Inhibition of Angiotensin Converting Enzyme by Phosphoramidates and Polyphosphates

N alpha-Phosphoryl-L-alanyl-L-proline is a reversible competitive inhibitor of angiotensin converting enzyme with a Ki of 1.4 nM. Alkylation of one phosphate oxygen with methyl, ethyl, or benzyl does not change the Ki. The high activity of the O-alkylated inhibitors demonstrates that the two phosphate oxygen anions do not constitute a bidentate ligand of the active site zinc ion. Substitution of valyltryptophan, glycylglycine, or delta-aminovaleric acid for alanylproline in the phosphoramidate raises the Ki to 12 nM, 25 microM, and 178 microM, respectively. Methylation of the alanine nitrogen in phosphorylalanylproline raises the Ki to 29 microM. Polyphosphates inhibit converting enzyme with the following Ki's: phosphate, approximately 300 mM; pyrophosphate, 2 mM; tripolyphosphate, 18 microM; tetrapolyphosphate, 150 microM. The inhibition by tripolyphosphate appears to be competitive and is unaffected by the addition of excess zinc ion. Since the Ki of tripolyphosphate is nearly 10-fold lower than that of N-phosphoryl-delta-aminovaleric acid and is near that of N alpha-phosphorylglycylglycine, its terminal phosphates may bind the zinc site and the cationic site on the enzyme, thus spanning the S1' and S2' sites.