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作者 |
Goetz, Marion G.;Ellis James, Karen;Hansell, Elizabeth;Dvorak, Jan;Seshaadri, Amritha;Sojka, Daniel;Kopacek, Petr;McKerrow, James H.;Caffrey, Conor R.;Powers, James C.; |
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[摘要]:Aza-peptide Michael acceptors with the general structure of Cbz-Ala-Ala-NHN(CH2CONH2)COCH=CHCONR1R2 [NR1R2 = NEt2, NBu2, piperidine, NHPh, NHCH2Ph, NHCH2CH2Ph, N(Me)Ph, N(Me)CH2Ph, N(Me)CH2-1-naphthyl, N(Me)CH2CH2Ph, N(CH2Ph)2, N(Ph)CH2Ph, N(CH2Ph)CH2C6H4OMe-4, etc.] are a new class of (legumains). Structure-activity relationships (SARs) were characterized for a set of 31 aza-peptide Michael acceptors with AEs derived from three medically important parasites: the protist Trichomonas vaginalis, the hard tick Ixodes ricinus, and the flatworm Schistosoma mansoni. Despite arising from phylogenetically disparate organisms, all three AEs shared a remarkably similar SAR with lowest IC50 values extending into the picomolar range. The results suggest an evolutionary constraint on the topog. of the prime side of the active site. SAR also revealed that esters in the P1' position are more potent than disubstituted amides and that monosubstituted amides and alkyl derivs. show little or no inhibition. The preferred P1' residues have arom. substituents. Aza-asparaginyl Michael acceptors react with thiols, which provides insight into the mechanism of their inhibition of asparaginyl endopeptidases. |
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