N alpha-dansyl-L-arginine 4-phenylpiperidine amide. A potent and selective inhibitor of horse serum cholinesterase.

Abstract

The relationship between chemical modifications of arginine derivatives and inhibitory activity to horse serum cholinesterase (BuChE) was investigated. It provided a new insight into the topography of the active site of BuChE. 1) BuChE has the hydrophobic binding pocket, the depth of which corresponds to the length of ethylpiperidine. 2) In the opposite side to the hydrophobic binding pocket, BuChE has a certain entity which repulses carboxyl group at the 2-position of piperidine of L-arginine piperidine amide. 3) The P site of BuChE can allow 4-propyl and 4-phenyl group attached to piperidine. Comparison of the results with those of thrombin and trypsin clearly revealed similarities and dissimilarities among BuChE, trypsin, and thrombin in the active site topography, and hence, we introduce a new selective inhibitor for BuChE, N alpha-dansyl-L-arginine 4-phenylpiperidine amide. It inhibits BuChE strongly (Ki = 0.016 microM), whereas it inhibits trypsin, thrombin, plasmin, and glandular kallikrein only weakly and shows actually no inhibition on acetylcholinesterase from the human erythrocyte. In addition, the new inhibitor becomes highly fluorescent when bound with BuChE, indicating that the compound is an ideal probe of the interactions of BuChE as well as a titrant of it.