Light-mediated discovery of surfaceome nanoscale organization and intercellular receptor interaction networks

Author:

Müller MaikORCID,Gräbnitz Fabienne,Barandun Niculò,Shen YangORCID,Wendt FabianORCID,Steiner Sebastian N.ORCID,Severin YannikORCID,Vetterli Stefan U.ORCID,Mondal MilonORCID,Prudent James R.ORCID,Hofmann RaphaelORCID,van Oostrum MarcORCID,Sarott Roman C.ORCID,Nesvizhskii Alexey I.ORCID,Carreira Erick M.ORCID,Bode Jeffrey W.ORCID,Snijder BerendORCID,Robinson John A.ORCID,Loessner Martin J.ORCID,Oxenius AnnetteORCID,Wollscheid BerndORCID

Abstract

AbstractThe molecular nanoscale organization of the surfaceome is a fundamental regulator of cellular signaling in health and disease. Technologies for mapping the spatial relationships of cell surface receptors and their extracellular signaling synapses would unlock theranostic opportunities to target protein communities and the possibility to engineer extracellular signaling. Here, we develop an optoproteomic technology termed LUX-MS that enables the targeted elucidation of acute protein interactions on and in between living cells using light-controlled singlet oxygen generators (SOG). By using SOG-coupled antibodies, small molecule drugs, biologics and intact viral particles, we demonstrate the ability of LUX-MS to decode ligand receptor interactions across organisms and to discover surfaceome receptor nanoscale organization with direct implications for drug action. Furthermore, by coupling SOG to antigens we achieved light-controlled molecular mapping of intercellular signaling within functional immune synapses between antigen-presenting cells and CD8+ T cells providing insights into T cell activation with spatiotemporal specificity. LUX-MS based decoding of surfaceome signaling architectures thereby provides a molecular framework for the rational development of theranostic strategies.

Funder

Eidgenössische Technische Hochschule Zürich

Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

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