Hella Kenneweg scite author profile

The spatiotemporal organization of cytokine receptors in the plasma membrane is still debated with models ranging from ligand-independent receptor pre-dimerization to ligand-induced receptor dimerization occurring only after receptor uptake into endosomes. Here, we explore the molecular and cellular determinants governing the assembly of the type II interleukin-4 receptor, taking advantage of various agonists binding the receptor subunits with different affinities and rate constants. Quantitative kinetic studies using artificial membranes confirm that receptor dimerization is governed by the two-dimensional ligand–receptor interactions and identify a critical role of the transmembrane domain in receptor dimerization. Single molecule localization microscopy at physiological cell surface expression levels, however, reveals efficient ligand-induced receptor dimerization by all ligands, largely independent of receptor binding affinities, in line with the similar STAT6 activation potencies observed for all IL-4 variants. Detailed spatiotemporal analyses suggest that kinetic trapping of receptor dimers in actin-dependent microcompartments sustains robust receptor dimerization and signalling.

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Four-Color Single-Molecule Imaging with Engineered Tags Resolves the Molecular Architecture of Signaling Complexes in the Plasma Membrane

Bellón

Birkholz

Richter

et al. 2021

SSRN Journal

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Hella Kenneweg

The photosystem II-associated Cah3 in Chlamydomonas enhances the O2 evolution rate by proton removal

Four-color single-molecule imaging with engineered tags resolves the molecular architecture of signaling complexes in the plasma membrane

Ligand-induced type II interleukin-4 receptor dimers are sustained by rapid re-association within plasma membrane microcompartments

Four-Color Single-Molecule Imaging with Engineered Tags Resolves the Molecular Architecture of Signaling Complexes in the Plasma Membrane

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