Abstract
The precise control of cytokine production by innate lymphoid cells (ILCs) and their T cell adaptive system counterparts is critical to mounting a proper host defense immune response without inducing collateral damage and autoimmunity. Unlike T cells that differentiate into functionally divergent subsets upon antigen recognition, ILCs are developmentally programmed to rapidly respond to environmental signals in a polarized manner, without the need of T cell receptor (TCR) signaling. The specification of cytokine production relies on dynamic regulation of cis-regulatory elements that involve multi-dimensional epigenetic mechanisms, including DNA methylation, transcription factor binding, histone modification and DNA-DNA interactions that form chromatin loops. How these different layers of gene regulation coordinate with each other to fine tune cytokine production, and whether ILCs and their T cell analogs utilize the same regulatory strategy, remain largely unknown. Herein, we review the molecular mechanisms that underlie cell identity and functionality of helper T cells and ILCs, focusing on networks of transcription factors and cis-regulatory elements. We discuss how higher-order chromatin architecture orchestrates these components to construct lineage- and state-specific regulomes that support ordered immunoregulation.
Highlights
The precise control of cytokine production by innate lymphoid cells (ILCs) and their T cell adaptive system counterparts is critical to mounting a proper host defense immune response without inducing collateral damage and autoimmunity
The specification of cytokine production relies on dynamic regulation of cis-regulatory elements that involve multidimensional epigenetic mechanisms, including DNA methylation, transcription factor binding, histone modification and DNA-DNA interactions that form chromatin loops
Several fundamental questions remain: how are nuclear compartmentalization and phase separation altered during lymphocyte development and activation? How do Lineage-Determining Transcription Factor (LDTF) and other co-activators developmentally shape and maintain immune cell regulomes? How do divergent chromatin landscapes respond to distinct pathogen invasion? What are the roles of Signal-Regulated Transcription Factor (SRTF) in the redistribution of transcriptional apparatus to mount an adequate immune response? How do super-enhancers coordinate different transcription factor (TF) and co-activators in the 3D space to direct final transcriptional output?
Summary
The precise control of cytokine production by innate lymphoid cells (ILCs) and their T cell adaptive system counterparts is critical to mounting a proper host defense immune response without inducing collateral damage and autoimmunity. The specification of cytokine production relies on dynamic regulation of cis-regulatory elements that involve multidimensional epigenetic mechanisms, including DNA methylation, transcription factor binding, histone modification and DNA-DNA interactions that form chromatin loops.
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