mTORC1 Overactivation Leads to Abnormalities in Skeletal Development.
Iwahashi S., Tokumura K., Park G., Ochiai S., Okayama Y., Fusawa H., Ohta K., Fukasawa K., Iezaki T., and Hinoi E#.
Biol. Pharm. Bull. 43(12):1983-1986. 2020.
mTOR regulates skeletogenesis through canonical and noncanonical pathways.
Tokumura K., Iwahashi S., Park G., Ochiai S., Okayama Y., Fusawa H., Fukasawa K., Iezaki T., and Hinoi E#.
Biochem. Biophys. Res. Commun. 533(1):30-35. 2020.
How does spaceflight affect the acquired immune system?
Akiyama T., Horie K., Hinoi E., Hiraiwa M., Kato A., Maekawa Y., Takahashi A., and Furukawa S.
NPJ Microgravity 6(1):14. 2020.
Generation of novel genetically modified rats to reveal the molecular mechanisms of vitamin D actions.
Nishikawa M., Yasuda K., Takamatsu M., Abe K., Okamoto K., Horibe K., Mano H., Nakagawa K., Tsugawa N., Hirota Y., Horie T.,Hinoi E., Okano T., Ikushiro S., and Sakaki T.
Sci. Rep.10(1):5677. 2020.
Acute restraint stress augments the rewarding memory of cocaine through activation of α1 adrenoceptors in the medial prefrontal cortex of mice.
Wada S., Yanagida J., Sasase H., Zhang T., Li X., Kamii H., Domoto M., Deyama S., Hinoi E., Yamanaka A., Nishitani N., Nagayasu K., Kaneko S., Minami M., and Kaneda K.
Neuropharmacology 166:107968. 2020.
Glutamatergic neurons in the medial prefrontal cortex mediate the formation and retrieval of cocaine-associated memories in mice.
Zhang T., Yanagida J., Kamii H., Wada S., Domoto M., Sasase H., Deyama S., Takarada T., Hinoi E., Sakimura K., Yamanaka A., Maejima T., Mieda M., Sakurai T., Nishitani N., Nagayasu K., Kaneko S., Minami M., and Kaneda K.
Addict. Biol. 25(1):e12723. 2020.
DOI: 10.1111/adb.12723