Chromatin landscape underpinning human dendritic cell heterogeneity
Leylek, R., Alcántara-Hernández, M., Granja, J. M.
Human dendritic cells (DCs) comprise subsets with distinct phenotypic and functional characteristics, but the transcriptional programs that dictate their identity remain elusive. Here, we analyze global chromatin accessibility profiles across resting and stimulated human DC subsets by means of the assay for transposase-accessible chromatin using sequencing (ATAC-seq). We uncover specific regions of chromatin accessibility for each subset and transcriptional regulators of DC function. By comparing plasmacytoid DC responses to IFN-I-producing and non-IFN-I-producing conditions, we identify genetic programs related to their function. Finally, by intersecting chromatin accessibility with genome-wide association studies, we recognize DC subset-specific enrichment of heritability in autoimmune diseases. Our results unravel the basis of human DC subset heterogeneity and provide a framework for their analysis in disease pathogenesis.
Keywords: ASDCs; ATAC-seq; AXL+ DCs; IFN-I; cDC1; cDC2; dendritic cells; human; monocytes; pDCs; plasmacytoid dendritic cells; tDCs; transitional dendritic cells.
Leylek, R., Alcántara-Hernández, M., Granja, J. M. "Chromatin landscape underpinning human dendritic cell heterogeneity" Cell Reports (2020): DOI: 10.1016/j.celrep.2020.108180