Inhibition of angiotensin converting enzyme: dependence on chloride.

In a previous report [Shapiro, R., Holmquist, B., & Riordan, J. F. (1983) Biochemistry 22, 3850], it was demonstrated that activation of angiotensin converting enzyme (ACE) by chloride is strongly dependent on substrate structure, and three substrate classes were identified on the basis of activation behavior. The present study examines the chloride dependence of the inhibition of ACE by nine inhibitors [(D-3-mercapto-2-methylpropanoyl)-L-Pro (captopril), N-[1(S)-carboxy-3-phenylpropyl]-L-Ala-L-Pro (MK-422), L-Ala-L-Pro, N-(phenylphosphoryl)-L-Phe-L-Phe, Gly-L-Trp, N-[1(S)-carboxy-5-aminopentyl]-L-Phe-Gly, L-Phe-L-Arg, N alpha-(3-mercaptopropanoyl)-L-Arg, and N alpha-[1(S)-carboxy-3-phenylpropyl]-L-Ala-L-Lys] containing structural features characteristic of the three classes of substrates. Apparent Ki values for all inhibitors are markedly (70-250-fold) decreased by 300 mM chloride. However, the enhancement of inhibition is achieved at significantly lower chloride concentrations with those inhibitors having an ultimate arginine or lysine than with the remainder. This variability parallels that previously found for activation of substrate hydrolysis. The effect of chloride on the individual steps in the formation and dissociation of the steady-state enzyme-inhibitor complexes was determined with the slow-binding inhibitor MK-422. Pre-steady-state analysis indicates that binding of both MK-422 and captopril follows a (minimally) two-step mechanism: (formula; see text) in which rapid formation of an enzyme-inhibitor complex is followed by a slow isomerization.(ABSTRACT TRUNCATED AT 250 WORDS)