Accumulation of cholesterol suppresses oxidative phosphorylation and altered responses to inflammatory stimuli of macrophages

Highlights

• Cholesterol loaded macrophages exhibited decreased oxidative phosphorylation and become more glycolytic.

• Accumulation of cholesterol in macrophages suppressed the generation of ROS/RNS.

• Accumulation of cholesterol altered macrophage responses to pro-inflammatory or anti-inflammatory stimuli.

Abstract

Hypercholesterolemia induces intracellular accumulation of cholesterol in macrophages and other immune cells, causing immunological dysfunctions. On cellular levels, cholesterol enrichment might lead to mitochondrial metabolic reprogramming and change macrophage functions. Additionally, as cholesterol is permeable to the plasma membrane and might integrate into the membranous organelles, such as endoplasmic reticulum or mitochondria, cholesterol enrichment might change the functions or properties of these organelles, and ultimately alters the cellular functions. In this study, we investigate the mitochondrial alterations and intracellular oxidative stress induced by accumulation of cholesterol in the macrophages, and the possible immunological impacts caused by these alterations. Macrophage cells RAW264.7 were treated with cholesterol to induce intracellular accumulation of cholesterol, which further triggered the reduced production of reactive oxygen/nitrogen species, as well as decrease of oxidative phosphorylation. Basal respiration rate, ATP production and non-mitochondrial oxygen consumption are all suppressed. In contrast, glycolysis remained unaltered in this cholesterol-enriched condition. Previous studies demonstrated that metabolic profiles are associated with macrophage polarization. We further verified whether this metabolic reprogramming influences the macrophage responses to pro-inflammatory or anti-inflammatory stimuli. Our results showed the changes of transcriptional regulations in both pro-inflammatory and anti-inflammatory genes, but not specific toward M1 or M2 polarization. Collectively, the accumulation of cholesterol induced mitochondrial metabolic reprogramming and suppressed the production of oxidative stress, and induced the alterations of macrophage functions.