Structural insights into the inhibitory mechanism of angiotensin‐I‐converting enzyme by the lactotripeptides IPP and VPP

Human somatic angiotensin‐1‐converting enzyme (sACE) is composed of a catalytic N‐(nACE) and C‐domain (cACE) of similar size with different substrate specificities. It is involved in the regulation of blood pressure by converting angiotensin I to the vasoconstrictor angiotensin II and has been a maj...

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Bibliographic Details
Published in:FEBS letters 2024-01, Vol.598 (2), p.242-251
Main Authors: Gregory, Kyle S., Cozier, Gyles E., Schwager, Sylva L. U., Sturrock, Edward D., Acharya, K. Ravi
Format: Article
Language:English
Subjects:
angiotensin‐1‐converting enzyme
domain‐selectivity
enzyme structure
Hypertension
inhibitor binding
metalloprotease
Protein Structure and Function
Research Letter
Research Letters
X‐ray crystallography
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Summary:Human somatic angiotensin‐1‐converting enzyme (sACE) is composed of a catalytic N‐(nACE) and C‐domain (cACE) of similar size with different substrate specificities. It is involved in the regulation of blood pressure by converting angiotensin I to the vasoconstrictor angiotensin II and has been a major focus in the development of therapeutics for hypertension. Bioactive peptides from various sources, including milk, have been identified as natural ACE inhibitors. We report the structural basis for the role of two lacototripeptides, Val‐Pro‐Pro and Ile‐Pro‐Pro, in domain‐specific inhibition of ACE using X‐ray crystallography and kinetic analysis. The lactotripeptides have preference for nACE due to altered polar interactions distal to the catalytic zinc ion. Elucidating the mechanism of binding and domain selectivity of these peptides also provides important insights into the functional roles of ACE. The milk‐derived lactotripeptides LPP and VPP have shown promising results in the reduction of hypertension by inhibiting the N‐ and C‐domain (nACE and cACE respectively) of angiotensin‐1‐converting enzyme. This study reveals the molecular interactions that underpin this inhibition by the resolution of two X‐ray crystal structures (nACE:IPP and nACE:VPP). Additionally, we present the kinetic parameters of inhibition. Both IPP and VPP bind nACE in the same manner, however, IPP provides stronger inhibition.
ISSN:0014-5793
1873-3468
DOI:10.1002/1873-3468.14768