2024-03-28 ミュンヘン大学(LMU)
<関連情報>
- https://www.lmu.de/en/newsroom/news-overview/news/new-synapse-type-discovered-by-spatial-proteomics.html
- https://www.cell.com/cell/fulltext/S0092-8674(24)00248-4
単一タンパク質の分解能でニューロンの空間プロテオミクスを行う Spatial proteomics in neurons at single-protein resolution
Eduard M. Unterauer,Sayedali Shetab Boushehri,Kristina Jevdokimenko,…,Felipe Opazo,Eugenio F. Fornasiero,Ralf Jungmann
Cell Published:March 28, 2024
DOI:https://doi.org/10.1016/j.cell.2024.02.045
Highlights
•Development of SUM-PAINT enables high-throughput DNA-PAINT multiplexing
•30-plex, 3D neuron atlas at single-protein resolution
•AI-guided analysis enables evaluation of high-dimensional SUM-PAINT datasets
•Discovery of a new synapse subtype characterized by VGlut1+ and Gephyrin+
Summary
To understand biological processes, it is necessary to reveal the molecular heterogeneity of cells by gaining access to the location and interaction of all biomolecules. Significant advances were achieved by super-resolution microscopy, but such methods are still far from reaching the multiplexing capacity of proteomics. Here, we introduce secondary label-based unlimited multiplexed DNA-PAINT (SUM-PAINT), a high-throughput imaging method that is capable of achieving virtually unlimited multiplexing at better than 15 nm resolution. Using SUM-PAINT, we generated 30-plex single-molecule resolved datasets in neurons and adapted omics-inspired analysis for data exploration. This allowed us to reveal the complexity of synaptic heterogeneity, leading to the discovery of a distinct synapse type. We not only provide a resource for researchers, but also an integrated acquisition and analysis workflow for comprehensive spatial proteomics at single-protein resolution.
Graphical abstract
