NFκB dynamics determine the stimulus-specificity of epigenomic reprogramming in macrophages

Autor: Brooks Taylor, Katherine M. Sheu, Alexander Hoffmann, Roberto Spreafico, Adewunmi Adelaja, Quen J. Cheng, Sho Ohta
Jazyk: angličtina
Rok vydání: 2020
Předmět:
DOI: 10.1101/2020.02.18.954602
Popis: SummaryThe epigenome defines the cell type, but also shows plasticity that enables cells to tune their gene expression potential to the context of extracellular cues. This is evident in immune sentinel cells such as macrophages, which can respond to pathogens and cytokines with phenotypic shifts that are driven by epigenomic reprogramming1. Recent studies indicate that this reprogramming arises from the activity of transcription factors such as nuclear factor kappa-light-chain-enhancer of activated B cells (NFκB), which binds not only to available enhancers but may produce de novo enhancers in previously silent areas of the genome2. Here, we show that NFκB reprograms the macrophage epigenome in a stimulus-specific manner, in response only to a subset of pathogen-derived stimuli. The basis for these surprising differences lies in the stimulus-specific temporal dynamics of NFκB activity. Testing predictions of a mathematical model of nucleosome interactions, we demonstrate through live cell imaging and genetic perturbations that NFκB promotes open chromatin and formation of de novo enhancers most strongly when its activity is non-oscillatory. These de novo enhancers result in the activation of additional response genes. Our study demonstrates that the temporal dynamics of NFκB activity, which encode ligand identity3, can be decoded by the epigenome through de novo enhancer formation. We propose a mechanistic paradigm in which the temporal dynamics of transcription factors are a key determinant of their capacity to control epigenomic reprogramming, thus enabling the formation of stimulus-specific memory in innate immune sentinel cells.
Databáze: OpenAIRE