Author: Guy, Jodie L.; Jackson, Richard M.; Jensen, Hanne A.; Hooper, Nigel M.; Turner, Anthony J.
Title: Identification of critical activeâ€site residues in angiotensinâ€converting enzymeâ€2 (ACE2) by siteâ€directed mutagenesis Cord-id: hext9jv8 Document date: 2005_7_19
ID: hext9jv8
Snippet: Angiotensinâ€converting enzymeâ€2 (ACE2) may play an important role in cardiorenal disease and it has also been implicated as a cellular receptor for the severe acute respiratory syndrome (SARS) virus. The ACE2 activeâ€site model and its crystal structure, which was solved recently, highlighted key differences between ACE2 and its counterpart angiotensinâ€converting enzyme (ACE), which are responsible for their differing substrate and inhibitor sensitivities. In this study the role of ACE2 a
Document: Angiotensinâ€converting enzymeâ€2 (ACE2) may play an important role in cardiorenal disease and it has also been implicated as a cellular receptor for the severe acute respiratory syndrome (SARS) virus. The ACE2 activeâ€site model and its crystal structure, which was solved recently, highlighted key differences between ACE2 and its counterpart angiotensinâ€converting enzyme (ACE), which are responsible for their differing substrate and inhibitor sensitivities. In this study the role of ACE2 activeâ€site residues was explored by siteâ€directed mutagenesis. Arg273 was found to be critical for substrate binding such that its replacement causes enzyme activity to be abolished. Although both His505 and His345 are involved in catalysis, it is His345 and not His505 that acts as the hydrogen bond donor/acceptor in the formation of the tetrahedral peptide intermediate. The difference in chloride sensitivity between ACE2 and ACE was investigated, and the absence of a second chlorideâ€binding site (CL2) in ACE2 confirmed. Thus ACE2 has only one chlorideâ€binding site (CL1) whereas ACE has two sites. This is the first study to address the differences that exist between ACE2 and ACE at the molecular level. The results can be applied to future studies aimed at unravelling the role of ACE2, relative to ACE, in vivo.
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