Abstract
The promoters of immediate early genes (IEGs) are rapidly activated in response to an external stimulus. These genes, also known as primary response genes, have been identified in a range of cell types, under diverse extracellular signals and using varying experimental protocols. Whereas genomic dissection on a case-by-case basis has not resulted in a comprehensive catalogue of IEGs, a rigorous meta-analysis of eight genome-wide FANTOM5 CAGE (cap analysis of gene expression) time course datasets reveals successive waves of promoter activation in IEGs, recapitulating known relationships between cell types and stimuli: we obtain a set of 57 (42 protein-coding) candidate IEGs possessing promoters that consistently drive a rapid but transient increase in expression over time. These genes show significant enrichment for known IEGs reported previously, pathways associated with the immediate early response, and include a number of non-coding RNAs with roles in proliferation and differentiation. Surprisingly, we also find strong conservation of the ordering of activation for these genes, such that 77 pairwise promoter activation orderings are conserved. Using the leverage of comprehensive CAGE time series data across cell types, we also document the extensive alternative promoter usage by such genes, which is likely to have been a barrier to their discovery until now. The common activation ordering of the core set of early-responding genes we identify may indicate conserved underlying regulatory mechanisms. By contrast, the considerably larger number of transiently activated genes that are specific to each cell type and stimulus illustrates the breadth of the primary response.
Highlights
Human cells respond to a broad range of extracellular stimuli with a characteristic burst of transcription within minutes at many sites across the genome, known as& 2018 The Authors
We considered eight densely sampled, and well-replicated, FANTOM5 cap analysis of gene expression (CAGE) time course datasets obtained following diverse stimuli: calcification in an osteosarcoma cell line in response to osteocalcin (SAOS2_OST), differentiation of adipose-derived primary mesenchymal stem cells in response to a drug mixture (3-isobutyl-1-methylxanthine, dexamethasone and rosiglitazone) (PMSC_MIX), differentiation of primary lymphatic endothelial cells in response to VEGF (PEC_VEGF), MCF7 breast cancer cell line responses to EGF1 (MCF7_EGF1) and to HRG (MCF7_HRG), primary aortic smooth muscle cells response to IL1b (PAC_IL1B) and FGF2 (PAC_FGF2), and primary monocyte-derived macrophage cells activation in response to LPS (PMDM_LPS)
We included a variety of primary and cell line samples, tracking responses to a range of stimuli: growth factors, hormones, drugs, pro-inflammatory cytokines and bacterial endotoxin. These diverse data provided a potent resource to discover core features of the immediate early response (IER) conserved across cell types and stimuli
Summary
License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited. The earliest events in the IER involve the activation of the promoters of a particular set of genes, known as immediate early genes (IEGs). The promoters of IEGs are activated rapidly, and their activation is transient in normal cells [1]. IEGs are often dysregulated in cancers where they can become continuously activated; some of the beststudied IEGs are known oncogenes [2]. The expression of the FOS proto-oncogene normally peaks within 60 min of a stimulus and subsides after 90 min [3], in contrast with its continuous overexpression in many cancers
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