Abstract 3058: Cofilin 1 Mediates Fatty Acid-induced Foam Cell Formation And Inflammation In Mouse Bone Marrow-derived Macrophages

Abstract

Background: Macrophages contribute to the development of atherosclerosis, in part through the accumulation of lipid droplets and subsequent transformation into highly inflammatory, lipid laden foam cells. Our previous work suggested that the RAGE/DIAPH1 axis plays a key role in regulating lipid metabolism, as deletion of Diaph1 in hepatocytes reduced nuclear translocation of SREBP1 through the actin cytoskeleton. Cofilin 1 (CFL1) is an actin polymerization molecule which has also been linked to the nuclear translocation of SRBP1, as well as triglyceride synthesis through activation of phospholipase D1. In the aforementioned study by our group, Diaph1 deletion was found to increase the Serine 3 phosphorylation (i.e., inactivation) of Cfl1 . Hypothesis: Accordingly, we hypothesized that CFL1 plays a role in lipid droplet accumulation in macrophages, potentially increasing the risk of atherosclerotic development. Methods: To investigate its role in macrophage lipid handling, we silenced Cfl1 in bone marrow derived macrophages (BMDMs) extracted from male C57BL/6J mice, using silencing RNAs and scramble controls. BMDMs were treated with a mixture of fatty acids palmitate and oleate (250 uM). The effects of Cfl1 knockdown on lipid accumulation were assessed using immunohistochemical staining (Bodipy). Quantitative (q)PCR was used to interrogate the mechanisms underlying these effects, and their impact on inflammation. Results: Cfl1- silenced (75% knockdown shown by qPCR) vs. scramble cells exhibited a significant decrease in the ratio of Bodipy to DAPI % area (p=0.0001). By qPCR, compared to scramble controls, BMDMs subjected to silencing of Cfl1 and incubated with fatty acids (palmitate-oleate) displayed significantly lower mRNA expression of Cd36 (p=0.0018) ; Ppargc1a (p=0.004) , Il6 (p<0.0001), and Tnfa (p=0.013). Conclusions: Our results indicate that silencing of Cfl1 leads to a decrease in lipid accumulation and markers of inflammation in BMDMs. Collectively, our data suggest that the effects of Cfl1 silencing on lipid handling result from decreased fatty acid uptake, which limits fatty acid oxidation on account of fatty acid availability in the cell. Studies are underway to probe the implications of these findings in atherosclerosis.