Design and Synthesis of Potent, Selective Inhibitors of Endothelin-Converting Enzyme

Endothelin-1 is the most potent peptidic vasoconstrictor discovered to date. The final step of posttranslational processing of this peptide is the conversion of its precursor by endothelin-converting enzyme-1 (ECE-1), a metalloprotease which displays high amino acid sequence identity with neutral en...

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Bibliographic Details
Published in:Journal of medicinal chemistry 1998-04, Vol.41 (9), p.1513-1523
Main Authors: Wallace, Eli M, Moliterni, John A, Moskal, Michael A, Neubert, Alan D, Marcopulos, Nicholas, Stamford, Lisa B, Trapani, Angelo J, Savage, Paula, Chou, Mary, Jeng, Arco Y
Format: Article
Language:English
Subjects:
Acetylene - analogs & derivatives
Acetylene - chemical synthesis
Acetylene - chemistry
Acetylene - pharmacology
Amino Acid Sequence
Animals
Aspartic Acid Endopeptidases - antagonists & inhibitors
Biological and medical sciences
Blood Pressure - drug effects
Cardiovascular system
CHO Cells
Cricetinae
Drug Design
Endothelin-1 - antagonists & inhibitors
Endothelin-1 - pharmacology
Endothelin-Converting Enzymes
Enzyme Inhibitors - chemical synthesis
Enzyme Inhibitors - chemistry
Enzyme Inhibitors - pharmacology
Humans
Male
Medical sciences
Metalloendopeptidases
Molecular Sequence Data
Neprilysin - antagonists & inhibitors
Organophosphonates - chemical synthesis
Organophosphonates - chemistry
Organophosphonates - pharmacology
Pharmacology. Drug treatments
Rats
Rats, Sprague-Dawley
Recombinant Proteins - antagonists & inhibitors
Structure-Activity Relationship
Vasodilator agents. Cerebral vasodilators
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Summary:Endothelin-1 is the most potent peptidic vasoconstrictor discovered to date. The final step of posttranslational processing of this peptide is the conversion of its precursor by endothelin-converting enzyme-1 (ECE-1), a metalloprotease which displays high amino acid sequence identity with neutral endopeptidase 24.11 (NEP) especially at the catalytic center. A series of potent and selective arylacetylene-containing ECE-1 inhibitors have been prepared. (S,S)-3-Cyclohexyl-2-[[5-(2,4-difluorophenyl)-2-[(phosphonomethyl)amino]pent-4-ynoyl]amino]propionic acid (47), an arylacetylene amino phosphonate dipeptide, was found to inhibit ECE-1 and NEP with IC50 values of 14 nM and 2 μM, respectively. Similarly, (S)-[[1-[(2-biphenyl-4-ylethyl)carbamoyl]-4-(2-fluorophenyl)but-3-ynyl]amino]methyl]phosphonic acid (56), an arylacetylene amino phosphonate amide, had IC50's of 33 nM and 6.5 μM for ECE-1 and NEP, respectively. Slight modification of the aryl moiety was found to have dramatic effects on ECE-1/NEP selectivity. The 2-fluoro dipeptide analogue, (S,S)-2-[[5-(2-fluorophenyl)-2-[(phosphonomethyl)amino]pent-4-ynoyl]amino]-4-methylpentanoic acid (40), showed a 72-fold selectivity for ECE-1 over NEP, while the 3-fluoro dipeptide analogue, (S,S)-2-[[5-(3-fluorophenyl)-2-[(phosphonomethyl)amino]pent-4-ynoyl]amino]-4-methylpentanoic acid (22), was equipotent for ECE-1 and NEP. Several of these inhibitors were shown to be potent in blocking ET-1 production in vivo as demonstrated by the big ET-1-induced pressor response in rats. These potent inhibitors are the most selective for ECE-1 reported to date and are envisaged to have a variety of therapeutic applications.
ISSN:0022-2623
1520-4804
DOI:10.1021/jm970787c