Insights on the G protein-coupled receptor helix 8 solution structure and orientation using a neurotensin receptor 1 peptide

James B. Bower, Scott A. Robson, Joshua J. Ziarek*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

G-protein coupled receptors (GPCRs) are the largest class of membrane proteins encoded in the human genome with high pharmaceutical relevance and implications to human health. These receptors share a prevalent architecture of seven transmembrane helices followed by an intracellular, amphipathic helix 8 (H8) and a disordered C-terminal tail (Ctail). Technological advancements have led to over 1000 receptor structures in the last two decades, yet frequently H8 and the Ctail are conformationally heterogeneous or altogether absent. Here we synthesize a peptide comprising the neurotensin receptor 1 (NTS1) H8 and Ctail (H8–Ctail) to investigate its structural stability, conformational dynamics, and orientation in the presence of detergent and phospholipid micelles, which mimic the membrane. Circular dichroism (CD) and nuclear magnetic resonance (NMR) measurements confirm that zwitterionic 1,2-diheptanoyl-sn-glycero-3-phosphocholine is a potent stabilizer of H8 structure, whereas the commonly-used branched detergent lauryl maltose neopentyl glycol (LMNG) is unable to completely stabilize the helix – even at amounts four orders of magnitude greater than its critical micellar concentration. We then used NMR spectroscopy to assign the backbone chemical shifts. A series of temperature and lipid titrations were used to define the H8 boundaries as F376–R392 from chemical shift perturbations, changes in resonance intensity, and chemical-shift-derived phi/psi angles. Finally, the H8 azimuthal and tilt angles, defining the helix orientation relative of the membrane normal were measured using paramagnetic relaxation enhancement NMR. Taken together, our studies reveal the H8–Ctail region is sensitive to membrane physicochemical properties and is capable of more adaptive behavior than previously suggested by static structural techniques.

Original languageEnglish (US)
Article numbere4976
JournalProtein Science
Volume33
Issue number6
DOIs
StatePublished - Jun 2024

Keywords

  • class A GPCR
  • dynamics
  • helical wave
  • helix stability
  • membrane protein
  • nuclear magnetic resonance (NMR)
  • paramagnetic relaxation enhancement (PRE)

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology

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