Lin Huang scite author profile

SUMMARY Classically, G protein-coupled receptor (GPCR) stimulation promotes G protein signaling at the plasma membrane, followed by rapid β-arrestin-mediated desensitization and receptor internalization into endosomes. However, it has been demonstrated that some GPCRs activate G proteins from within internalized cellular compartments, resulting in sustained signaling. We have used a variety of biochemical, biophysical, and cell-based methods to demonstrate the existence, functionality, and architecture of internalized receptor complexes composed of a single GPCR, β-arrestin, and G protein. These super-complexes or “megaplexes” more readily form at receptors that interact strongly with β-arrestins via a C-terminal tail containing clusters of serine/threonine phosphorylation sites. Single-particle electron microscopy analysis of negative-stained purified megaplexes reveals that a single receptor simultaneously binds through its core region with G protein and through its phosphorylated C-terminal tail with β-arrestin. The formation of such megaplexes provides a potential physical basis for the newly appreciated sustained G protein signaling from internalized GPCRs.

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Pathway analysis of Candida albicans survival and virulence determinants in a murine infection model

Becker

Kauffman²,

Hauser³

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

115

122

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One potentially rich source of possible targets for antifungal therapy are those Candida albicans genes deemed essential for growth under the standard culture (i.e., in vitro) conditions; however, these genes are largely unexplored as drug targets because essential genes are not experimentally amenable to conventional gene deletion and virulence studies. Using tetracycline-regulatable promoter-based conditional mutants, we investigated a murine model of candidiasis in which repressing essential genes in the host was achieved. By adding doxycycline to the drinking water starting 3 days prior to (dox − 3D) or 2 days post (dox þ 2D) infection, the phenotypic consequences of temporal gene inactivation were assessed by monitoring animal survival and fungal burden in prophylaxis and acute infection settings. Of 177 selected conditional shutoff strains tested, the virulence of 102 was blocked under both repressing conditions, suggesting that the corresponding genes are essential for growth and survival in a murine host across early and established infection periods. Among these genes were those previously identified as antifungal drug targets (i.e., FKS1, ERG1, and ERG11), verifying that this methodology can be used to validate potential new targets. We also identify genes either conditionally essential or dispensable for in vitro growth but required for survival and virulence, including those in late stage ergosterol synthesis, or early steps in fatty acid or riboflavin biosynthesis. This study evaluates the role of essential genes with respect to pathogen virulence in a large-scale, systems biology context, and provides a general method for gene target validation and for uncovering unexpected antimicrobial targets.animal model | antifungal target | conditional expression | systemic candidiasis | virulence factor

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Mechanism of β ₂ AR regulation by an intracellular positive allosteric modulator

Liu

Masoudi

Kahsai

et al. 2019

Science

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Drugs targeting the orthosteric, primary binding site of G-protein coupled receptors are the most common therapeutics. Allosteric binding sites, elsewhere on the receptors, are less well-defined, and so less exploited clinically. We report the crystal structure of the prototypic beta-2 adrenergic receptor in complex with an orthosteric agonist and Compound-6FA, a positive allosteric modulator of this receptor. It binds on the receptor’s inner surface in a pocket created by intracellular loop 2 and transmembrane segments 3 and 4, stabilizing the loop in an alpha helical conformation required to engage the G-protein. Structural comparison explains the selectivity of the compound for beta-2 over the beta-1 adrenergic receptor. Diversity in location, mechanism, and selectivity of allosteric ligands provides potential to expand the range of receptor drugs.

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Lin Huang

GPCR-G Protein-β-Arrestin Super-Complex Mediates Sustained G Protein Signaling

Pathway analysis of Candida albicans survival and virulence determinants in a murine infection model

Mechanism of β ₂ AR regulation by an intracellular positive allosteric modulator

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Lin Huang

GPCR-G Protein-β-Arrestin Super-Complex Mediates Sustained G Protein Signaling

Pathway analysis of Candida albicans survival and virulence determinants in a murine infection model

Mechanism of β 2 AR regulation by an intracellular positive allosteric modulator

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Product

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Mechanism of β ₂ AR regulation by an intracellular positive allosteric modulator