Abstract
Two aromatic amino acids, Tyr1 and Phe3 or Phe4, are important structural elements in opioid peptides because they interact with opioid receptors. The usefulness of an artificial amino acid residue 2′,6′-dimethylphenylalanine (Dmp) was investigated as an aromatic amino acid surrogate for several opioid peptides, including enkephalin, dermorphin, deltorphin, endomorphin, dynorphin A, and nociceptin peptides. In most peptides, substitutions of Phe3 by a Dmp residue produced analogs with improved receptor-binding affinity and selectivity, while the same substitution of Phe4 induced markedly reduced receptor affinity and selectivity. Interestingly, replacement of Tyr1 by Dmp produced analogs with unexpectedly high affinity or produced only a slight drop in receptor affinity and bioactivity for most peptides. Thus, Dmp is also a useful surrogate for the N-terminal Tyr residue in opioid peptides despite the lack of a phenolic hydroxyl group, which is considered necessary for opioid activity. The Dmp1-substituted analogs are superior to 2′,6′-dimethyltyrosine (Dmt)1-substituted analogs for high receptor selectivity since the latter generally have poor receptor selectivity. Thus, Dmp is very useful as an aromatic amino acid surrogate in opioid peptides and may be useful for developing other novel peptide mimetics with high receptor specificity.
Highlights
Three major types of opioid receptors, μ, δ, and κ, have been cloned and assigned to the superfamily of rhodopsinlike G-protein-coupled receptors [1,2,3]
The usefulness of the artificial amino acid residue Dmp was investigated as an aromatic amino acid surrogate for opioid peptides and related peptides, including ENK, DM, YRFB, Deltorphin 11 (DT), EM2, Dynorphin A (DYN), and NOC peptides
Substitution of Phe3 by Dmp produced analogs with improved receptor-binding affinity and selectivity, for example, [Dmp3]EM2 (14), [Dmp3]DM (18), [Dmp3]DT (20), and [Dmp3]YRFB (22), while substitution by the D-enantiomer resulted in decreased receptor affinity and selectivity
Summary
Three major types of opioid receptors, μ, δ, and κ, have been cloned and assigned to the superfamily of rhodopsinlike G-protein-coupled receptors [1,2,3]. Dmp substitution for Phe3 in EM2 (14) produced a compound with 10-fold greater affinity than that of EM2 for both the μ- and δ-receptors and still retained high μ-receptor selectivity comparable to that of EM2.
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