A Versatile Toolbox for Nanoscale Interrogation of Multiprotein Assemblies inside Living Cells

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Abstract

Quantitative analysis of protein interactions and the formation of higher-order assemblies in living cells remains a major challenge. Here, we introduce a versatile nanopatterning toolbox that employs capillary nanostamping of functionalized polymers to generate high contrast bio-functionalized nanodot arrays (bNDAs) with diameters below 500 nm. By leveraging orthogonal adaptor designs, we achieve robust immobilization of diverse fluorescent protein fusions, enabling simultaneous and selective recruitment of cytosolic and membrane-associated proteins into discrete nanodomains. This approach of forming cytosolic nanodot arrays (cNDAs) provides striking capabilities for dissecting cytosolic multiprotein complexes with molecular precision. Focusing on the assembly of the multimeric myddosome complex, we demonstrate density-dependent recruitment and co-localization of the core components MyD88, IRAK4, IRAK1, and TRAF6 within cNDAs. Super-resolution microscopy reveals distinct nanoscale clustering of MyD88 and IRAK4 and uncovers the ultrastructural architecture of IRAK4 oligomers. These analyses highlight the spatial organization and hierarchical assembly of the myddosome at the nanoscale in the native cellular context. Collectively, our findings establish cNDAs as a powerful platform for reconstituting and analyzing intricate multiprotein assemblies in live cells, offering new opportunities for elucidating the principles of complex protein networks.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00