Sara Polletti

First name
Sara
Last name
Polletti
Year of Study
Thesis Title
Reorganization of the macrophage epigenome during sustained stimulation
Thesis Abstract
The chromatin of cells whose main function is to sense and react to environmental inputs, such as macrophages and other innate immune cells, undergoes rapid modifications in response to microenvironmental signals and provides general paradigms of how epigenomes are dynamically reorganized in a changing environment. A short exposure of macrophages to endotoxin (lipopolysaccharide, LPS) strongly activates transcription of hundreds of inflammatory genes. Conversely, a sustained stimulation results in a state of hypo-responsiveness to a subsequent microbial stimulation, which is commonly referred to as endotoxin tolerance. We used nascent RNA-seq and ChIP-seq to characterize genes and cis-regulatory regions that are differentially activated in unperturbed, LPS-stimulated and LPS-tolerized primary mouse bone marrow-derived macrophages (BMDM). We characterized promoters and enhancers by mapping the methylation and acetylation states of associated histones and we identified differentially expressed genes by nascent RNA profiling. We clustered genes into different subsets based on their activity profiles and a detailed analysis of these datasets allowed us to dissect the mechanisms underlying functional switches in the macrophage gene expression program during sustained inflammation. In particular, IRF7 played a key role in the transcriptional regulation of sustained genes as indicated by the impact of its depletion. Transient genes were mainly regulated by the Early Growth Response (EGR) and Nuclear factor-κB (NFkB) family transcription factors, which are both downstream effectors of the TLR4 signaling pathway. Biochemical analysis of the key players of this signaling cascade revealed an almost complete exhaustion of the pathway after sustained LPS treatment. These data suggest that the failure to reactivate those transcription factors that areinvolved in the transcriptional expression of transient genes is likely due to the hyporesponsive state of the TLR4 signaling pathway in cells exposed to a sustained LPS stimulation.
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