Potential Contributions of Human Endogenous Retroviruses in Innate Immune Memory.

Abstract

The phenomenon wherein innate immune cells adopt long-term inflammatory phenotypes following the first stimuli is named trained immunity and can improve host defense against infections. Transcriptional and epigenetic reprogramming are critical mechanisms of trained immunity; however, the regulatory networks are not entirely clear at present. The human endogenous retroviruses (HERVs) provide large amounts of transcriptional regulators in the regulatory pathways. In this study, we analyzed published large omics data to explore the roles of such "dark matter" of the human genome in trained and tolerant macrophages. We collected 80 RNA sequencing data and 62 sequencing data to detect histone modifications and active regulatory regions from nine published studies on trained and tolerant macrophages. By analyzing the characteristics of transcription and epigenetic modification of HERVs, as well as their association with gene expression, we found that 15.3% of HERVs were transcribed nonrandomly from noncoding regions and enriched in specific HERV families and specific chromosomes, such as chromosomes 11, 15, 17, and 19, and they were highly related with the expression of adjacent genes. We found that 295 differentially expressed HERVs are located in 50-kbp flanking regions of 142 differentially expressed genes. We found epigenetic changes of these HERVs and that overlap with predicted enhancers and identified 35 enhancer-like HERVs. The related genes were highly involved in the activation and inflammatory responses, such as the TLR pathway. Other pathways including phosphoinositide signaling and transport of folate and K+ might be also related with trained immunity, which require further study. These results demonstrated that HERVs might play important roles in trained immunity.