Atherosclerosis is complex chronic disease characterized by intimal cholesterol accumulation and vascular inflammation. There is a well-established relationship of hypercholesterolemia and inflammation with atherosclerosis. However, the link between inflammation and cholesterol is not completely understood. Myeloid cells, in particular, monocytes, macrophages, and neutrophils play essential roles in the pathogenesis of atherosclerotic cardiovascular disease. It is well known that macrophages accumulate cholesterol, forming foam cells, which drive atherosclerosis-associated inflammation. However, the interaction between cholesterol and neutrophils remains poorly defined-an important gap in the literature given that neutrophils represent up to 70% of total circulating leukocytes in humans. Elevated levels of biomarkers of neutrophil activation (myeloperoxidase and neutrophil extracellular traps) and higher absolute neutrophil counts are both associated with increased rates of cardiovascular events. Neutrophils contain the necessary machinery to uptake, synthesize, efflux and esterify cholesterol; yet, the functional consequence of dysregulated cholesterol homeostasis on neutrophil activity remains poorly defined. Preclinical animal data suggest a direct link between cholesterol metabolism and hematopoiesis, although current evidence in humans has been unable to corroborate such findings. This review will explore the impact of impaired cholesterol homeostasis neutrophils and draw focus on the discordant data from animal models and atherosclerotic disease in humans.
Keywords: atherosclerosis; biomarker; homeostasis; monocyte; neutrophils.