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Pathway selectivity in Frizzleds is achieved by conserved micro-switches defining pathway-determining, active conformations

Lukas Grätz, Maria Kowalski-Jahn, Magdalena M. Scharf, Paweł Kozielewicz, Michael Jahn, Julien Bous, Nevin A. Lambert, David E. Gloriam, Gunnar Schulte

2023Nature Communications25 citationsDOIOpen Access PDF

Abstract

Abstract The class Frizzled of G protein-coupled receptors (GPCRs), consisting of ten Frizzled (FZD 1-10 ) paralogs and Smoothened, remains one of the most enigmatic GPCR families. This class mediates signaling predominantly through Disheveled (DVL) or heterotrimeric G proteins. However, the mechanisms underlying pathway selection are elusive. Here we employ a structure-driven mutagenesis approach in combination with an extensive panel of functional signaling readouts to investigate the importance of conserved state-stabilizing residues in FZD 5 for signal specification. Similar data were obtained for FZD 4 and FZD 10 suggesting that our findings can be extrapolated to other members of the FZD family. Comparative molecular dynamics simulations of wild type and selected FZD 5 mutants further support the concept that distinct conformational changes in FZDs specify the signal outcome. In conclusion, we find that FZD 5 and FZDs in general prefer coupling to DVL rather than heterotrimeric G proteins and that distinct active state micro-switches in the receptor are essential for pathway selection arguing for conformational changes in the receptor protein defining transducer selectivity.

Topics & Concepts

Heterotrimeric G proteinFrizzledG protein-coupled receptorG proteinBiologyMutagenesisSmoothenedSignal transductionComputational biologyMutantGeneticsGeneHedgehog signaling pathwayWnt signaling pathwayReceptor Mechanisms and SignalingProtein Kinase Regulation and GTPase SignalingMass Spectrometry Techniques and Applications
Pathway selectivity in Frizzleds is achieved by conserved micro-switches defining pathway-determining, active conformations | Litcius