Abstract
The angiotensin-converting enzyme (ACE)-related carboxypeptidase, ACE2, is a type I integral membrane protein of 805 amino acids that contains one HEXXH + E zinc-binding consensus sequence. ACE2 has been implicated in the regulation of heart function and also as a functional receptor for the coronavirus that causes the severe acute respiratory syndrome (SARS). To gain further insights into this enzyme, the first crystal structures of the native and inhibitor-bound forms of the ACE2 extracellular domains were solved to 2.2- and 3.0-Å resolution, respectively. Comparison of these structures revealed a large inhibitor-dependent hinge-bending movement of one catalytic subdomain relative to the other (∼16°) that brings important residues into position for catalysis. The potent inhibitor MLN-4760 ((S,S)-2-{1-carboxy-2-[3-(3,5-dichlorobenzyl)-3H-imidazol4-yl]-ethylamino}-4-methylpentanoic acid) makes key binding interactions within the active site and offers insights regarding the action of residues involved in catalysis and substrate specificity. A few active site residue substitutions in ACE2 relative to ACE appear to eliminate the S2′ substrate-binding subsite and account for the observed reactivity change from the peptidyl dipeptidase activity of ACE to the carboxypeptidase activity of ACE2.
Highlights
The angiotensin-converting enzyme (ACE)1-related carboxypeptidase, ACE2, is a type I integral membrane protein of 805 amino acids that contains one HEXXH ϩ E zinc-binding consensus sequence [1, 2]
We report here the first crystal structures of the extracellular metallopeptidase domain of ACE2 in its native and inhibitor-bound states and discuss the influence of these structures in understanding the substrate specificity and catalytic mechanism of the enzyme
Native ACE2 Structure—The three-dimensional structure of the extracellular region of native ACE2 was determined by multiple isomorphous replacement with anomalous scattering and refined to a crystallographic R-factor of 23.5%
Summary
The angiotensin-converting enzyme (ACE)1-related carboxypeptidase, ACE2, is a type I integral membrane protein of 805 amino acids that contains one HEXXH ϩ E zinc-binding consensus sequence [1, 2]. We report here the first crystal structures of the extracellular metallopeptidase domain of ACE2 in its native and inhibitor-bound states and discuss the influence of these structures in understanding the substrate specificity and catalytic mechanism of the enzyme.
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