The ionotropic glutamate receptor GluA2 is considered to be an attractive target for positive allosteric modulation for the development of pharmacological tools or cognitive enhancers. Here, we report a detailed structural characterization of two recently reported dimeric positive allosteric modulators, TDPAM01 and TDPAM02, with nanomolar potency at GluA2. Using X-ray crystallography, TDPAM01 and TDPAM02 were crystallized in the ligandbinding domain of the GluA2 flop isoform as well as in the flip-like mutant N775S and the preformed dimer L504Y-N775S. In all structures, one modulator molecule binds at the dimer interface with two characteristic hydrogen bonds being formed from the modulator to Pro515. Whereas the GluA2 dimers and modulator binding mode are similar when crystallized in the presence of L-glutamate, the shape of the binding site differs when no L-glutamate is present. TDPAM02 has no effect on domain closure in both apo and L-glutamate bound GluA2 dimers compared to structures without modulator.
Ionotropic glutamate receptors are ligand‐gated ion channels essential for fast excitatory neurotransmission in the brain. In contrast to most other members of the iGluR family, the subfamily of delta receptors, GluD1 and GluD2, does not bind glutamate but glycine/D‐serine. GluD1 is widely expressed in the brain and the inner ear, where it is required for high‐frequency hearing. Furthermore, it has been associated with schizophrenia, autism and depression. X‐ray structures of the ligand‐binding domain (LBD) of GluD2 have been published; however, no high‐resolution structure is available for the ligand‐binding domain of GluD1 (GluD1‐LBD). Here, we report the X‐ray crystal structure of the GluD1‐LBD in its apo form at 2.57 Å resolution. Using isothermal titration calorimetry, we show that D‐serine binds to the GluD1‐LBD in an exothermic manner with a Kd of 160 μm, which is approximately five‐fold greater than at GluD2. Furthermore, we identify Glu822 as a critical determinant of receptor activation in GluD1 A654T. In contrast to studies on the GluD2 lurcher mutant A654T, we did not observe any effect of 1 mm D‐serine on the spontaneous currents at mouse GluD1 A654T by electrophysiological recordings of Xenopus laevis oocytes as previously also reported by others. These results point towards differences in the structure and dynamics between GluD1 and GluD2. Molecular dynamics simulations were employed to address this observation, suggesting that the apo structure of GluD1 is less flexible than the apo structure of GluD2 and that Pro725 in GluD1 may affect the interlobe closure of the ligand‐binding domain of GluD1.
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