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Trojan horse inhibitors

The mechanism-based irreversible inhibitors also have been termed as suicide substrates, inhibitors, Trojan horse inhibitors, or latent alkylating... [Pg.184]

The efficiency of inactivation by covalent bond formation vs release of the reactive species into solution has been described by its partition ratio. The most efficient inactivators have catalytic partition ratios of 0, in which case each inhibitor molecule leads to inactivation of the enzyme. To this date, many of these inhibitors have been designed, and alternative names like suicide substrate, Trojan Horse inactivator, enzyme induced inactivator, inhibitor, and latent inactivator have been used for this class of inhibitors. A number of comprehensive reviews are available (26—32). [Pg.322]

In effect, antimalarial trojan horse drugs of this type should deliver a double blow to the parasite by exploiting the presence of high concentrations of ferrous ion present in the parasite food vacuole as the trigger for protease inhibitor release. In model studies with prototype 81d, in the presence of ferrous ions, these systems readily degrade to produce the desired chalcone (82b, R = H, in 45% yield from 81d), in tandem with secondary carbon-centred radical 82a (Scheme 29). Furthermore, analogues 81d-f have superior in vitro antimalarial activity to that of arteflene (<25 nM in vitro versus Plasmodium falciparum, arteflene >50 nM). The other product obtained is the diol (82c), a product of two-electron reduction of the endoperoxide bridge. [Pg.1323]

Suicide Substrates. Much like affinity labels, suicide inhibitors first form a reversible complex with the target enzyme due to the structural similarity between inhibitor and substrate. In a subsequent time dependent step, an irreversible complex (usually covalent) is formed with an appropriately positioned amino acid side chain. Unlike the affinity label, suicide substrates (65) are not inherently reactive and must undergo activation by the target enzyme before the irreversible complex is formed. Therefore, these inhibitors are generally more selective than affinity labels. Since the enzyine catalyzes its own inactivation, these inhibitors are also known as kcat inhibitors (66), enzyme-activated, irreversible inhibitors (54) and Trojan horse reagents (6. ... [Pg.416]


See other pages where Trojan horse inhibitors is mentioned: [Pg.650]    [Pg.92]    [Pg.215]    [Pg.650]    [Pg.92]    [Pg.215]    [Pg.478]    [Pg.246]    [Pg.756]    [Pg.741]    [Pg.11]   


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