Bitter taste receptors (T2Rs) are considered attractive drug targets. However, the ligand recognition and selectivity of these receptors remain elusive, hampering their drug development. Here we present seven structures of human T2R14 and T2R46 in apo or ligand-bound state. Combined with molecular docking and mutagenesis data, the structures reveal an extracellular ligand-binding site in T2R14 for most of its ligands, which is different from the intracellular binding site reported recently. In contrast, T2R46 exhibits a conserved binding pocket that accommodates various ligands with distinct interaction patterns. Furthermore, the second extracellular loop in T2R14 and T2R46 acts as a tethered agonist to potentially facilitate agonist response of these two receptors to the weak tastant agonists. These findings could accelerate drug discovery targeting T2Rs. Tan, Yu, Han et al. show how human bitter taste receptors recognize diverse ligands by determining several T2R structures. The study presents distinct binding modes and an intrinsic activation mechanism.
Tan et al. (Mon,) studied this question.