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TNFR1 mediates heterogeneity in single-cell NF-κB activation

Chieh-Teng Cheng, Jye‐Chian Hsiao, Alexander Hoffmann, Hsiung‐Lin Tu

2024iScience10 citationsDOIOpen Access PDF

Abstract

Nuclear factor kappa B (NF-κB) is a key regulator in immune signaling and is known to exhibit a digital activation pattern. Yet the molecular basis underlying the heterogeneity in NF-κB activation at single-cell level is not entirely understood. Here, we show that NF-κB activation in single cells is largely regulated by intrinsic differences at the receptor level. Using the genome editing and time-lapse imaging, we directly characterize endogenous TNFR1 dynamics and NF-κB activation from the same single cells. Total internal reflection fluorescence (TIRF) microscopy shows that endogenous TNFR1 forms pre-ligand clusters in the resting cells. Upon tumor necrosis factor (TNF) stimulation, the diffusion coefficient of membrane TNFR1 was significantly decreased and a substantial level of TNFR1 undergoes oligomerization to form trimers and hexamers. Moreover, multi-color cell imaging reveals that both digital and graded information processing regulate NF-κB activation across different TNFR1 expression levels. Our results indicate that single-cell NF-κB activation potential strongly correlates with its TNFR1 characteristics.

Topics & Concepts

Total internal reflection fluorescence microscopeCell biologyTumor necrosis factor receptor 1ChemistrySingle-cell analysisBiophysicsTumor necrosis factor alphaEndogenyReceptorStimulationCellSignal transductionRegulatorBiologyBiochemistryImmunologyMembraneNeuroscienceGeneTumor necrosis factor receptorImmune Response and InflammationT-cell and B-cell Immunologyinterferon and immune responses