Qiang Zhao scite author profile

Dopamine modulates movement, cognitive, and emotional functions of the brain through activation of dopamine receptors that belong to the G protein-coupled receptor (GPCR) superfamily. Here we present the crystal structure of the human dopamine D3 receptor (D3R) in complex with the small molecule D2R/D3R-specific antagonist eticlopride at 3.15 Å resolution. Docking of R-22, a D3R-selective antagonist to the D3R structure reveals an extracellular extension of the eticlopride binding site that comprises a connected second binding pocket for the aryl amide of R-22.Dopamine is an essential neurotransmitter in the central nervous system and exerts its effects through activation of five distinct dopamine receptor subtypes that belong to the G proteincoupled receptor (GPCR) superfamily. The receptors have been classified into two subfamilies, D1-like and D2-like, on the basis of their sequence and pharmacological similarities (1). The D1-like receptors (D1R and D5R) couple to stimulatory G-protein alpha subunits (G s/olf ), activating adenyl cyclase, whereas D2-like receptors (D2R, D3R and D4R) couple to inhibitory G-protein alpha subunits (G i/o ), inhibiting adenyl cyclase. The high degree of sequence identity (2-3) within the transmembrane helices between D2R and D3R

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Structure of the CCR5 Chemokine Receptor–HIV Entry Inhibitor Maraviroc Complex

Tan

Zhu

et al. 2013

Science

639

710

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The CCR5 chemokine receptor acts as a co-receptor for HIV-1 viral entry. Here we report the 2.7 Å resolution crystal structure of human CCR5 bound to the marketed HIV drug Maraviroc. The structure reveals a ligand binding site that is distinct from the proposed major recognition sites for chemokines and the viral glycoprotein gp120, providing insights into the mechanism of allosteric inhibition of chemokine signaling and viral entry. A comparison between CCR5 and CXCR4 crystal structures, along with models of co-receptor/gp120-V3 complexes, suggests that different charge distributions and steric hindrances caused by residue substitutions may be major determinants of HIV-1 co-receptor selectivity. These high-resolution insights into CCR5 can enable structure-based drug discovery for the treatment of HIV-1 infection.

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Crystal Structure of the Human Cannabinoid Receptor CB1

Hua

Vemuri

et al. 2016

Cell

501

488

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SUMMARY Cannabinoid receptor 1 (CB1) is the principal target of Δ9-tetrahydrocannabinol (THC), a psychoactive chemical from Cannabis sativa with a wide range of therapeutic applications and a long history of recreational use. CB1 is activated by endocannabinoids, and is a promising therapeutic target for pain management, inflammation, obesity and substance abuse disorders. Here, we present the 2.8 Å crystal structure of human CB1 in complex with AM6538, a stabilizing antagonist, synthesized and characterized for this structural study. The structure of the CB1-AM6538 complex reveals key features of the receptor and critical interactions for antagonist binding. In combination with functional studies and molecular modeling, the structure provides insight into the binding mode of naturally occurring CB1 ligands, such as THC, and synthetic cannabinoids. This enhances our understanding of the molecular basis for the physiological functions of CB1 and provides new opportunities for the design of next-generation CB1-targeting pharmaceuticals.

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Qiang Zhao

Structure of the Human Dopamine D3 Receptor in Complex with a D2/D3 Selective Antagonist

Structure of the CCR5 Chemokine Receptor–HIV Entry Inhibitor Maraviroc Complex

Crystal Structure of the Human Cannabinoid Receptor CB1

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