369593-24-8Relevant articles and documents
Azepanone-based inhibitors of human cathepsin L
Marquis, Robert W.,James, Ian,Zeng, Jin,Trout, Robert E. Lee,Thompson, Scott,Rahman, Attiq,Yamashita, Dennis S.,Xie, Ren,Ru, Yu,Gress, Catherine J.,Blake, Simon,Lark, Michael A.,Hwang, Shing-Mei,Tomaszek, Thaddeus,Offen, Priscilla,Head, Martha S.,Cummings, Maxwell D.,Veber, Daniel F.
, p. 6870 - 6878 (2007/10/03)
The extension of a previously reported cathepsin K azepanone-based inhibitor template to the design and synthesis of potent and selective inhibitors of the homologous cysteine protease cathepsin L is detailed. Structure-activity studies examining the effect of inhibitor selectivity as a function of the P3 and P2 binding elements of the potent cathepsin K inhibitor 1 revealed that incorporation of either a P3 quinoline-8-carboxamide or a naphthylene-1-carboxamide led to increased selectivity for cathepsin L over cathepsin K. Substitution of the P2 leucine of 1 with either a phenylalanine or a β-naphthylalanine also resulted in an increased selectivity for cathepsin L over cathepsin K. Molecular modeling studies with the inhibitors docked within the active sites of both cathepsins L and K have rationalized the observed selectivities. Optimization of cathepsin L binding by the combination of the P3 naphthylene-1-carboxamide with the P2 β-naphthylalanine provided 15, which is a potent, selective, and competitive inhibitor of human cathepsin L with a Ki = 0.43 nM.