BACKGROUND

During atherogenesis, macrophages turn into foam cells by engulfing lipids present within the atheroma plaques. The shift of foam cells toward proinflammatory or anti-inflammatory phenotypes, a critical step in disease progression, is still poorly understood. LXRs (liver X receptors) play a pivotal role in the macrophage response to lipid, promoting the expression of key genes of cholesterol efflux, mitigating intracellular cholesterol accumulation. LXRs also exert balanced actions on inflammation in human macrophages, displaying both proinflammatory and anti-inflammatory effects.

METHODS

Our study explored the role of LXRs in the functional response of human macrophage to lipid-rich plaque environment. We used primary human macrophages treated with atheroma plaque extracts and assessed the impact of pharmacological LXR inhibition by GSK2033 on cholesterol homeostasis and inflammatory response. Ultimately, we evaluated macrophage and endothelial cell cross talk by assessing the impact of macrophage-conditioned supernatants on the human endothelial cell.

RESULTS

LXR inhibition by GSK2033 resulted in increased levels of cholesterol and oxysterols in human macrophages, alongside notable changes in the cholesterol ester profile. This was accompanied by heightened secretion of proinflammatory cytokines such as IL (interleukin)-6 and TNFα (tumor necrosis factor-α), despite a transcriptional repression of IL-1β. Conditioned media from GSK2033-treated macrophages more effectively activated ICAM-1 (intercellular adhesion molecule-1) and CCL2 (C-C motif ligand 2) expression in endothelial cells.

CONCLUSIONS

Our findings illustrate the intricate relationship between LXR function, cholesterol metabolism, and inflammation in human macrophages. While LXR is required for the proper handling of plaque lipids by macrophages, the differential regulation of IL-1β versus IL-6/TNFα secretion by LXRs could be challenging for potential pharmacological interventions.