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Pepstatin transition-state analog

Thus, although pepstatin still may be considered a transition-state analog inhibitor owing to the tetrahedral geometry at C-3 of statine, pepstatin is also a collected-... [Pg.214]

Pepstatin A aspartic proteases competitive, transition state analog class-specific sub-nanomolar (18)... [Pg.1590]

Figure 7 Various transition-state protease inhibitors. Bortezomib is an approved drug for the treatment of multiple myeloma. It is a boronic acid analog that inhibits the proteosome, a threonine protease. The boronic acid moiety can adopt a tetrahedral conformation in the active site. Pepstatin is a peptidyl aspartic acid inhibitor. The reactive statine group binds to the catalytic machinery, and the chiral hydroxyl group of the statine mimics the tetrahedral geometry of the transition state. Idinavir is an approved HIV 1 Protease inhibitor that binds to the active site via a hydroxyethylene transition state isostere. Aldehydes are also transition state analogs, which are susceptible to nucleophilic attack. In cysteine, serine and threonine proteases, this results in a covalent, reversible inhibition mechanism. Figure 7 Various transition-state protease inhibitors. Bortezomib is an approved drug for the treatment of multiple myeloma. It is a boronic acid analog that inhibits the proteosome, a threonine protease. The boronic acid moiety can adopt a tetrahedral conformation in the active site. Pepstatin is a peptidyl aspartic acid inhibitor. The reactive statine group binds to the catalytic machinery, and the chiral hydroxyl group of the statine mimics the tetrahedral geometry of the transition state. Idinavir is an approved HIV 1 Protease inhibitor that binds to the active site via a hydroxyethylene transition state isostere. Aldehydes are also transition state analogs, which are susceptible to nucleophilic attack. In cysteine, serine and threonine proteases, this results in a covalent, reversible inhibition mechanism.
To study its mode of inhibition, we prepared several derivatives and measured their kinetics of inhibition. Both N-acetyl-statine and N-acetyl-alanyl-statine are competitive inhibitors for pepsin with values of 1.2 X lO M and 5.65 x 10 M, respectively. The value for N-acetyl-valyl-statine is 4.8 x 10 M. These statyl derivatives, therefore, are very strong inhibitors. The value for N-acetyl-statine is 600-fold smaller than that of its structural analog N-acetyl-leucine. The derivative which contains two statyl residues in a tetrapeptide exhibits inhibitory properties which approach those of pepstatin itself. Other acid proteases, human pepsin, human gastricsin, renin, cathepsin D, the acid protease from R. chinensis and bovine chymosin, also are inhibited by pepstatin and its derivatives. We suggest that the statyl residue is responsible for the unusual inhibitory capability of pepstatin and that statine is an analog of the previously proposed transition state for catalysis by pepsin and other acid proteases. [Pg.209]

See other pages where Pepstatin transition-state analog is mentioned: [Pg.149]    [Pg.150]    [Pg.214]    [Pg.214]    [Pg.218]    [Pg.91]    [Pg.1593]    [Pg.149]    [Pg.150]    [Pg.41]    [Pg.458]    [Pg.99]    [Pg.135]    [Pg.229]    [Pg.142]   


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Pepstatin

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