Research field (6):
Cognitive neuroscience
, Animals: biochemistry, physiology, behavioral science
, Pharmacology
, Pharmaceuticals - health and biochemistry
, Pharmaceuticals - chemistry and drug development
, Molecular biochemistry
Research theme for competitive and other funds (11):
2019 - 2022 Creation of novel Catalytide with In Silico
2015 - 2018 Physical and chemical analyses of aggregation mechanism by using Prion fragment peptides
2012 - 2015 Analysis of prion protein aggregation mechanism by using that fragment peptides
癌の転移予防薬の開発
マトリックスメタロプロテアーゼ阻害剤の検索
癌の転移に関する化学的研究:マトリックスメタロプロティンナーゼの構造解析
内因性ジギタリス様物質の研究
Development of anti cancer drug.
Screenig of Inhibiter of matrix metalloproteinase
Conformational Study on matri metalloproteinase
Investigation of endogenous digitalis-like compound.
Show all
Papers (38):
Rina Nakamura, Motomi Konishi, Youichirou Higashi, Motoaki Saito, Toshifumi Akizawa. Five-mer peptides prevent short-term spatial memory deficits in Aβ25-35-induced Alzheimer's model mouse by suppressing Aβ25-35 aggregation and resolving its aggregate form. Alzheimer's research & therapy. 2023. 15. 1. 83-83
Rina Nakamura, Toshifumi Akizawa, Motomi Konishi. Structure-Activity Relationship of 5-mer Catalytides, GSGYR and RYGSG. Biomolecules. 2022. 12. 12. 1766-1766
Aratake Takaaki, Higashi Youichirou, Shimizu Takahiro, Shimizu Shogo, Zou Suo, Nakamura Rina, Akizawa Toshifumi, Saito Motoaki. Ischemia-induced Zn2+ accumulation is modulated by EAAT3 diurnal fluctuation in the hippocampus. Proceedings for Annual Meeting of The Japanese Pharmacological Society. 2022. 95. 3-P-192
Yusuke Hatakawa, Akiko Tanaka, Tomoyuki Furubayashi, Rina Nakamura, Motomi Konishi, Toshifumi Akizawa, Toshiyasu Sakane. Direct Delivery of ANA-TA9, a Peptide Capable of Aβ Hydrolysis, to the Brain by Intranasal Administration. Pharmaceutics. 2021. 13. 10. 1673-1673
Higashi Youichirou, Aratake Takaaki, Hamada Tomoya, Shimizu Takahiro, Shimizu Shogo, Zou Suo, Yamamoto Masaki, Nakamura Rina, Akizawa Toshifumi, Saito Motoaki. Zinc-aggravated M1 microglia suppress astrocytic engulfing activity via P2X7 receptors. Proceedings for Annual Meeting of The Japanese Pharmacological Society. 2021. 94. 1-P1-17