Eight nitropyridinesulfonamides and pyridinesulfonamide N-oxides as their bioisosteres were prepared and evaluated for anticoccidial activity. Of these compounds, 2-, 4- and 5-nitropyridine-3-sulfonamides and pyridine-2- and -3-sulfonamide N-oxides were found to be active against Eimeria tenella. Thus, the relative positions, ortho or meta, of the substituents in nitropyridine-3-sulfonamides and pyridinesulfonamide N-oxides are important for anticoccidial activity. N-Substituted analogues of 5-nitropyridine-3-sulfonamide were also prepared and optimal anticoccidial activity was attained with the sulfonamide and its lower N-alkyl derivatives. The mode of action of 5-nitropyridine-3-sulfonamide was examined and found to be active in the sporozoite and the first schizogony stages.
A number of methyl-2- and 3-nitropyridinecarboxamides have been synthesized. It has been established that the presence of at least one hydrogen atom, adjacent to the NO2 function, is important for anticoccidial activity and introduction of a methyl group to the adjacent position of the CONH2 function sometimes confers enhanced activity. Among the compounds herein, 5- and 6-methyl-2-nitropyridine-4-carboxamides possess optimal anticoccidial activity, being as potent as the parent compound.
Convenient methods for the syntheses of 4-deoxypyridoxol (2, R = CHs) and -methylpyridoxol (1) from pyridoxine were developed. as-0-Monoacyl-4-deoxypyridoxols were, in general, obtained by selective hydrolysis of 3,a5-0diacyl-4-deoxypyridoxols. 4-Deoxypyridoxol and its esters were found to exhibit anticoccidial activity against Eimeria acervulina.
Syntheses and biological activities of dipeptide renin inhibitors that contain statine analogues are described. The key steps of the synthetic approach to dipeptide renin inhibitors are the asymmetric synthesis of 2(R)-substituted-3-aminocarbonylpropionic acids and the diastereoselective syntheses of (3S,4S)-statine analogues. These inhibitors (2,14-40) inhibited human renin in the 3-140 nM range. Inhibitor ES 6864 (2) was found to be a highly potent inhibitor of human renin (IC50: 4.6 x 10(-9) M) and showed high enzyme specificity. Oral administration of ES 6864 at 3 mg/kg to conscious, sodium-depleted marmosets inhibited plasma renin activity (PRA) more than 80% after 1 h.
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