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Metabotropic Glutamate Receptor Structures Uncover Mechanisms of Class C GPCR Dimerization and Activation

Jun 17, 2021

Metabotropic glutamate receptors (mGlus), which belong to class C G-protein-coupled receptor (GPCR) family, play key roles in modulating neuronal excitability and synaptic transmission in central nervous system. The mGlus (mGlu1-8) identified in humans serve as therapeutic targets for a variety of neurological and psychiatric disorders such as Parkinson’s disease, Alzheimer’s disease and schizophrenia, but drugs targeting the mGlus are not currently available.
In two back-to-back studies published in Nature, a team of researchers led by WU Beili, ZHAO Qiang, WANG Mingwei and LIU Hong at the Shanghai Institute of Materia Medica of the Chinese Academy of Sciences (CAS), collaborating with research groups led by SUN Fei at Institute of Biophysics of CAS and by LIU Jianfeng from Huazhong University of Science and Technology, respectively, determined six cryo-electron microscopy (cryo-EM) structures of several mGlus in distinct functional and dimeric states, which offers opportunities to develop new treatment for neurological and psychiatric diseases.

The researchers solved the structures of mGlu2 and mGlu7 homodimers in inactive state, and these structures revealed distinct dimerization modes. Using mutagenesis and cell signaling assays, the researchers found that the transmembrane domain (TMD) dimer interface in the inactive mGlu2 homodimer is subtype-specific and has a critical role in stabilizing the inactive conformation of the receptor. They determined the structures of mGlu2 homodimer in the inactive, intermediate activation (Gi protein-free) and fully activate (Gi protein-bound) states.

Also, the researchers solved the structure of mGlu4 in complex with the Gi protein, which reveals a similar dimeric association mode, suggesting that different mGlus may modulate receptor activation in a similar manner.

Besides, the researchers found that extracellular domains (ECDs) of both subunits are occupied by the agonist, but only one TMD is capable of coupling to G protein. The asymmetric dimer association provides different interaction environments for the two subunits and may cause distinct conformational changes within the two TMDs, which only allow one subunit to recognize the G protein. The G protein then forms a spatial hindrance to block the G protein coupling by the other subunit.

The studies, for the first time, offered a thorough view of receptor conformational changes during the whole process of mGlu activation, gave valuable insights into asymmetric activation of mGlus, and highlighted the importance of cooperativity between different subunits as well as between different receptor domains in controlling receptor function, thereby expanding the knowledge about signal transduction of class C GPCRs.

 

Structures of mGlu2 in different conformational states (Image by Dr. WU Beili’s laboratory) 

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DIAO Wentong

Shanghai Institute of Materia Medica

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Structures of Gi-bound metabotropic glutamate receptors mGlu2 and mGlu4

Structures of human mGlu2 and mGlu7 homo- and heterodimers

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