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High-throughput spatiotemporal monitoring of single-cell secretions via plasmonic microwell arrays

Saeid Ansaryan, Yen‐Cheng Liu, Xiaokang Li, Augoustina Maria Economou, Christiane S. Eberhardt, Camilla Jandus, Hatice Altug

2023Nature Biomedical Engineering78 citationsDOIOpen Access PDF

Abstract

Methods for the analysis of cell secretions at the single-cell level only provide semiquantitative endpoint readouts. Here we describe a microwell array for the real-time spatiotemporal monitoring of extracellular secretions from hundreds of single cells in parallel. The microwell array incorporates a gold substrate with arrays of nanometric holes functionalized with receptors for a specific analyte, and is illuminated with light spectrally overlapping with the device's spectrum of extraordinary optical transmission. Spectral shifts in surface plasmon resonance resulting from analyte-receptor bindings around a secreting cell are recorded by a camera as variations in the intensity of the transmitted light while machine-learning-assisted cell tracking eliminates the influence of cell movements. We used the microwell array to characterize the antibody-secretion profiles of hybridoma cells and of a rare subset of antibody-secreting cells sorted from human donor peripheral blood mononuclear cells. High-throughput measurements of spatiotemporal secretory profiles at the single-cell level will aid the study of the physiological mechanisms governing protein secretion.

Topics & Concepts

AnalyteSingle-cell analysisSurface plasmon resonanceCellSecretionChemistryPlasmonSubstrate (aquarium)BiophysicsMaterials scienceNanotechnologyOptoelectronicsNanoparticleBiologyBiochemistryChromatographyEcologyAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesAdvanced Biosensing Techniques and Applications
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