Lipids and lipoproteins in the interstitial tissue fluid regulate the formation of dysfunctional tissue-resident macrophages: Implications for atherogenic, tumorigenic, and obesogenic processes.

An inflammatory and lipid-enriched tissue microenvironment is a common characteristic of the extracellular niches of affected tissues in atherosclerosis, cancer, and obesity. These respective interstitial environments appear to be induced by infiltration of plasma lipids and early local recruitment of monocyte-derived macrophages. In the tissue niches, the macrophages display remarkable phenotypic and functional plasticity and exert multifaceted roles in tissue homeostasis. Multiple local signaling events contribute to the phenotypic polarization of the tissue-resident macrophages into M1-like, M2-like, and multiple mixed subpopulations. This study aims to review and compare the roles of lipids and lipoproteins in shaping the inflammatory and lipid-enriched microenvironments of atherosclerotic arterial intima, malignant tumors, and obese adipose tissue, so generating dysfunctional macrophages. Circulating lipoprotein-bound lipids and albumin-bound fatty acids can cross the vascular endothelial barrier and infiltrate the interstitial fluids, resulting in variable levels of plasma-derived lipids, notably low-density lipoproteins (LDL), high-density lipoproteins (HDL), and locally generated small lipid-poor HDL species (preβ-HDL). Whilst LDL particles mainly supply liver-derived cholesterol to the cells of peripheral tissues, HDL particles can promote the reverse transfer of cellular cholesterol into the circulation and ultimately via the liver to the gut for its fecal excretion. Thus, the LDL/HDL ratio in the interstitial fluids can either promote or prevent cholesterol accumulation in the tissue-resident macrophages. Various types of peripheral cells modify interstitial LDL and HDL particles by oxidation, proteolysis, lipolysis, aggregation, or fusion, rendering them dysfunctional. By engulfing excessive amounts of extracellular lipids and modified LDL particles in such lipid-rich microenvironments, macrophages can become dysfunctional, a typical example being the atherosclerotic arterial intima. Similarly, tissue microenvironments characteristic of several malignant tumors and the obese adipose tissue are rich in triglyceride (TG)-rich lipoproteins and free fatty acids, inducing accumulation of TG and glycerophospholipids in the intracellular lipid droplets of macrophages. The lipid-loaded macrophages are currently considered novel markers for diagnosis and selective therapeutic targets not only in the arterial intima but also in malignant tumors and obese adipose tissue. Together, the available data identify potential roles of lipids and lipoproteins present in the interstitial fluids of the atherosclerotic arterial intima, malignant tumors, and obese adipose tissue in the generation of distinct lipid-loaded macrophage subpopulations and suggest their contributory roles in the development and progression of atherosclerosis, cancer, and obesity, the three major health concerns worldwide.