interleukin-6 influences skeletal muscle mitochondrial physiology through canonical JAK/STAT signaling pathways. FASEB J 34:14458-72. | Mouse | Skeletal muscle |
| Abu Bakar 2020 Eur J Pharmacol | 2020 | Abu Bakar MH, Shariff KA, Tan JS, Lee LK (2020) Celastrol attenuates inflammatory responses in adipose tissues and improves skeletal muscle mitochondrial functions in high fat diet-induced obese rats via upregulation of AMPK/SIRT1 signaling pathways. Eur J Pharmacol 883:173371. | Rat | Skeletal muscle |
| Acosta 2015 Obesity (Silver Spring) | 2015 | Acosta A, Camilleri M, Shin A, Vazquez-Roque MI, Iturrino J, Lanza IR, Nair KS, Burton D, O'Neill J, Eckert D, Carlson P, Vella A, Zinsmeister AR (2015) Association of UCP-3 rs1626521 with obesity and stomach functions in humans. Obesity (Silver Spring) 23:898-906. | Human | Skeletal muscle |
| Acuna-Castroviejo 2012 Abstract Bioblast | Acuna-Castroviejo D (2012) Melatonin and the quality of life: the melatonin-mitochondrion connection. Mitochondr Physiol Network 17.12. | Mouse Rat | Heart Skeletal muscle Nervous system Liver | |
| Aguirre 2012 Mitochondrion | 2012 | Aguirre E, Lopez-Bernardo E, Cadenas S (2012) Functional evidence for nitric oxide production by skeletal-muscle mitochondria from lipopolysaccharide-treated mice. Mitochondrion 12:126-31. | Mouse | Skeletal muscle |
| Ahmed 2019 Mol Nutr Food Res | 2019 | Ahmed N, Tcheng M, Roma A, Buraczynski M, Jayanth P, Rea K, Akhtar TA, Spagnuolo PA (2019) Avocatin B protects against lipotoxicity and improves insulin sensitivity in diet-induced obesity. Mol Nutr Food Res 63:e1900688. | Mouse Rat | Skeletal muscle Islet cell;pancreas;thymus |
| Ahn 2010 Biochim Biophys Acta | 2010 | Ahn SY, Choi YS, Koo HJ, Jeong JH, Park WH, Kim M, Piao Y, Pak YK (2010) Mitochondrial dysfunction enhances the migration of vascular smooth muscles cells via suppression of Akt phosphorylation. Biochim Biophys Acta 1800:275-81. | Rat | Skeletal muscle |
| Ahn 2018 Redox Biol | 2018 | Ahn B, Pharaoh G, Premkumar P, Huseman K, Ranjit R, Kinter M, Szweda L, Kiss T, Fulop G, Tarantini S, Csiszar A, Ungvari Z, Van Remmen H (2018) Nrf2 deficiency exacerbates age-related contractile dysfunction and loss of skeletal muscle mass. Redox Biol 17:47-58. | Mouse | Skeletal muscle |
| Ahn 2019 J Cachexia Sarcopenia Muscle | 2019 | Ahn B, Ranjit R, Premkumar P, Pharaoh G, Piekarz KM, Matsuzaki S, Claflin DR, Riddle K, Judge J, Bhaskaran S, Satara Natarajan K, Barboza E, Wronowski B, Kinter M, Humphries KM, Griffin TM, Freeman WM, Richardson A, Brooks SV, Van Remmen H (2019) Mitochondrial oxidative stress impairs contractile function but paradoxically increases muscle mass via fiber branching. J Cachexia Sarcopenia Muscle 10:411-28. | Mouse | Skeletal muscle |
| Ahn 2022 Aging Cell | 2022 | Ahn B, Ranjit R, Kneis P, Xu H, Piekarz KM, Freeman WM, Kinter M, Richardson A, Ran Q, Brooks SV, Van Remmen H (2022) Scavenging mitochondrial hydrogen peroxide by peroxiredoxin 3 overexpression attenuates contractile dysfunction and muscle atrophy in a murine model of accelerated sarcopenia. Aging Cell 21:e13569. | Mouse | Skeletal muscle |
| Aid-Vanakova 2019 MiP2019 |  Adaptation of muscle OXPHOS in developing glucose intolerance - Wfs1 mice model. | Mouse | Skeletal muscle Heart | |
| Ajime 2020 Nicotine Tob Res | 2020 | Ajime TT, Serré J, Wüst RCI, Messa GAM, Poffé C, Swaminathan A, Maes K, Janssens W, Troosters T, Degens H, Gayan-Ramirez G (2020) Two weeks smoking cessation reverses cigarette smoke-induced skeletal muscle atrophy and mitochondrial dysfunction in mice. Nicotine Tob Res 23:143-51. | Mouse | 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 |
| Alberici 2014 Abstract MiP2014 | Effects of long-chain acyl-CoA synthetase 6 knockdown in primary skeletal muscle cells metabolism. | Rat | Skeletal muscle | |
| Alexopoulos 2020 Nat Commun | 2020 | Alexopoulos SJ, Chen SY, Brandon AE, Salamoun JM, Byrne FL, Garcia CJ, Beretta M, Olzomer EM, Shah DP, Philp AM, Hargett SR, Lawrence RT, Lee B, Sligar J, Carrive P, Tucker SP, Philp A, Lackner C, Turner N, Cooney GJ, Santos WL, Hoehn KL (2020) Mitochondrial uncoupler BAM15 reverses diet-induced obesity and insulin resistance in mice. Nat Commun 11:2397. | Mouse | Skeletal muscle Liver Fat |
| Allard 2018 J Clin Endocrinol Metab | 2018 | Allard NAE, Schirris TJJ, Verheggen RJ, Russel FGM, Rodenburg RJ, Smeitink JAM, Thompson PD, Hopman MTE, Timmers S (2018) Statins affect skeletal muscle performance: evidence for disturbances in energy metabolism. J Clin Endocrinol Metab 103:75-84. | Human | Skeletal muscle |
| Ambrosio 2014 Free Radic Biol Med | 2014 | Ambrosio F, Brown E, Stolz D, Ferrari R, Goodpaster BH, Deasy B, Distefano G, Roperti A, Cheikhi A, Garciafigueroa Y, Barchowsky A (2014) Arsenic induces sustained impairment of skeletal muscle and muscle progenitor cell ultrastructure and bioenergetics. Free Radic Biol Med 74C:64-73. | Mouse | Skeletal muscle |
| Anderson 2009 J Clin Invest | 2009 | Anderson EJ, Lustig ME, Boyle KE, Woodlief TL, Kane DA, Lin C-T, Price JW, Kang L, Rabinovitch PS, Szeto HH, Houmard JA, Cortright RN, Wasserman DH, Neufer PD (2009) Mitochondrial H2O2 emission and cellular redox state link excess fat intake to insulin resistance in both rodents and humans. J Clin Invest 119:573-81. | Human Mouse Rat | Skeletal muscle |
| Andriessen 2018 IOC130 | Day-night rhythm in skeletal muscle metabolism of prediabetic men. | Human | Skeletal muscle | |
| Antoun 2015 JIMD Rep | 2015 | Antoun G, McBride S, Vanstone JR, Naas T, Michaud J, Redpath S, McMillan HJ, Brophy J, Daoud H, Chakraborty P, Dyment D, Holcik M, Harper ME, Lines MA (2015) Detailed biochemical and bioenergetic characterization of FBXL4-related encephalomyopathic mitochondrial DNA depletion. JIMD Rep 27:1-9. | Human | Skeletal muscle |
| Apostolopoulou 2021 Sci Adv | 2021 | Apostolopoulou M, Mastrototaro L, Hartwig S, Pesta D, Straßburger K, de Filippo E, Jelenik T, Karusheva Y, Gancheva S, Markgraf D, Herder C, Nair KS, Reichert AS, Lehr S, Müssig K, Al-Hasani H, Szendroedi J, Roden M (2021) Metabolic responsiveness to training depends on insulin sensitivity and protein content of exosomes in insulin-resistant males. https://doi.org/10.1126/sciadv.abi9551 | Human | Skeletal muscle |
| Appaix 2003 Exp Physiol | 2003 | Appaix F, Kuznetsov AV, Usson Y, Kay L, Andrienko T, Olivares J, Kaambre T, Sikk P, Margreiter R, Saks V (2003) Possible role of cytoskeleton in intracellular arrangement and regulation of mitochondria. Exp Physiol 88:175-90. | Rat | Heart Skeletal muscle |
| Ara 2011 Int J Obes | 2011 | Ara I, Larsen S, Stallknecht B, Guerra B, Morales-Alamo D, Andersen JL, Ponce-González JG, Guadalupe-Grau A, Galbo H, Calbet JA, Helge JW (2011) Normal mitochondrial function and increased fat oxidation capacity in leg and arm muscles in obese humans. Int J Obes 35: 99-108. | Human | Skeletal muscle |
| Aragones 2008 Nat Genet | 2008 | Aragonés J, Schneider M, Van Geyte K, Fraisl P, Dresselaers T, Mazzone M, Dirkx R, Zacchigna S, Lemieux H, Jeoung NH, Lambrechts D, Bishop T, Lafuste P, Diez-Juan A, K Harten S, Van Noten P, De Bock K, Willam C, Tjwa M, Grosfeld A, Navet R, Moons L, Vandendriessche T, Deroose C, Wijeyekoon B, Nuyts J, Jordan B, Silasi-Mansat R, Lupu F, Dewerchin M, Pugh C, Salmon P, Mortelmans L, Gallez B, Gorus F, Buyse J, Sluse F, Harris RA, Gnaiger Erich, Hespel P, Van Hecke P, Schuit F, Van Veldhoven P, Ratcliffe P, Baes M, Maxwell P, Carmeliet P (2008) Deficiency or inhibition of oxygen sensor Phd1 induces hypoxia tolerance by reprogramming basal metabolism. Nat Genet 40:170-80. | Mouse | Skeletal muscle |
| Arruda 2008 Endocrinology | 2008 | Arruda AP, Ketzer LA, Nigro M, Galina A, Carvalho DP, de Meis L (2008) Cold tolerance in hypothyroid rabbits: role of skeletal muscle mitochondria and sarcoplasmic reticulum Ca2+ ATPase isoform 1 heat production. Endocrinology 149:6262-71. | Rabbit | Skeletal muscle |
| Attane 2012 Diabetes | 2012 | Attané C, Foussal C, Le Gonidec S, Benani A, Daviaud D, Wanecq E, Guzmán-Ruiz R, Dray C, Bezaire V, Rancoule C, Kuba K, Ruiz-Gayo M, Levade T, Penninger J, Burcelin R, Pénicaud L, Valet P, Castan-Laurell I (2012) Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice. Diabetes 61:310-20. | Mouse | Skeletal muscle |
| Avin 2021 Sci Rep | 2021 | Avin KG, Hughes MC, Chen NX, Srinivasan S, O'Neill KD, Evan AP, Bacallao RL, Schulte ML, Moorthi RN, Gisch DL, Perry CGR, Moe SM, O'Connell TM (2021) Skeletal muscle metabolic responses to physical activity are muscle type specific in a rat model of chronic kidney disease. Sci Rep 11:9788. | Rat | Skeletal muscle |
| Axelrod 2019 Abstract IOC141 | Axelrod CL, Davuluri G, Zunica ERM, Noland RC, Hoppel CL, Kirwan JP (2019) Administration of BAM15 to obese C57BL/6J mice increases skeletal muscle fatty acid oxidation independent of OXPHOS or ETC capacity. Mitochondr Physiol Network 24.02. | Mouse | Skeletal muscle | |
| Axelrod 2021 EMBO Mol Med | 2021 | Axelrod CL, King WT, Davuluri G, Noland RC, Hall J, Hull M, Dantas WS, Zunica ER, Alexopoulos SJ, Hoehn KL, Langohr I, Stadler K, Doyle H, Schmidt E, Nieuwoudt S, Fitzgerald K, Pergola K, Fujioka H, Mey JT, Fealy C, Mulya A, Beyl R, Hoppel CL, Kirwan JP (2021) BAM15-mediated mitochondrial uncoupling protects against obesity and improves glycemic control. EMBO Mol Med 12:12088. | Mouse | Skeletal muscle |
| Axton 2019 J Nutr | 2019 | Axton ER, Beaver LM, St Mary L, Truong L, Logan CR, Spagnoli S, Prater MC, Keller RM, Garcia-Jaramillo M, Ehrlicher SE, Stierwalt HD, Newsom SA, Robinson MM, Tanguay RL, Stevens JF, Hord NG (2019) Treatment with nitrate, but not nitrite, lowers the oxygen cost of exercise and decreases glycolytic intermediates while increasing fatty acid metabolites in exercised zebrafish. J Nutr 00:1–13. | Zebrafish | Skeletal muscle |
| Baeder 2016 Int J Dent | 2016 | Baeder AC, Napa K, Richardson ST, Taylor OJ, Andersen SG, Wilcox SH, Winden DR, Reynolds PR, Bikman BT (2016) Oral gingival cell cigarette smoke exposure induces muscle cell metabolic disruption. Int J Dent 2016:2763160. | Mouse | Skeletal muscle |
| Bai 2016 PLOS ONE | 2016 | Bai F, Fink BD, Yu L, Sivitz WI (2016) Voltage-dependent regulation of Complex II energized mitochondrial oxygen flux. PLOS ONE 11:e0154982. | Mouse | Heart Skeletal muscle Nervous system Liver |
| Bal 2016 J Biol Chem | 2016 | Bal NC, Maurya SK, Singh S, Wehrens XH, Periasamy M (2016) Increased reliance on muscle based thermogenesis upon acute minimization of brown adipose tissue function. J Biol Chem 291:17247-57. | Mouse | Skeletal muscle |
| Bal 2017 J Biol Chem | 2017 | Bal NC, Singh S, Reis FCG, Maurya SK, Pani S, Rowland LA, Periasamy M (2017) Both brown adipose tissue and skeletal muscle thermogenesis processes are activated during mild to severe cold adaptation in mice. J Biol Chem 292:16616-25. | Mouse | Skeletal muscle Fat |
| Banh 2015 Comp Biochem Physiol B Biochem Mol Biol | 2015 | Banh S, Wiens L, Sotiri E, Treberg JR (2015) Mitochondrial reactive oxygen species production by fish muscle mitochondria: Potential role in acute heat-induced oxidative stress. Comp Biochem Physiol B Biochem Mol Biol 191:99-107. | Rat Fishes | Skeletal muscle |
| Barbeau 2018 Biochem J | 2018 | Barbeau PA, Miotto PM, Holloway GP (2018) Mitochondrial derived reactive oxygen species influence ADP sensitivity, but not CPT-I substrate sensitivity. Biochem J 475:2997-3008. | Mouse | Skeletal muscle |
| Basse 2021 Mol Metab | 2021 | Basse AL, Agerholm M, Farup J, Dalbram E, Nielsen J, Oertenblad N, Altıntas A, Ehrlich AM, Krag T, Bruzzone S, Dall M, de Guia RM, Jensen JB, Moeller AB, Karlsen A, Kjaer M, Barres R, Vissing J, Larsen S, Jessen N, Treebak JT (2021) Nampt controls skeletal muscle development by maintaining Ca2+ homeostasis and mitochondrial integrity. Mol Metab 53:101271. | Mouse | Skeletal muscle |
| 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 |
| Berg 2019 Front Physiol | 2019 | Berg J, Undebakke V, Rasch-Halvorsen Ø, Aakerøy L, Sandbakk Ø, Tjønna AE (2019) Comparison of mitochondrial respiration in M. triceps brachii and M. vastus lateralis between elite cross-country skiers and physically active controls. Front Physiol 10:365. | Human | Skeletal muscle |
| Berru 2019 Sci Rep | 2019 | Berru FN, Gray SE, Thome T, Kumar RA, Salyers ZR, Coleman M, Dennis Le, O'Malley K, Ferreira LF, Berceli SA, Scali ST, Ryan TE (2019) Chronic kidney disease exacerbates ischemic limb myopathy in mice via altered mitochondrial energetics. Sci Rep 9:15547. | Mouse | Skeletal muscle |
| Bertero 2020 Circ Res | 2020 | Bertero E, O'Rourke B, Maack C (2020) Mitochondria do not survive calcium overload during transplantation. Circ Res 126:784-86. | Mouse | Skeletal muscle |
| Bettink 2019 Mitochondrion | 2019 | Bettink MAW, Harms FA, Dollee N, Specht PAC, Raat NJH, Schoonderwoerd GC, Mik EG (2019) Non-invasive versus ex vivo measurement of mitochondrial function in an endotoxemia model in rat: toward monitoring of mitochondrial therapy. Mitochondrion 50:149-57. | Rat | Skeletal muscle |
| Bezuidenhout 2016a Abstract MitoFit Science Camp 2016 | Comparison of oxygen dependence of respiration in permeabilized mouse skeletal muscle fibers in two respiration media, MiR06Cr and Buffer Z containing Ctl, Cr and Blebbistatin. | Mouse | Skeletal muscle | |
| Bezuidenhout 2016b Abstract MitoFit Science Camp 2016 | Analysis and comparison of mitochondrial function using cooling plate or ice during mechanical separation of mouse skeletal muscle fibers. | Mouse | Skeletal muscle | |
| Bhaskaran 2020 Aging Cell | 2020 | Bhaskaran S, Pollock N, C Macpherson P, Ahn B, Piekarz KM, Staunton CA, Brown JL, Qaisar R, Vasilaki A, Richardson A, McArdle A, Jackson MJ, Brooks SV, Van Remmen H (2020) Neuron-specific deletion of CuZnSOD leads to an advanced sarcopenic phenotype in older mice. Aging Cell 19:e13225. | Mouse | Skeletal muscle |
| Bhattarai 2015 Abstract MiPschool Greenville 2015 | Exercise improves whole-body and skeletal muscle oxidative capacity in burned children. | Human | Skeletal muscle | |
| Bird 2016 Abstract IOC115 | High-resolution respirometry for the diagnosis of mitochondrial disease. | Human | Skeletal muscle Liver Fibroblast | |
| Bittel 2019 Diabetologia | 2019 | Bittel AJ, Bittel DC, Mittendorfer B, Patterson BW, Okunade AL, Yoshino J, Porter LC, Abumrad NA, Reeds DN, Cade WT (2019) A single bout of resistance exercise improves postprandial lipid metabolism in overweight/obese men with prediabetes. Diabetologia 63:611-23. | Human | Skeletal muscle |
| Bittel 2021 Diabetes | 2021 | Bittel DC, Bittel AJ, Varadhachary AS, Pietka T, Sinacore DR (2021) Deficits in the skeletal muscle transcriptome and mitochondrial coupling in progressive diabetes-induced CKD relate to functional decline. Diabetes 70:1130-44. https://doi.org/10.2337/db20-0688 | Human | Skeletal muscle |
