Side-Chain Dynamics of the α1B-Adrenergic Receptor determined by NMR via Methyl Relaxation

Author:

Baumann ChristianORCID,Chiang Wan-ChinORCID,Valsecchi RenatoORCID,Jurt SimonORCID,Deluigi MattiaORCID,Schuster MatthiasORCID,Plückthun AndreasORCID,Zerbe OliverORCID

Abstract

AbstractG protein-coupled receptors (GPCRs) are medically important membrane proteins that sample inactive, intermediate, and active conformational states characterized by relatively slow interconversions (∼μs– ms). On a faster timescale (∼ps–ns), the conformational landscape of GPCRs is governed by the rapid dynamics of amino acid side chains. Such dynamics are essential for protein functions such as ligand recognition and allostery. Unfortunately, technical challenges have almost entirely precluded the study of side-chain dynamics for GPCRs. Here, we investigate the rapid side-chain dynamics of a thermostabilized α1B-adrenergic receptor (α1B-AR) as probed by methyl relaxation. We determined order parameters for Ile, Leu, and Val methyl groups in the presence of inverse agonists that bind orthosterically (prazosin, tamsulosin) or allosterically (conopeptide ρ-TIA). Despite the differences in the ligands, the receptor’s overall side-chain dynamics are very similar, including those of the apo form. However, ρ-TIA increases the flexibility of Ile1764x56and possibly of Ile2145x49, adjacent to Pro2155x50of the highly conserved P5x50I3x40F6x44motif crucial for receptor activation, suggesting differences in the mechanisms for orthosteric and allosteric receptor inactivation. Overall, increased Ile side-chain rigidity was found for residues closer to the center of the membrane bilayer, correlating with denser packing and lower protein surface exposure. In contrast to two microbial membrane proteins, in α1B-AR Leu exhibited higher flexibility than Ile side chains on average, correlating with the presence of Leu in less densely packed areas and with higher protein-surface exposure than Ile. Our findings demonstrate the feasibility of studying receptor-wide side-chain dynamics in GPCRs to gain functional insights.

Publisher

Cold Spring Harbor Laboratory

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