Shuichi Sato
- Faculty
- Interim Director
- Associate Professor
- 337-482-6615
- s.sato@louisiana.edu
- Bourgeois Hall, Room 129-B
Biography
Dr. Sato is currently an associate professor and interim director in the School of Kinesiology Science at the Å·ÃÀÈý¼¶Æ¬. Dr. Sato teaches undergraduate and graduate students in Exercise Science and Athletic Training and researches skeletal muscle atrophy/hypertrophy due to external stimuli such as exercise, chronic disease, hormonal change, and injury.
Education
Ph.D., Applied Physiology, 2012
Å·ÃÀÈý¼¶Æ¬ of South Carolina
MS, Exercise Science, 2005
Å·ÃÀÈý¼¶Æ¬ of Southern Mississippi
BS, Athletic Training, 2003
Å·ÃÀÈý¼¶Æ¬ of Southern Mississippi
MS, Chemistry, 1996
Sophia Å·ÃÀÈý¼¶Æ¬
BS, Chemistry, 1994
Sophia Å·ÃÀÈý¼¶Æ¬
Student Research/Collaboration
Dr. Sato's research interests lie in skeletal muscle biology to examine its plasticity due to aging, cancer cachexia, and exercise. He attempts to elucidate the mechanisms by molecular/cell biology techniques in vitro and in vivo systems. He has a mouse colony at NIRC while maintaining the lab space at Bourgeois Hall.
Opportunities for Student Research/Collaboration
Dr. Sato always looks for graduate/undergraduate students who are interested in skeletal muscle biology research. A student seeking a Master's degree is expected to enroll in Masters in Kinesiology. If you are interested in Ph.D., admission to Doctorate in Biology Program is required while working in my lab.
Publications
- Ogura Y, Sato S, Gallot YS, and Arthur ST. Editorial: Emerging Mechanisms for Skeletal Muscle Mass Regulation. Front. Cell Dev. Biol. 9:764095. doi: 10.3389/fcell.2021.764095
- Kurosaka M, Ogura Y, Sato S, Fujiya H, Kohda K, and Funabashi T. STAT6 is an inhibitory factor for differentiation and fusion of mouse myoblasts. Skelet Muscle. 2021 May 29;11(1):14. doi: 10.1186/s13395-021-00271-8.
- Ogura Y, Sato S, Kurosaka M, Kotani T, Fujiya H, and Funabashi, T. Age-related decrease in muscle satellite cells is accompanied with diminished expression of early growth response 3 in mice. Mol Biol Rep. 2020. Feb;47(2):977-986. doi: 10.1007/s11033-019-05189-5.
- Sato S, Gao, S. Puppa, MJ, Fayd, R, Kostek, MC, Wilson, LB, and Carson JA. Effects of high-frequency electric stimulation on skeletal muscle maintenance in female cachectic mice. Med Sci Sports Exerc. 2019. Sep;51(9):1828-1837. doi:10.1249/MSS.0000000000001991.
- Hindi SM, Sato S, Xiong G, Bohnert KR, Gibb AA, Gallot YS, McMillan JD, Hill BG, Uchida S, and Kumar A. TAK1 is a key regulator of skeletal muscle mass and mitochondrial function. JCI Insight. 2018 Feb 8;3(3). pii: 98441. doi: 10.1172/jci.insight.98441.
Awards & Recognition
- Joan D. and Alexander S. Haig/BORSF Endowed Professorship in Education, 2018-Current
- Travel Grants for Emerging Faculty (TGEF), Louisiana Experimental Program to Stimulate Competitive Research (EPSCoR), 2017
- Faculty Member of the Year (2016-2017), School of Kinesiology, the Å·ÃÀÈý¼¶Æ¬, 2017
- Award for Excellence in Academic Advising, the Å·ÃÀÈý¼¶Æ¬, 2017
- Rising Star Award, Center for Research, Innovation, and Economic Development at the Å·ÃÀÈý¼¶Æ¬, 2016