\u3010\u8ad6\u6587\u3011<\/p>\n
Resveratrol is converted to the ring portion of coenzyme Q10 and raises intracellular coenzyme Q10 levels in HepG2 cell<\/a> Carvedilol suppresses ryanodine receptor-dependent Ca2+ bursts in human neurons bearing PSEN1 variants found in early onset Alzheimer’s disease.<\/a><\/p>\n Hori A, Inaba H, Hato T, Tanaka K, Sato S, Okamoto M<\/strong>, Horiuchi Y, Paran FJ, Tabe Y, Mori S, Rosales C, Akamatsu W, Murayama T, Kurebayashi N, Sakurai T, Ai T, Miida T.PLoS One. 2024 Aug 22;19(8):e0291887.<\/p>\n AI-based Apoptosis Cell Classification Using Phase-contrast Images of K562 Cells.<\/a><\/p>\n Kikuchi Y, Okuhashi Y, Ishihata H, Kashiba M<\/strong>, Sasaki S.Anticancer Res. 2024 Mar;44(3):935-939.<\/p>\n Transferrin, insulin, and progesterone modulate intracellular concentrations of coenzyme Q and cholesterol, products of the mevalonate pathway, in undifferentiated PC12 cells.<\/span><\/a> Method for detecting CoQ10 incorporation in the mitochondrial respiratory chain supercomplex.<\/span><\/a> Riboflavin compounds show NAD(P)H dependent quinone oxidoreductase-like quinone reducing activity.<\/span><\/a> Reduced prosaposin levels in HepG2 cells with long-term coenzyme Q10 deficiency.<\/span><\/a> Cellular level of coenzyme Q increases with neuronal differentiation, playing an important role in neural elongations.<\/span><\/a> Coenzyme Q10 levels increase with embryonic development in medaka.<\/span><\/a> Differentiation of THP-1 monocytes to macrophages increased mitochondrial DNA copy number but did not increase expression of mitochondrial respiratory proteins or mitochondrial transcription factor A.<\/span><\/a> Prosaposin knockdown in Caco-2 cells decreases cellular levels of coenzyme Q10 and ATP, and results in the loss of tight junction barriers.<\/a> Prosaposin regulates coenzyme Q10 levels in HepG2 cells, especially those in mitochondria.<\/a> Dynamic aspects of ascorbic acid metabolism in the circulation: analysis by ascorbate oxidase with a prolonged in vivo half-life.<\/a> Repeated edaravone treatment reduces oxidative cell damage in rat brain induced by middle cerebral artery occlusion.<\/a> Effects of various concentrations of inhaled oxygen on tissue dysoxia, oxidative stress, and survival in a rat hemorrhagic shock model.<\/a> Coenzyme Q10-Binding\/Transfer Protein Saposin B also Binds gamma-Tocopherol.<\/a> Saposin B is a human coenzyme q10-binding\/transfer protein.<\/a> Erythrocytes with T-state-stabilized hemoglobin as a therapeutic tool for postischemic liver dysfunction.<\/a> Cadmium exposure alters metabolomics of sulfur-containing amino acids in rat testes.<\/a> Hydrogen sulfide as an endogenous modulator of biliary bicarbonate excretion in the rat liver.<\/a> Vitamin E prevents increase in oxidative damage to lipids and DNA in liver of ODS rats given total body X-ray irradiation.<\/a> Gene transfection of H25A mutant heme oxygenase-1 protects cells against hydroperoxide-induced cytotoxicity.<\/a> Impaired ascorbic acid metabolism in streptozotocin-induced diabetic rats.<\/a> From O2 to H2S: a landscape view of gas biology.<\/a> Moderate physical exercise induces the oxidation of human blood protein thiols.<\/a> Different origin of hypertriglyceridemia induced by a high-fat and a high-sucrose diet in ventromedial hypothalamic-lesioned obese and normal rats.<\/a> Metabolic cooperation of ascorbic acid and glutathione in normal and vitamin C-deficient ODS rats.<\/a> Oxidative cellular damage associated with transformation of Helicobacter pylori from a bacillary to a coccoid form.<\/a> Impaired reductive regeneration of ascorbic acid in the Goto-Kakizaki diabetic rat.<\/a> Nitric oxide-independent effects of nitric oxide donors on energy metabolism in erythrocytes.<\/a> Role of glutathione in stabilization of nitric oxide during hypertension developed by inhibition of nitric oxide synthase in the rat.<\/a> Rapid increase in circulating leptin in ventromedial hypothalamus-lesioned rats: role of hyperinsulinemia and implication for upregulation mechanism.<\/a> Cross-talk of NO, superoxide and molecular oxygen, a majesty of aerobic life.<\/a> Fates and vascular action of S-nitrosoglutathione and related compounds in the circulation.<\/a> [Chemistry and biology of peroxynitrite].<\/a> Helicobacter pylori generates superoxide radicals and modulates nitric oxide metabolism.<\/a> Role of glutathione in nitric oxide-dependent regulation of energy metabolism in rat hepatoma cells.<\/a> Increased uncoupling protein-2 and -3 gene expressions in skeletal muscle of STZ-induced diabetic rats.<\/a> Oxygen-dependent regulation of the respiration and growth of Escherichia coli by nitric oxide.<\/a> Effect of\u00a0nitric oxide<\/strong>\u00a0on the ligand-binding activity of albumin.<\/a> Role of ascorbic acid in the metabolism of S-nitroso-glutathione.<\/a> Ascorbic acid and reducing agents regulate the fates and functions of S-nitrosothiols.<\/a> Action of beta-carotene as an antioxidant against lipid peroxidation.<\/a> Alpha-tocopherol mediated peroxidation in the copper (II) and met myoglobin induced oxidation of human low density lipoprotein: the influence of lipid hydroperoxides.<\/a>
\nRena Okuizumi, Riku Harata, Mizuho Okamoto<\/strong>, Seiji Sato, Kyosuke Sugawara, Yukina Aida, Akari Nakamura, Akio Fujisawa, Yorihiro Yamamoto, Misato Kashiba<\/strong>
\nJournal of Clinical Biochemistry and Nutrition 2024<\/p>\n
\nNakamura A, Aida Y, Okamoto M<\/strong>, Maeda A, Nagao A, Kitatani K, Takekoshi S, Fujisawa A, Yamamoto Y, Kashiba M<\/strong>.\u00a0 J Clin Biochem Nutr. 2023 May;72(3):199-206.<\/p>\n
\nSugawara K, Sato S, Tanaka Y, Nakamura A, Fujisawa A, Yamamoto Y, Kashiba M<\/strong>.J Clin Biochem Nutr. 2023 May;72(3):207-214.<\/p>\n
\nNagase M, Sakamoto M, Amekura S, Akiba S, Kashiba M<\/strong>, Yokoyama K, Yamamoto Y, Fujisawa A.J Clin Biochem Nutr. 2023 Jul;73(1):52-60.<\/p>\n
\nHikaru Takeuchi, Kyosuke Sugawara, Mizuho Okamoto<\/strong>, Akari Nakamura, Tsukika Tanaka, Yui Fujita, Kaiho Ishiguro, Hana Yamazaki, Maiko Okada, Akane Mikami, Akio Fujisawa, Yorihiro Yamamoto, Misato Kashiba<\/strong>.
\nJ Clin Biochem Nutr. 2022 Sep;71(2):97-102.<\/p>\n
\nAkari Nakamura, Mizuho Okamoto<\/strong>, Ayaka Maeda, Huiyu Jiang, Kyosuke Sugawara, Kanae Kitatani, Susumu Takekoshi, Akio Fujisawa, Yorihiro Yamamoto, Misato Kashiba<\/strong>.
\nJ. Clin. Biochem. Nutr. 2022 Sep;71(2):89-96.<\/p>\n
\nMizuho Okamoto<\/strong>, Akari Nakamura, Ayaka Maeda, Yuka Kameda, Kyosuke Sugawara, Marisa Takekawa, Momoko Ogino, Eriko Makino, Nagisa Ishii, Akio Fujisawa, Yorihiro Yamamoto, Misato Kashiba<\/strong>.
\nJ. Clin. Biochem. Nutr. Vol. 70 (2022), No. 3 pp. 231-239<\/p>\n
\nMizuho Okamoto<\/strong>, Masanori Shimogishi, Akari Nakamura, Yusuke Suga, Kyosuke Sugawara, Michio Sato, Ryotaro Nishi, Akio Fujisawa, Yorihiro Yamamoto, Misato Kashiba<\/strong>.
\nArch Biochem Biophys. 2021 Oct 15;710:108988.<\/p>\n
\nKashiba M<\/strong>, Terashima M, Sagawa T, Yoshimura S, Yamamoto Y.
\nJ Clin Biochem Nutr. 2017 Mar;60(2):81-85. doi: 10.3164\/jcbn.16-32. Epub 2016 Dec 6.<\/p>\n
\nKashiba M<\/strong>, Oizumi M, Suzuki M, Sawamura Y, Nagashima K, Yoshimura S, Yamamoto Y.
\nJ Clin Biochem Nutr. 2014 Sep;55(2):85-9. doi: 10.3164\/jcbn.13-106. Epub 2014 Jul 4.<\/p>\n
\nKasahara E,\u00a0Kashiba M<\/strong>, Jikumaru M, Kuratsune D, Orita K, Yamate Y, Hara K, Sekiyama A, Sato EF, Inoue M.
\nBiochem J. 2009 Jun 26;421(2):293-9. doi: 10.1042\/BJ20090286.<\/p>\n
\nYamamoto Y, Yanagisawa M, Tak NW, Watanabe K, Takahashi C, Fujisawa A, Kashiba M<\/strong>, Tanaka M.
\nRedox Rep. 2009;14(6):251-8. doi: 10.1179\/135100009X12525712409779.<\/p>\n
\nTakasu A, Iwamoto S, Ando S, Minagawa Y,\u00a0Kashiba M<\/strong>, Yamamoto Y, Sakamoto T.
\nResuscitation. 2009 Jul;80(7):826-31. doi: 10.1016\/j.resuscitation.2009.03.018. Epub 2009 May 1.<\/p>\n
\nJin G, Horinouchi R, Sagawa T, Orimo N, Kubo H, Yoshimura S, Fujisawa A,\u00a0Kashiba M<\/strong>, Yamamoto Y.
\nJ Clin Biochem Nutr. 2008 Sep;43(2):95-100. doi: 10.3164\/jcbn.2008052.<\/p>\n
\nJin G, Kubo H,\u00a0Kashiba M<\/strong>, Horinouchi R, Hasegawa M, Suzuki M, Sagawa T, Oizumi M, Fujisawa A, Tsukamoto H, Yoshimura S, Yamamoto Y.
\nJ Clin Biochem Nutr. 2008 Mar;42(2):167-74. doi: 10.3164\/jcbn.2008024.<\/p>\n
\nSuganuma K, Tsukada K,\u00a0Kashiba M<\/strong>, Tsuneshige A, Furukawa T, Kubota T, Goda N, Kitajima M, Yonetani T, Suematsu M.
\nAntioxid Redox Signal. 2006 Sep-Oct;8(9-10):1847-55.<\/p>\n
\nSugiura Y,\u00a0Kashiba M<\/strong>, Maruyama K, Hoshikawa K, Sasaki R, Saito K, Kimura H, Goda N, Suematsu M.
\nAntioxid Redox Signal. 2005 May-Jun;7(5-6):781-7.<\/p>\n
\nFujii K, Sakuragawa T,\u00a0Kashiba M<\/strong>, Sugiura Y, Kondo M, Maruyama K, Goda N, Nimura Y, Suematsu M.
\nAntioxid Redox Signal. 2005 May-Jun;7(5-6):788-94.<\/p>\n
\nYoshimura M,\u00a0Kashiba M<\/strong>, Oka J, Sugisawa A, Umegaki K.
\nFree Radic Res. 2002 Jan;36(1):107-12.<\/p>\n
\nHori R,\u00a0Kashiba M<\/strong>, Toma T, Yachie A, Goda N, Makino N, Soejima A, Nagasawa T, Nakabayashi K, Suematsu M.
\nJ Biol Chem. 2002 Mar 22;277(12):10712-8. Epub 2002 Jan 10.<\/p>\n
\nKashiba M<\/strong>, Oka J, Ichikawa R, Kasahara E, Inayama T, Kageyama A, Kageyama H, Osaka T, Umegaki K, Matsumoto A, Ishikawa T, Nishikimi M, Inoue M, Inoue S.
\nFree Radic Biol Med. 2002 Nov 1;33(9):1221-30.<\/p>\n
\nKashiba M<\/strong>, Kajimura M, Goda N, Suematsu M.
\nKeio J Med. 2002 Mar;51(1):1-10. Review.<\/p>\n
\nInayama T, Oka J, Kashiba M<\/strong>, Saito M, Higuchi M, Umegaki K, Yamamoto Y, Matsuda M.
\nLife Sci. 2002 Mar 15;70(17):2039-46.<\/p>\n
\nXue CY, Kageyama H,\u00a0Kashiba M<\/strong>, Kobayashi A, Osaka T, Namba Y, Kimura S, Inoue S.
\nInt J Obes Relat Metab Disord. 2001 Mar;25(3):434-8.<\/p>\n
\nWang Y,\u00a0Kashiba M<\/strong>, Kasahara E, Tsuchiya M, Sato EF, Utsumi K, Inoue M.
\nPhysiol Chem Phys Med NMR. 2001;33(1):29-39.<\/p>\n
\nNakamura A, Park A, Nagata K, Sato EF,\u00a0Kashiba M<\/strong>, Tamura T, Inoue M.
\nFree Radic Biol Med. 2000 Jun 1;28(11):1611-8.<\/p>\n
\nKashiba M<\/strong>, Oka J, Ichikawa R, Kageyama A, Inayama T, Kageyama H, Ishikawa T, Nishikimi M, Inoue M, Inoue S.
\nBiochem J. 2000 Oct 15;351 Pt 2:313-8.<\/p>\n
\nKashiba M<\/strong>, Inoue M.
\nBiochem Pharmacol. 2000 Mar 1;59(5):557-61.<\/p>\n
\nPech\u00e1nov\u00e1 O,\u00a0Kashiba M<\/strong>, Inoue M.
\nJpn J Pharmacol. 1999 Oct;81(2):223-9.<\/p>\n
\nSuga A, Hirano T, Kageyama H,\u00a0Kashiba M<\/strong>, Oka J, Osaka T, Namba Y, Tsuji M, Miura M, Adachi M, Inoue S.
\nDiabetes. 1999 Oct;48(10):2034-8.<\/p>\n
\nInoue M, Nishikawa M, Sato EF, Ah-Mee P,\u00a0Kashiba M<\/strong>, Takehara Y, Utsumi K.
\nFree Radic Res. 1999 Oct;31(4):251-60. Review.<\/p>\n
\nKashiba M<\/strong>, Kasahara E, Chien KC, Inoue M.
\nArch Biochem Biophys. 1999 Mar 15;363(2):213-8.<\/p>\n
\nKonaka R,\u00a0Kashiba M<\/strong>, Inoue M.
\nSeikagaku. 1998 Feb;70(2):84-95. Review. Japanese. No abstract available.<\/p>\n
\nNagata K, Yu H, Nishikawa M,\u00a0Kashiba M<\/strong>, Nakamura A, Sato EF, Tamura T, Inoue M.
\nJ Biol Chem. 1998 Jun 5;273(23):14071-3.<\/p>\n
\nNishikawa M, Sato EF,\u00a0Kashiba M<\/strong>, Kuroki T, Utsumi K, Inoue M.
\nHepatology. 1998 Feb;27(2):422-6.<\/p>\n
\nKageyama H, Suga A,\u00a0Kashiba M<\/strong>, Oka J, Osaka T, Kashiwa T, Hirano T, Nemoto K, Namba Y, Ricquier D, Giacobino JP, Inoue S.
\nFEBS Lett. 1998 Dec 4;440(3):450-3.<\/p>\n
\nYu H, Sato EF, Nagata K, Nishikawa M,\u00a0Kashiba M<\/strong>, Arakawa T, Kobayashi K, Tamura T, Inoue M.
\nFEBS Lett. 1997 Jun 9;409(2):161-5.<\/p>\n
\nKashiba-Iwatsuki M<\/strong>, Miyamoto M,\u00a0Inoue M.
\nArch Biochem Biophys. 1997 Sep 15;345(2):237-42.<\/p>\n
\nKashiba-Iwatsuki M<\/strong>, Yamaguchi M,\u00a0Inoue M.
\nFEBS Lett. 1996 Jul 1;389(2):149-52.<\/p>\n
\nKashiba-Iwatsuki M<\/strong>, Kitoh K, Kasahara E, Yu H, Nisikawa M, Matsuo M,\u00a0Inoue M.
\nJ Biochem. 1997 Dec;122(6):1208-14.<\/p>\n
\nTsuchihashi H, Kigoshi M,\u00a0Iwatsuki M<\/strong>,\u00a0Niki E.
\nArch Biochem Biophys. 1995 Oct 20;323(1):137-47.<\/p>\n
\nIwatsuki M<\/strong>,\u00a0Niki E, Stone D, Darley-Usmar VM.
\nFEBS Lett. 1995 Mar 6;360(3):271-6.<\/p>\n