Single Stabilizing Point Mutation Enables High‐Resolution Co‐Crystal Structures of the Adenosine A_2A Receptor with Preladenant Conjugates Article Swipe

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Fluorophore G protein-coupled receptor Polyethylene glycol Chemistry Crystallization Point mutation Combinatorial chemistry PEG ratio Selectivity Receptor Resolution (logic) Conjugated system Conjugate Stereochemistry Biophysics Mutation Fluorescence Biochemistry Biology Gene Organic chemistry Physics Computer science Mathematical analysis Polymer Artificial intelligence Catalysis Finance Economics Quantum mechanics Mathematics

Tobias Claff , Tim A. Klapschinski , Udaya K. Tiruttani Subhramanyam , Victoria J. Vaaßen , Jonathan G. Schlegel , Christin Vielmuth , Jan Voss , Jörg Labahn , Christa E. Müller ·

YOU? · · 2022 · Open Access · · DOI: https://doi.org/10.1002/anie.202115545 · OA: W4213060363

The G protein‐coupled adenosine A 2A receptor (A 2A AR) is an important new (potential) drug target in immuno‐oncology, and for neurodegenerative diseases. Preladenant and its derivatives belong to the most potent A 2A AR antagonists displaying exceptional selectivity. While crystal structures of the human A 2A AR have been solved, mostly using the A 2A ‐StaR2 protein that bears 9 point mutations, co‐crystallization with Preladenant derivatives has so far been elusive. We developed a new A 2A AR construct harboring a single point mutation (S91 3.39 K) which renders it extremely thermostable. This allowed the co‐crystallization of two novel Preladenant derivatives, the polyethylene glycol‐conjugated (PEGylated) PSB‐2113, and the fluorophore‐labeled PSB‐2115. The obtained crystal structures (2.25 Å and 2.6 Å resolution) provide explanations for the high potency and selectivity of Preladenant derivatives. They represent the first crystal structures of a GPCR in complex with PEG‐ and fluorophore‐conjugated ligands. The applied strategy is predicted to be applicable to further class A GPCRs.