Hypoxia Converts Human Macrophages Into Triglyceride-Loaded Foam Cells

Abstract: Objectives-Atherosclerotic lesions have regions that are hypoxic. Because the lesion contains macrophages that are loaded with lipid, we investigated whether hypoxia can influence the accumulation of lipids in these cells. Methods and Results-Exposure of human macrophages to hypoxia for 24 hours resulted in an increased formation of cytosolic lipid droplets and an increased accumulation of triglycerides. Exposure of the macrophages to oxidized low-density lipoprotein (oxLDL) increased the accumulation of cytos… Show more

“…5C); however, both studies found increased lactate production (Fig. 6B) (56). We noted at least at the gene level that, relative to the less differentiated monocytes isolated straight from blood, glycolytic enzymes were up-regulated in MDM to some extent even in normoxic conditions (Figs.…”

“…One of the macrophage lineage populations examined above and that is widely used as an in vitro model for human macrophages, namely MDM, does not require an exogenous CSF for survival under aerobic conditions and therefore is not suitable to study any prosurvival activity of hypoxia (46,55,56). Others have found that hypoxia increased Glut1 mRNA levels in MDM and speculated that this change could be important for macrophage survival in hypoxic diseased tissue (54).…”

Hypoxia Prolongs Monocyte/Macrophage Survival and Enhanced Glycolysis Is Associated with Their Maturation under Aerobic Conditions

“…5C); however, both studies found increased lactate production (Fig. 6B) (56). We noted at least at the gene level that, relative to the less differentiated monocytes isolated straight from blood, glycolytic enzymes were up-regulated in MDM to some extent even in normoxic conditions (Figs.…”

“…One of the macrophage lineage populations examined above and that is widely used as an in vitro model for human macrophages, namely MDM, does not require an exogenous CSF for survival under aerobic conditions and therefore is not suitable to study any prosurvival activity of hypoxia (46,55,56). Others have found that hypoxia increased Glut1 mRNA levels in MDM and speculated that this change could be important for macrophage survival in hypoxic diseased tissue (54).…”

Hypoxia Prolongs Monocyte/Macrophage Survival and Enhanced Glycolysis Is Associated with Their Maturation under Aerobic Conditions

“…HIF-1 activates genes responsible for switching from oxidative to glycolytic metabolism such as the ones coding for glucose transporters, glycolytic enzymes, lactate dehydrogenase and pyruvate dehydrogenase kinase 1 (Majmundar et al, 2010). Furthermore, hypoxia has been shown to stimulate lipid storage and inhibit lipid catabolism in cultured cardiac myocytes and macrophages (Boström et al, 2006;Huss et al, 2001), but the involvement of HIFs in these processes was not investigated. More recent studies using transgenic mice have suggested that artificial or diet induced activation of liver HIF signalling can augment lipid accumulation by modifying hepatocyte lipid metabolism (Kim et al, 2006;Nath et al, 2011;Qu et al, 2011;Rankin et al, 2009).…”

Hypoxia causes triglyceride accumulation via HIF-1-mediated stimulation of lipin 1 expression

“…HIF-induced transcription promotes angiogenesis, erythropoiesis, metastasis and metabolic reprogramming, such as shifting cell metabolism from oxidative phosphorylation to glycolysis. HIF activation due to hypoxia or loss of VHL function also reprograms lipid metabolism leading to lipid accumulation (Huss et al, 2001;Boström et al, 2006;Rankin et al, 2009;Kucejova et al, 2011;Qu et al, 2011;Walter et al, 2014).…”

Molecular Mechanisms and Physiological Significance of Organelle Interactions and Cooperation