The human somatic angiotensin converting enzyme (ACE) contains two homologous domains, each bearing a zinc-dependent active site. All of the synthetic inhibitors of this enzyme used in clinical applications interact with these two active sites to a similar extent. Recently, several lines of evidence have suggested that the N-terminal active site of ACE might be involved in specific hydrolysis of some important physiological substrates, like Acetyl-Seryl-Aspartyl-LysylProline, a negative regulator of hematopoietic stem cell differentiation and proliferation. These findings have stimulated studies aimed at identifying new ACE inhibitors able to block only one of the two active sites of this enzyme. By screening phosphinic peptide libraries, we discovered a phosphinic peptide Ac-Asp-(L) Phe(PO 2 -CH 2 ) (L) Ala-Ala-NH 2 , called RXP 407, which is able to differentiate the two ACE active sites, with a dissociation constant three orders of magnitude lower for the N-domain of the enzyme. The usefulness of a combinatorial chemistry approach to develop new lead structures is underscored by the unusual chemical structure of RXP 407, as compared with classical ACE inhibitors. As a highly potent and selective inhibitor of the N-terminal active site of wild ACE (K i ؍ 12 nM), RXP 407, which is metabolically stable in vivo, may lead to a new generation of ACE inhibitors able to block in vivo only a subset of the different functions regulated by ACE.
Somatic angiotensin I converting enzyme (ACE) contains two functional active sites. Up to now, most of the studies aimed at characterizing the selectivity of inhibitors toward the two ACE active sites relied on the use of ACE mutants containing a single functional active site. By developing new fluorogenic synthetic substrates of ACE, we demonstrated that inhibitor selectivity can be assessed directly by using somatic ACE. This useful screening approach led us to discover that some bradykinin potentiating peptides turned out to be selective inhibitors of the C-domain of ACE. The peptide pGlu-Gly-Leu-Pro-Pro-Arg-Pro-Lys-Ile-Pro-Pro, with K(i)(app) values of 30 nM and 8 microM, respectively, for the C- and N-domain of ACE, is to our knowledge the most highly selective C-domain inhibitor of ACE so far reported. Inhibitors able to block selectively either the N- or C-domain of ACE will represent unique tools to probe the function of each domain in the regulation of blood pressure or other physiopathological events involving ACE activity.
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