1. Amiloride Peptide Conjugates: Prodrugs for Sodium-Proton Exchange Inhibition
- Author
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William Harley, Fredric A Gorin, Kolbot By, Hasan Palandoken, Manu Hegde, and Michael H. Nantz
- Subjects
Pharmacology ,chemistry.chemical_classification ,Sodium-Hydrogen Exchangers ,Sodium ,chemistry.chemical_element ,Biological Transport ,Enkephalinase ,Peptide ,Prodrug ,Cell Line ,Amiloride ,Structure-Activity Relationship ,chemistry ,Biochemistry ,Cell culture ,Drug Design ,medicine ,Humans ,Molecular Medicine ,Prodrugs ,Neprilysin ,medicine.drug ,Conjugate - Abstract
Inhibition of the sodium-proton exchanger (NHE) plays an important role in reducing tissue damage during ischemic reperfusion injury; however, pharmacological inhibitors of NHE have restricted access to acutely ischemic tissues because of severely compromised tissue perfusion. We describe the syntheses, characterization, and NHE inhibitory activities of a novel class of amiloride derivatives where peptides are conjugated to the amiloride C(5) amino group. These new peptide-C(5)-amiloride conjugates are inactive; however, peptide residues were chosen such that selective cleavage by neutral endopeptidase 24.11 (enkephalinase) liberates an amino acid-C(5)-amiloride conjugate that inhibits NHE in a glial cell line. These results confirm the feasibility of using peptide-amiloride conjugates as NHE inhibitor prodrugs. We envision the design of analogous peptide-amiloride prodrugs that can be administered prior to ischemic events and subsequently activated by endopeptidases selectively expressed by ischemic tissues.
- Published
- 2004
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