63734-73-6Relevant articles and documents
Design, synthesis, and structure–activity relationship study of epoxysuccinyl–peptide derivatives as cathepsin B inhibitors
Zhang, Xiaoye,Yang, Xiaohong,Wang, Hongqiang,Li, Song,Guo, Kun,Jiang, Dan,Xiao, Junhai,Liang, Di
, p. 1240 - 1246 (2017)
Cathepsin B is a lysosomal cysteine protease involved in many diseases. The present research demonstrates that derivatives of epoxysuccinyl–peptide are effective and selective cathepsin B inhibitors. We synthesized a series of epoxysuccinyl–peptide deriva
Cysteine protease inhibitors and uses thereof
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, (2016/08/29)
The invention provides for novel cysteine protease inhibitors and compositions comprising novel cysteine protease derivatives. The invention further provides for methods for treatment of neurodegenerative diseases comprising administration novel cysteine
Design, synthesis, and screen of cathepsin K inhibitors
Yu, Ying-Ying,Sun, Wei,Dong, Lei,Liu, Hai-Dong,Jiang, Dan,Xiao, Jun-Hai,Yang, Xiao-Hong,Li, Song
, p. 715 - 718 (2013/07/26)
We synthesized a series of epoxysuccinic acid derivatives and evaluated their in vitro cathepsin K inhibitory activity The screening results show that the potency of compounds 9e, 9d, 9p, 9j and 9k (IC50 ≤ 0.005 μmol/L) were equal to or greater than that of the lead compound 9a. Less hydrophobic compounds showed weaker potency, which can be explained by the hydrophobic nature of the cathepsin K binding pockets.