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A light-gated transcriptional recorder for detecting cell-cell contacts

Kelvin F Cho, Shawn M Gillespie, Nicholas A Kalogriopoulos, Michael A Quezada, Martin Jacko, Michelle Monje, Alice Y Ting

2022eLife13 citationsDOIOpen Access PDF

Abstract

Technologies for detecting cell-cell contacts are powerful tools for studying a wide range of biological processes, from neuronal signaling to cancer-immune interactions within the tumor microenvironment. Here, we report TRACC (Transcriptional Readout Activated by Cell-cell Contacts), a GPCR-based transcriptional recorder of cellular contacts, which converts contact events into stable transgene expression. TRACC is derived from our previous protein-protein interaction recorders, SPARK (Kim et al., 2017) and SPARK2 (Kim et al., 2019), reported in this journal. TRACC incorporates light gating via the light-oxygen-voltage-sensing (LOV) domain, which provides user-defined temporal control of tool activation and reduces background. We show that TRACC detects cell-cell contacts with high specificity and sensitivity in mammalian cell culture and that it can be used to interrogate interactions between neurons and glioma, a form of brain cancer.

Topics & Concepts

GatingNeuroscienceTransgeneSPARK (programming language)Sensitivity (control systems)Computer scienceBiologySpike (software development)Computational biologySignal transductionPremovement neuronal activityCell cultureTranscription (linguistics)Cell biologyTranscriptional activityHEK 293 cellsCellChemistryMammalian brainTransfectionNerve netTranscriptional regulationNeuronCell signalingBiotin and Related StudiesCellular transport and secretionAdvanced Fluorescence Microscopy Techniques
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