O2k-Network Labs Japan

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O2k-Network Labs Japan


O2k-Network


JP Japan.gif

O2k-Network Japan

In cityO2k-NetworkStatus O2k
AmiJP Ibaraki Nakayama TO2k 2013-
SagamiharaJP Sagamihara Kobayashi HO2k 2012-
SapporoJP Sapporo Yokota T 4 Power-O2k 2014-
TokushimaJP Tokushima Okuno HO2k 2020-
Tokyo, OsakaJP Tokyo BertholdOroboros distributor Japan
TokyoJP Tokyo Tanaka MO2k 2008-
TokyoJP Tokyo Uchino H 3 Power-O2k 2010-

O2k-Publications: JP

 YearReferenceOrganismTissue;cell
Shirakawa 2024 Sci Rep2024Shirakawa 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 (2024) Author Correction: Enhanced mitochondrial oxidative metabolism in peripheral blood mononuclear cells is associated with fatty liver in obese young adults. Sci Rep 14:6786. https://doi.org/10.1038/s41598-024-57171-2. Erratum for: Sci Rep. 2023 13:5203. https://doi.org/10.1038/s41598-023-32549-wHumanBlood cells
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/phy2.15957HumanFat
Morishita 2024 Biol Pharm Bull2024Morishita R, Onishi A, Oya M, Karashima H, Mori M, Kawatani Y, Kamei N, Takeda-Morishita M (2024) Effect of orally ingested water containing H2-filled ultrafine bubbles (UFBs) on ethanol-induced oxidative stress in rats. Biol Pharm Bull 47:1106-12. https://doi.org/10.1248/bpb.b24-00034RatLiver
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.RatHeart
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. Sci Rep 13:5203. https://doi.org/10.1038/s41598-023-32549-wHumanBlood cells
Takada 2022 Proc Natl Acad Sci U S A2022Takada S, Maekawa S, Furihata T, Kakutani N, Setoyama D, Ueda K, Nambu H, Hagiwara H, Handa H, Fumoto Y, Hata S, Masunaga T, Fukushima A, Yokota T, Kang D, Kinugawa S, Sabe H (2022) Succinyl-CoA-based energy metabolism dysfunction in chronic heart failure. Proc Natl Acad Sci U S A 119: e2203628119.MouseHeart
Aya 2022 Eur J Pharmacol2022Shiraki A, Oyama J, Shimizu T, Nakajima T, Yokota T, Node K (2022) Empagliflozin improves cardiac mitochondrial function and survival through energy regulation in a murine model of heart failure. Eur J Pharmacol 931: 175194.MouseHeart
Yamauchi 2022 Sci Rep2022Yamauchi Y, Nakamura A, Yokota T, Takahashi K, Kawata S, Tsuchida K, Omori K, Nomoto H, Kameda H, Cho KY, Anzai T, Tanaka S, Terauchi Y, Miyoshi H, Atsumi T (2022) Luseogliflozin preserves the pancreatic beta-cell mass and function in db/db mice by improving mitochondrial function. Sci Rep 12: 9740.MouseIslet cell;pancreas;thymus
Matsumoto 2021 Circ Heart Fail2021Matsumoto J, Takada S, Furihata T, Nambu H, Kakutani N, Maekawa S, Mizushima W, Nakano I, Fukushima A, Yokota T, Tanaka S, Handa H, Sabe H, Kinugawa S (2021) Brain-derived neurotrophic factor improves impaired fatty acid oxidation via the activation of adenosine monophosphate-activated protein kinase-ɑ - proliferator-activated receptor-r coactivator-1ɑ signaling in skeletal muscle of mice with heart failure. Circ Heart Fail 14: e005890.MouseSkeletal muscle
Nambu 2021 Cardiovasc Res2021Nambu H, Takada S, Maekawa S, Matsumoto J, Kakutani N, Furihata T, Shirakawa R, Katayama T, Nakajima T, Yamanashi K, Obata Y, Nakano I, Tsuda M, Saito A, Fukushima A, Yokota T, Nio-Kobayashi J, Yasui H, Higashikawa K, Kuge Y, Anzai T, Sabe H, Kinugawa S (2021) Inhibition of xanthine oxidase in the acute phase of myocardial infarction prevents skeletal muscle abnormalities and exercise intolerance. Cardiovasc Res 117:805-19.MouseSkeletal muscle
Furihata 2021 Commun Biol2021Furihata T, Takada S, Kakutani N, Maekawa S, Tsuda M, Matsumoto J, Mizushima W, Fukushima A, Yokota T, Enzan N, Matsushima S, Handa H, Fumoto Y, Nio-Kobayashi J, Iwanaga T, Tanaka S, Tsutsui H, Sabe H, Kinugawa S (2021) Cardiac-specific loss of mitoNEET expression is linked with age-related heart failure. Commun Biol 4:138.MouseHeart
Furihata 2021 BMC Pharmacol Toxicol2021Furihata T, Maekawa S, Takada S, Kakutani N, Nambu H, Shirakawa R, Yokota T, Kinugawa S (2021) Premedication with pioglitazone prevents doxorubicin-induced left ventricular dysfunction in mice. BMC Pharmacol Toxicol 22:27.MouseHeart
MiPNet25.10 Distributor engagement Tokyo JP2020-02-04
NextGenO2k logo.jpg
Tokyo,JP, 2020 Feb 4-7. On-site O2k-Workshop on High-Resolution Respirometry and partner distribution engagement.
Maeda 2020 J Cell Mol Med2020Maeda H, Kami D, Maeda R, Murata Y, Jo JI, Kitani T, Tabata Y, Matoba S, Gojo S (2020) TAT-dextran-mediated mitochondrial transfer enhances recovery from models of reperfusion injury in cultured cardiomyocytes. J Cell Mol Med 24:5007-20.RatHeart
Kawamura 2021 Mol Ther Nucleic Acids2020Kawamura E, Maruyama M, Abe J, Sudo A, Takeda A, Takada S, Yokota T, Kinugawa S, Harashima H, Yamada Y (2021) Validation of gene therapy for mutant mitochondria by delivering mitochondrial RNA using a MITO-porter. Mol Ther Nucleic Acids 20:687-98.HumanFibroblast
Maekawa 2019 Biochem Biophys Rep2019Maekawa S, Takada S, Furihata T, Fukushima A, Yokota T, Kinugawa S (2019) Mitochondrial respiration of complex II is not lower than that of complex I in mouse skeletal muscle. Biochem Biophys Rep 21:100717.MouseSkeletal muscle
Nakajima 2019 Sci Rep2019Nakajima T, Yokota T, Shingu Y, Yamada A, Iba Y, Ujihira K, Wakasa S, Ooka T, Takada S, Shirakawa R, Katayama T, Furihata T, Fukushima A, Matsuoka R, Nishihara H, Dela F, Nakanishi K, Matsui Y, Kinugawa S (2019) Impaired mitochondrial oxidative phosphorylation capacity in epicardial adipose tissue is associated with decreased concentration of adiponectin and severity of coronary atherosclerosis. Sci Rep 9:3535.HumanFat
Maekawa 2019 Cell Commun Signal2019Maekawa S, Takada S, Nambu H, Furihata T, Kakutani N, Setoyama D, Ueyanagi Y, Kang D, Sabe H, Kinugawa S (2019) Linoleic acid improves assembly of the CII subunit and CIII2/CIV complex of the mitochondrial oxidative phosphorylation system in heart failure. Cell Commun Signal 17:128.MouseHeart
Nambu 2019 Eur J Pharmacol2019Nambu H, Takada S, Fukushima A, Matsumoto J, Kakutani N, Maekawa S, Shirakawa R, Nakano I, Furihata T, Katayama T, Yamanashi K, Obata Y, Saito A, Yokota T, Kinugawa S (2019) Empagliflozin restores lowered exercise endurance capacity via the activation of skeletal muscle fatty acid oxidation in a murine model of heart failure. Eur J Pharmacol 866:172810.MouseSkeletal muscle
Shirakawa 2019 Sci Rep2019Shirakawa R, Yokota T, Nakajima T, Takada S, Yamane M, Furihata T, Maekawa S, Nambu H, Katayama T, Fukushima A, Saito A, Ishimori N, Dela F, Kinugawa S, Anzai T (2019) Mitochondrial reactive oxygen species generation in blood cells is associated with disease severity and exercise intolerance in heart failure patients. Sci Rep 9:14709.HumanBlood cells
Mazaki 2019 Biochem Biophys Res Commun2019Mazaki Y, Takada S, Nio-Kobayashi J, Maekawa S, Higashi T, Onodera Y, Sabe H (2019) Mitofusin 2 is involved in chemotaxis of neutrophil-like differentiated HL-60 cells. Biochem Biophys Res Commun 513:708-13.HumanBlood cells
Matsumoto 2018 Circulation2018Matsumoto J, Takada S, Kinugawa S, Furihata T, Nambu H, Kakutani N, Tsuda M, Fukushima A, Yokota T, Tanaka S, Takahashi H, Watanabe M, Hatakeyama S, Matsumoto M, Nakayama KI, Otsuka Y, Sabe H, Tsutsui H, Anzai T (2018) Brain-derived neurotrophic factor improves limited exercise capacity in mice with heart failure. Circulation 138:2064-66.MouseSkeletal muscle
Tsuda 2018 J Cachexia Sarcopenia Muscle2018Tsuda M, Fukushima A, Matsumoto J, Takada S, Kakutani N, Nambu H, Yamanashi K, Furihata T, Yokota T, Okita K, Kinugawa S, Anzai T (2018) Protein acetylation in skeletal muscle mitochondria is involved in impaired fatty acid oxidation and exercise intolerance in heart failure. J Cachexia Sarcopenia Muscle 9:844-59.MouseSkeletal muscle
Takahashi 2018 Sci Rep2018Takahashi K, Miura Y, Ohsawa I, Shirasawa T, Takahashi M (2018) In vitro rejuvenation of brain mitochondria by the inhibition of actin polymerization. Sci Rep 8:15585.MouseNervous system
Westerlund 2017 Pediatr Res2017Westerlund E, Marelsson SE, Ehinger JK, Sjövall F, Morota S, Åsander Frostner E, Oldfors A, Darin N, Lundgren J, Hansson MJ, Fellman V, Elmér E (2017) Oxygen consumption in platelets as an adjunct diagnostic method for pediatric mitochondrial disease. Pediatr Res 83:455-65.HumanPlatelet
Blood cells
Takahashi 2017 Exp Gerontol2017Takahashi K, Ohsawa I, Shirasawa T, Takahashi M (2017) Optic atrophy 1 mediates coenzyme Q-responsive regulation of respiratory complex IV activity in brain mitochondria. Exp Gerontol 98:217-223.MouseNervous system
Jespersen 2017 J Physiol2017Jespersen NR, Yokota T, Støttrup NB, Bergdahl A, Paelestik KB, Povlsen JA, Dela F, Bøtker HE (2017) Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion. J Physiol 595:3765-80.RatHeart
Thomsen 2017 Neurobiol Aging2017Thomsen K, Yokota T, Hasan-Olive MM, Sherazi N, Fakouri NB, Desler C, Regnell CE, Larsen S, Rasmussen LJ, Dela F, Bergersen LH, Lauritzen M (2017) Initial brain aging: heterogeneity of mitochondrial size is associated with decline in complex I-linked respiration in cortex and hippocampus. Neurobiol Aging 61:215-24.MouseNervous system
Ehinger 2016 Nat Commun2016Ehinger JK, Piel S, Ford R, Karlsson M, Sjövall F, Frostner EÅ, Morota S, Taylor RW, Turnbull DM, Cornell C, Moss SJ, Metzsch C, Hansson MJ, Fliri H, Elmér E (2016) Cell-permeable succinate prodrugs bypass mitochondrial Complex I deficiency. Nat Commun 7:12317. https://doi.org/10.1038/ncomms12317Heart
Blood cells
Fibroblast
Farsijani 2016 J Clin Invest2016Farsijani NM, Liu Q, Kobayashi H, Davidoff O, Sha F, Fandrey J, Ikizler TA, O'Connor PM, Haase VH (2016) Renal epithelium regulates erythropoiesis via HIF-dependent suppression of erythropoietin. J Clin Invest 126:1425-37.MouseNervous system
Takahashi 2016 Exp Gerontol2016Takahashi K, Ohsawa I, Shirasawa T, Takahashi M (2016) Early-onset motor impairment and increased accumulation of phosphorylated α-synuclein in the motor cortex of normal aging mice are ameliorated by coenzyme Q. Exp Gerontol 81:65-75.MouseNervous system
Ehinger 2016 Mov Disord2016Ehinger JK, Morota S, Hansson MJ, Gesine P, Elmér E (2016) Mitochondrial respiratory function in peripheral blood cells from Huntington’s disease patients. Mov Disord doi:10.1002/mdc3.12308.HumanBlood cells
Lymphocyte
Platelet
Karlsson 2016 Shock2016Karlsson M, Hara N, Morata S, Sjövall F, Kilbaugh T, Hansson MJ, Uchino H, Elmér E (2016) Diverse and tissue-specific mitochondrial respiratory response in a mouse model of sepsis-induced multiple organ failure. Shock 45:404-10.MouseNervous system
Liver
Takada 2016 Cardiovasc Res2016Takada S, Masaki Y, Kinugawa S, Matsumoto J, Furihata T, Mizushima W, Kadoguchi T, Fukushima A, Homma T, Takahashi M, Harashima S, Matsushima S, Yokota T, Tanaka S, Okita K, Tsutsui H (2016) Dipeptidyl peptidase-4 inhibitor improved exercise capacity and mitochondrial biogenesis in mice with heart failure via activation of glucagon-like peptide-1 receptor signalling. Cardiovasc Res 111:338-47.MouseSkeletal muscle
Mizushima 2016 J Mol Cell Cardiol2016Mizushima W, Takahashi H, Watanabe M, Kinugawa S, Matsushima S, Takada S, Yokota T, Furihata T, Matsumoto J, Tsuda M, Chiba I, Nagashima S, Yanagi S, Matsumoto M, Nakayama KI, Tsutsui H, Hatakeyama S (2016) The novel heart-specific RING finger protein 207 is involved in energy metabolism in cardiomyocytes. J Mol Cell Cardiol 100:43-53.RatHeart
Christiansen 2015 J Vet Med Sci2015Christiansen LB, Dela F, Koch J, Yokota T (2015) Tissue-specific and substrate-specific mitochondrial bioenergetics in feline cardiac and skeletal muscles. J Vet Med Sci 77:669-75.CatHeart
Skeletal muscle
Christiansen 2015 Am J Physiol Heart Circ Physiol2015Christiansen LB, Dela F, Koch J, Hansen CN, Leifsson PS, Yokota T (2015) Impaired cardiac mitochondrial oxidative phosphorylation and enhanced mitochondrial oxidative stress in feline hypertrophic cardiomyopathy. Am J Physiol Heart Circ Physiol 308:H1237-47.CatHeart
Skeletal muscle
Gram 2015 J Physiol2015Gram M, Vigelsø A, Yokota T, Helge JW, Dela F, Hey-Mogensen M (2015) Skeletal muscle mitochondrial H2O2 emission increases with immobilization and decreases after aerobic training in young and older men. J Physiol 593:4011-27.HumanSkeletal muscle
Ehinger 2015 J Neurol2015Ehinger JK, Morota S, Hansson MJ, Paul G, Elmér E (2015) Mitochondrial dysfunction in blood cells from amyotrophic lateral sclerosis patients. J Neurol 262:1493-503. https://doi.org/10.1007/s00415-015-7737-0HumanBlood cells
Lymphocyte
Platelet
Sjoevall 2014 PLoS One2014Sjövall F, Morota S, Asander Frostner E, Hansson Magnus J, Elmer E (2014) Cytokine and nitric oxide levels in patients with sepsis - temporal evolvement and relation to platelet mitochondrial respiratory function. PLoS One 9:e97673.HumanBlood cells
Platelet
Gram 2014 Exp Gerontol2014Gram M, Vigelsoe A, Yokota T, Hansen CN, Helge JW, Hey-Mogensen M, Dela F (2014) Two weeks of one-leg immobilization decreases skeletal muscle 2 respiratory capacity equally in young and elderly men. Exp Gerontol 58C:269-78.HumanSkeletal muscle
Takahashi 2014 Exp Gerontol2014Takahashi K, Noda Y, Ohsawa I, Shirasawa T, Takahashi M (2014) Extended lifespan, reduced body size and leg skeletal muscle mass, and decreased mitochondrial function in clk-1 transgenic mice. Exp Gerontol 58:146-53.MouseSkeletal muscle
Liver
Hara 2013 Eur J Anaesthesiol2013Hara N, Karlsson M, Sjövall F, Hansson Magnus J, Elmér E, Uchino H (2013) Early brain mitochondrial dysfunction in a mouse model of sepsis: 7AP4‐9. Eur J Anaesthesiol 30,112-112.MouseNervous system
Sjoevall 2013 Mitochondrion2013Sjövall F, Ehinger JK, Marelsson SE, Morota S, Asander Frostner E, Uchino H, Lundgren J, Arnbjörnsson E, Hansson Magnus J, Fellman V, Elmér E (2013) Mitochondrial respiration in human viable platelets - methodology and influence of gender, age and storage. Mitochondrion 13:7-14.HumanBlood cells
Platelet
Takahashi 2013 Mech Ageing Dev2013Takahashi K, Takahashi M (2013) Exogenous administration of coenzyme Q10 restores mitochondrial 3 oxygen consumption in the aged mouse brain. Mech Ageing Dev 134:580-6.MouseNervous system
Sjoevall 2013 Crit Care2013Sjoevall F, Morota S, Persson J, Hansson Magnus J, Elmer E (2013) Patients with sepsis exhibit increased mitochondrial respiratory capacity in peripheral blood immune cells. Crit Care 17:R152.HumanBlood cells
Usui 2012 Eur J Anaes2012Usui D, Isaksson M, Suzuki M, Sjovall F, Elmer E, Uchino H (2012) The influence of anesthetic agents on mitochondrial function as determined by high‐resolved respirometry of human blood cells: 9AP7‐9. Eur J Anaes 29:150.HumanBlood cells
Platelet
Hansson 2010 J Biol Chem2010Hansson Magnus J, Morota S, Teilum M, Mattiasson G, Uchino H, Elmer E (2010) Increased potassium conductance of brain mitochondria induces resistance to permeability transition by enhancing matrix volume. J Biol Chem 285:741-50.RatNervous system
Sjoevall 2010 Crit Care2010Sjoevall F, Morota S, Hansson Magnus J, Friberg H, Gnaiger E, Elmer E (2010) Temporal increase of platelet mitochondrial respiration is negatively associated with clinical outcome in patients with sepsis. Crit Care 14:R214. https://doi.org/10.1186/cc9337HumanBlood cells
Platelet
Morota 2009 Exp Neurol2009Morota S, Månsson R, Hansson Magnus J, Kasuya K, Shimazu M, Hasegawa E, Yanagi S, Omi A, Uchino H, Elmér E (2009) Evaluation of putative inhibitors of mitochondrial permeability transition for brain disorders-specificity vs. toxicity. Exp Neurol 218:353-62.HumanLiver
Hansson 2008 Free Radic Biol Med2008Hansson Magnus J, Månsson R, Morota S, Uchino H, Kallur T, Sumi T, Ishii N, Shimazu M, Keep MF, Jegorov A, Elmér E (2008) Calcium-induced generation of reactive oxygen species in brain mitochondria is mediated by permeability transition. Free Radic Biol Med 45:284-94.RatNervous system
Liver
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