P-ALKYLOXYBENZHYDROXAMIC ACIDS, EFFECTIVE INHIBITORS OF THE TRYPANOSOME GLYCEROL-3-PHOSPHATE OXIDASE

Energy production in bloodstream forms of African trypanosomes of the genus Trypanosoma involves two pathways unique to the parasite and which can be blocked by a combination of salicylhydroxaminic acid (SHAM) and glycerol. Although this leads to rapid parasite destruction both in vitro and in vivo, the toxicity of SHAM precludes practical use of SHAM/glycerol as a therapeutic regimen. Based on our hypothesis that SHAM operates by interfering with ubiquinone, we attempt to develop this approach by synthesizing and screening a series of hydroxamic acids which more closely resemble ubiquinone: the p-n-alkyloxybenzhydroxamic acids. We also examined a variety of mono-, di- and trisubstituted benzhydroxamic acids together with a selected group of secondary heterocyclic hydroxamic acids. We found an increase in activity of the p-n-alkyloxy compounds with increasing chain length up to 12 carbon atoms with longer chains offering little advantage. The most active compound, p-n-tetradecyloxybenzhydroxamic acid, had an apparent Ki of 0.43 .mu.M indicating a specific activity 70 times greater than SHAM. Although this represents a vast improvement, the low water solubility of these compounds reduces their bioavailability to the point where they are not practical substitutes for SHAM. Consequently, improvement in the SHAM/glycerol approach to chemotherapy appears to lie with improving solubility by altering the lipophilicity of the alkyl side chain.