Research theme for competitive and other funds (9):
2019 - 2022 A study of the relationships between glucocorticoids action in the skeletal muscle and the regulation of the body composition and energy metabolism
2016 - 2019 Analysis of functional crosstalk between anabolic and catabolic pathway in skeletal muscle for the development of novel therapeutic strategies against sarcopenia
2012 - 2015 Study on homeostatic regulation by glucocorticoid
2013 - 2015 Development of the molecular basis of novel therapeutic strategy for connective tissue disease-associated pulmonary hypertension
2010 - 2011 Development of the molecular basis of novel therapeutic strategy for heart failure by the control of cardiac remodeling
2009 - 2011 Exploration of novel glucocorticoid action via genome-wide approach
2008 - 2009 Analysis of glucocorticoid hormone action in cardiac myocytes
2006 - 2007 Clarification of molecular mechanism for regulation of ghucocorticoid receptor function
2005 - 2006 新規グルココルチコイド療法創成の分子基盤の構築
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Papers (11):
Noritada Yoshikawa, Aya Oda, Hiroki Yamazaki, Motohisa Yamamoto, Akiko Kuribara-Souta, Masaaki Uehara, Hirotoshi Tanaka. The Influence of Glucocorticoid Receptor on Sex Differences of Gene Expression Profile in Skeletal Muscle. Endocrine research. 2021. 46. 3. 99-113
Akira Arakawa, Masaki Iizuka, Shunichi Matsuda, Erika Matsubara, Hiroki Yamazaki, Noritada Yoshikawa, Hirotoshi Tanaka, Toshihiro Yoshizawa. Aseptic Meningitis-retention Syndrome Associated with Tocilizumab in a Patient with Idiopathic Multicentric Castleman Disease. Internal medicine (Tokyo, Japan). 2021. 60. 24. 3995-3998
Noritada Yoshikawa, Motohisa Yamamoto, Akiko Kuribara-Souta, Masaaki Uehara, Hiroki Yamazaki, Hirotoshi Tanaka. Amino Acid Profile in 18 Patients with Rheumatic Diseases Treated with Glucocorticoids and BCAAs. Journal of nutritional science and vitaminology. 2021. 67. 3. 180-188
Hiroki Yamazaki, Mayu Nishimura, Masaaki Uehara, Akiko Kuribara-Souta, Motohisa Yamamoto, Noritada Yoshikawa, Ken-Ichirou Morohashi, Hirotoshi Tanaka. Eicosapentaenoic acid changes muscle transcriptome and intervenes in aging-related fiber type transition in male mice. American journal of physiology. Endocrinology and metabolism. 2020. 320. 2. E346-E358
