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

• 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. Signaling pathway selectivity downstream of GPCRs is not fully understood. Here, authors perform functional analysis of Frizzled mutants to uncover state-stabilizing residues or 'micro-switches' mediating selectivity towards Disheveled over G proteins.

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NATURVETENSKAP  -- Biologi -- Cellbiologi (hsv//swe)

NATURAL SCIENCES  -- Biological Sciences -- Cell Biology (hsv//eng)

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