Helicobacter pylori NCTC 11637, which is nonviable at pH 3.0, became viable after addition of 10 mM urea owing to ammonia production by urease. In a buffer supplemented with urea, ecabet sodium decreased both the production of ammonia and the number of viable cells of H. pylori NCTC 11637 and changed the bacteria from the bacilliform to the horseshoe or doughnut shape in a concentration-dependent manner. In particular, ecabet sodium (2 and 4 mg/ml) decreased the number of viable cells below the control level. Benzohydroxamic acid, a urease inhibitor, also caused a decrease in ammonia production accompanied by a decrease in the number of viable cells and changed the morphological form at pH 3.0, but the number of viable cells was not lowered below the control level. In buffers at various pHs without urea, ecabet sodium showed a concentrationdependent bactericidal effect on H. pylori at pHs 4.0 and 5.0 but not at pHs 6.0 and 7.0 while benzohydroxamic acid caused only a slight decrease in the number of viable cells at pH 4.0. These results suggest that ecabet sodium has strong bactericidal activity in addition to its urease-inhibiting activity under acidic conditions.
To investigate the mechanism of the anti-urease action of ecabet sodium (ecabet) observed in Helicobacter pylori in vitro, the effects of ecabet on purified urease from jack bean were studied in comparison with the effects of the specific urease inhibitor benzohydroxamic acid (BHA). After incubation of the enzyme with the test drug for a period of time, urease activity was measured. Ecabet depressed the activity below pH 5, and the lower the pH, the greater the degree of depression. The degree of depression by ecabet increased gradually during incubation and reached a plateau in 20 min, whereas that by BHA attained a maximum rapidly. The IC50 values of ecabet and BHA were 2.1 mg/ml and 0.5 microgram/ml, respectively. When the incubation mixture of urease with an inhibitor was diluted and further incubated, the depressed activity by BHA reverted gradually, but that by ecabet did not. When the incubation mixture of urease with ecabet was centrifuged, the urease activity of the mixture decreased in parallel with the reduction in protein concentration of the supernatant. When the incubation mixture of urease and 14C-ecabet was ultrafiltered to remove the drug, the radioactivity in the retentate remained in parallel with the degree of reduction of urease activity in the retentate. These results indicate that ecabet irreversibly depresses the urease activity of jack bean, and suggest that the depression is caused by irreversible binding of ecabet to urease followed by denaturation of the enzyme protein.
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