Abstract WP162: Myelin Suppresses Macrophage Responses to Diverse Stimuli

Abstract

Introduction: In intracerebral hemorrhage (ICH), blood-derived macrophages initially contribute to a neurotoxic inflammatory response. Understanding the endogenous signals that control this response could help limit these effects. Uptake of myelin debris limits macrophage inflammatory cytokine production in response to LPS, possibly due to the cholesterol present in myelin. However, the pathways by which myelin suppresses macrophage responses and the broader impacts of myelin on macrophage phenotype are poorly understood. Methods and Results: RNA sequencing was used to examine impacts of myelin in diverse conditions. BMDMs were pretreated with myelin, cholesterol or T0901317, an agonist of the cholesterol-response transcription factor LXR. The cells were stimulated with Type I cytokines, Type II cytokines, and different TLR agonists to mimic the diverse stimuli encountered in the inflamed brain (Fig 1A). Myelin suppressed responses to all stimulations, as did T0901317. Cholesterol suppressed the response to LPS and had little effect on other stimulations, including the ICH-relevant alarmin S100A9 (Fig 2). Gene Ontology Enrichment showed that many of the inflammatory gene pathways suppressed by myelin were unique for each stimulation although lipid metabolism pathways were shared across stimulations. Conclusions: Myelin broadly limits macrophage responses to diverse stimulations, partially though not completely through cholesterol and activation of LXR. Cholesterol does not suppress the response to S100A9, suggesting that other components of myelin or activation of phagocytic receptors contribute to suppression of the macrophage response during ICH.