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NanoPlex: a universal strategy for fluorescence microscopy multiplexing using nanobodies with erasable signals

Nikolaos Mougios, Elena R. Cotroneo, Nils Imse, Jonas Setzke, Silvio O. Rizzoli, Nadja A. Simeth, Roman Tsukanov, Felipe Opazo

2024Nature Communications22 citationsDOIOpen Access PDF

Abstract

Fluorescence microscopy has long been a transformative technique in biological sciences. Nevertheless, most implementations are limited to a few targets, which have been revealed using primary antibodies and fluorescently conjugated secondary antibodies. Super-resolution techniques such as Exchange-PAINT and, more recently, SUM-PAINT have increased multiplexing capabilities, but they require specialized equipment, software, and knowledge. To enable multiplexing for any imaging technique in any laboratory, we developed NanoPlex, a streamlined method based on conventional antibodies revealed by engineered secondary nanobodies that allow the selective removal of fluorescence signals. We develop three complementary signal removal strategies: OptoPlex (light-induced), EnzyPlex (enzymatic), and ChemiPlex (chemical). We showcase NanoPlex reaching 21 targets for 3D confocal analyses and 5-8 targets for dSTORM and STED super-resolution imaging. NanoPlex has the potential to revolutionize multi-target fluorescent imaging methods, potentially redefining the multiplexing capabilities of antibody-based assays.

Topics & Concepts

Fluorescence microscopeMultiplexingMicroscopyNanotechnologyFluorescenceComputer scienceBiophysicsComputational biologyCell biologyChemistryBiologyPhysicsMaterials scienceOpticsTelecommunicationsMonoclonal and Polyclonal Antibodies ResearchAdvanced Fluorescence Microscopy TechniquesLipid Membrane Structure and Behavior