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Metabotropic Glutamate Receptor 2

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1 Introduction
2 Structure
3 Function
4 Clinical Relevance

Introduction

Metabotropic glutamate receptors are found in the central nervous system and play a critical role in modulating cell excitability and synaptic transmission^[1]. Glutamate is the main neurotransmitter in the brain and activates 8 different types of metabotropic glutamate receptors^[2]. Metabotropic Glutamate Receptor 2(mGlu2) is a member of the Class C GPCRFamily and can further be classified into the Group II subgroup of metabotropic receptors. Since mGlu2 is a part of the Class C GPCR family, it undergoes small conformational changes to the transmembrane domain (TMD) to move from the inactive to the fully active structure^[1]. Functionality of mGlu2 will be dependent on the concentration of glutamate. Higher concentrations of glutamate will promote stronger signal transduction from the extracellular domain to the transmembrane domain.

mGlu2 plays vital roles in memory formation, pain management, and addiction, which makes it an important drug target for Parkinson’s Disease^[3], Schizophrenia (blue link), Cocaine Addiction^[4], and many other neurological conditions.

Structure

Overall Structure

Cryo-EM studies of mGlu2 have yielded adequate structures that have acted as maps to aid in producing a better structural understanding of the inactive and active states of mGlu2 (Lin). The overall structure of the mGlu2 is composed of 3 main parts: a ligand binding Venus FlyTrap Domain(VFT), followed by a Cysteine Rich Domain linker to the Transmembrane Domain that contains 7 alpha helices (7TM) on both the that aid in the binding of the G-Protein. Class C CPCRs such as mGlu2, are activated by their ability to form dimers. MGlu2 is a homodimer which is imperative to the receptor’s ability to relay signals induced by glutamate from the extracellular domain(ECD) to its transmembrane domain(TMD). The homodimer of mGlu2 contains an alpha chain and a beta chain. Occupation of both ECDs with the agonist, glutamate, is necessary for a fully active mGlu2. However, only one chain in the dimer is responsible for activation of the G-protein, this suggests an asymmetrical signal transduction mechanism for mGlu2.

Inactive State

Intermediate Form

PAM Bound Form

Figure 3:This is PAM located in its binding pocket. PAM, JNJ-40411813, is shown in magenta and colored by atom. The image shows four labelled alpha helices (III, V, VI, and VII) that create the binding pocket in the 7TM region of mGlu2 for PAM to bind within. The binding of PAM promotes the function of the mGLu2.

NAM Bound Form

Active State

Function

Clinical Relevance

References

↑ ^1.0 ^1.1 Lin, Shuling, et al. “Structures of GI-Bound Metabotropic Glutamate Receptors mglu2 and mglu4.” Nature News, Nature Publishing Group, 16 June 2021,https://www.nature.com/articles/s41586-021-03495-2>
↑ Seven, Alpay B., et al. “G-Protein Activation by a Metabotropic Glutamate Receptor.” Nature News, Nature Publishing Group, 30 June 2021, https://www.nature.com/articles/s1586-021-03680-3
↑ Zhang, Zhu, et al. “Roles of Glutamate Receptors in Parkinson's Disease.” MDPI, Multidisciplinary Digital Publishing Institute, 6 Sept. 2019, https://dx.doi.org/10.3390%2Fijms20184391.>
↑ Yang, Hong-Ju, et al. “Deletion of Type 2 Metabotropic Glutamate Receptor Decreases Sensitivity to Cocaine Reward in Rats.” Cell Reports, U.S. National Library of Medicine, 11 July 2017, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5555082/.>

Student Contributors

Frannie Brewer and Ashley Wilkinson

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