Helix-constrained nociceptin peptides are potent agonists and antagonists of ORL-1 and nociception

Rink-Jan Lohman, Rosemary S. Harrison, Gloria Ruiz-Gómez, Huy N. Hoang, Nicholas E. Shepherd, Shiao Chow, Timothy A. Hill, Praveen K. Madala, David P. Fairlie

Research output: Chapter in Book/Report/Conference proceedingChapter

8 Citations (Scopus)

Abstract

Nociceptin (orphanin FQ) is a 17-residue neuropeptide hormone with roles in both nociception and analgesia. It is an opioid-like peptide that binds to and activates the G-protein-coupled receptor opioid receptor-like-1 (ORL-1, NOP, orphanin FQ receptor, kappa-type 3 opioid receptor) on central and peripheral nervous tissue, without activating classic delta-, kappa-, or mu-opioid receptors or being inhibited by the classic opioid antagonist naloxone. The three-dimensional structure of ORL-1 was recently published, and the activation mechanism is believed to involve capture by ORL-1 of the high-affinity binding, prohelical C-terminus. This likely anchors the receptor-activating N-terminus of nociception nearby for insertion in the membrane-spanning helices of ORL-1. In search of higher agonist potency, two lysine and two aspartate residues were strategically incorporated into the receptor-binding C-terminus of the nociceptin sequence and two Lys(i) → Asp(i + 4) side chain–side chain condensations were used to generate lactam cross-links that constrained nociceptin into a highly stable α-helix in water. A cell-based assay was developed using natively expressed ORL-1 receptors on mouse neuroblastoma cells to measure phosphorylated ERK as a reporter of agonist-induced receptor activation and intracellular signaling. Agonist activity was increased up to 20-fold over native nociceptin using a combination of this helix-inducing strategy and other amino acid modifications. An NMR-derived three-dimensional solution structure is described for a potent ORL-1 agonist derived from nociceptin, along with structure–activity relationships leading to the most potent known α-helical ORL-1 agonist (EC50 40 pM, pERK, Neuro-2a cells) and antagonist (IC50 7 nM, pERK, Neuro-2a cells). These α-helix-constrained mimetics of nociceptin(1–17) had enhanced serum stability relative to unconstrained peptide analogues and nociceptin itself, were not cytotoxic, and displayed potent thermal analgesic and antianalgesic properties in rats (ED50 70 pmol, IC50 10 nmol, s.c.), suggesting promising uses in vivo for the treatment of pain and other ORL-1-mediated responses.
Original languageEnglish
Title of host publicationNociceptin Opioid
EditorsGerald Litwack
Place of PublicationAmsterdam
Chapter1
Pages1-55
Number of pages55
DOIs
Publication statusPublished - 14 Jan 2015

Publication series

NameVitamins and Hormones
Volume97
ISSN (Print)0083-6729

Keywords

  • nociceptin
  • nociception
  • analgesia
  • neuropeptide hormone
  • opioid-like peptide

Fingerprint

Dive into the research topics of 'Helix-constrained nociceptin peptides are potent agonists and antagonists of ORL-1 and nociception'. Together they form a unique fingerprint.

Cite this