The major biological role of red blood cells is to carry oxygen to the tissues in the body. However, another role of the erythroid cell is to participate in the immune response. Mature erythrocytes from chickens express Toll-like receptors and several cytokines in response to stimulation of the immune system. We previously reported the application of a biochemical fractionation protocol to isolate highly enriched transcribed DNA from polychromatic erythrocytes from chickens. In conjunction with next-generation DNA, RNA sequencing, chromatin immunoprecipitation-DNA sequencing, and formaldehyde-assisted isolation of regulatory elements (FAIRE) sequencing, we identified the active chromosomal compartments and determined their structural signatures in relation to expression levels. Here, we present the detailed chromatin characteristics of erythroid genes participating in the innate immune response. Our studies revealed an atypical chromatin structure for several genes coding for Toll-like receptors, interleukins, and interferon regulatory factors. The body of these genes had nucleosome-free regions intermingled with nucleosomes modified with H3K4me3 and H3K27ac, suggesting a dynamic unstable chromatin structure. We further show that human genes involved in cell identity have gene bodies with the same chromatin-instability features as the chicken polychromatic erythrocyte genes participating in the innate immune response.
Keywords: active histone marks; chicken erythrocyte; chromatine soluble dans le sel; innate immune response; marques d’histones actives; nucleosome-free regions; régions sans nucléosomes; réponse immunitaire innée; salt soluble chromatin; érythrocytes de poulet.