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DNA origami patterning of synthetic T cell receptors reveals spatial control of the sensitivity and kinetics of signal activation

Rui Dong, Tural Aksel, Waipan Chan, Ronald N. Germain, Ronald D. Vale, Shawn M. Douglas

2021Proceedings of the National Academy of Sciences78 citationsDOIOpen Access PDF

Abstract

Receptor clustering plays a key role in triggering cellular activation, but the relationship between the spatial configuration of clusters and the elicitation of downstream intracellular signals remains poorly understood. We developed a DNA-origami-based system that is easily adaptable to other cellular systems and enables rich interrogation of responses to a variety of spatially defined inputs. Using a chimeric antigen receptor (CAR) T cell model system with relevance to cancer therapy, we studied signaling dynamics at single-cell resolution. We found that the spatial arrangement of receptors determines the ligand density threshold for triggering and encodes the temporal kinetics of signaling activities. We also showed that signaling sensitivity of a small cluster of high-affinity ligands is enhanced when surrounded by nonstimulating low-affinity ligands. Our results suggest that cells measure spatial arrangements of ligands, translate that information into distinct signaling dynamics, and provide insights into engineering immunotherapies.

Topics & Concepts

DNA origamiIntracellularSignal transductionLigand (biochemistry)Cell biologyTransduction (biophysics)ReceptorBiologyBiophysicsNanotechnologyDNAChemistryComputational biologyMaterials scienceBiochemistryAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryImmunotherapy and Immune Responses
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