Oxidized Low-Density Lipoprotein Accumulation in Macrophages Impairs Lipopolysaccharide-Induced Activation of AKT2, ATP Citrate Lyase, Acetyl-Coenzyme A Production, and Inflammatory Gene H3K27 Acetylation.

Q3 Medicine ImmunoHorizons Pub Date : 2024-01-01 DOI:10.4049/immunohorizons.2300101
Kenneth K Y Ting, Pei Yu, Mudia Iyayi, Riley Dow, Sharon J Hyduk, Eric Floro, Hisham Ibrahim, Saraf Karim, Chanele K Polenz, Daniel A Winer, Minna Woo, Jonathan Rocheleau, Jenny Jongstra-Bilen, Myron I Cybulsky
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Abstract

The accumulation of lipid and the formation of macrophage foam cells is a hallmark of atherosclerosis, a chronic inflammatory disease. To better understand the role of macrophage lipid accumulation in inflammation during atherogenesis, we studied early molecular events that follow the accumulation of oxidized low-density lipoprotein (oxLDL) in cultured mouse macrophages. We previously showed that oxLDL accumulation downregulates the inflammatory response in conjunction with downregulation of late-phase glycolysis. In this study, we show that within hours after LPS stimulation, macrophages with accumulated oxLDL maintain early-phase glycolysis but selectively downregulate activation of AKT2, one of three AKT isoforms. The inhibition of AKT2 activation reduced LPS-induced ATP citrate lyase activation, acetyl-CoA production, and acetylation of histone 3 lysine 27 (H3K27ac) in certain inflammatory gene promoters. In contrast to oxLDL, multiple early LPS-induced signaling pathways were inhibited in macrophages with accumulated cholesterol, including TBK1, AKT1, AKT2, MAPK, and NF-κB, and early-phase glycolysis. The selective inhibition of LPS-induced AKT2 activation was dependent on the generation of mitochondrial oxygen radicals during the accumulation of oxLDL in macrophages prior to LPS stimulation. This is consistent with increased oxidative phosphorylation, fatty acid synthesis, and oxidation pathways found by comparative transcriptomic analyses of oxLDL-loaded versus control macrophages. Our study shows a functional connection between oxLDL accumulation, inactivation of AKT2, and the inhibition of certain inflammatory genes through epigenetic changes that occur soon after LPS stimulation, independent of early-phase glycolysis.

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巨噬细胞中氧化低密度脂蛋白的积累会影响脂多糖诱导的 AKT2 激活、ATP柠檬酸溶酶、乙酰辅酶 A 生成和炎症基因 H3K27 乙酰化。
脂质积累和巨噬细胞泡沫细胞的形成是动脉粥样硬化这种慢性炎症性疾病的标志。为了更好地了解动脉粥样硬化发生过程中巨噬细胞脂质积累在炎症中的作用,我们研究了氧化低密度脂蛋白(oxLDL)在培养小鼠巨噬细胞中积累后的早期分子事件。我们以前的研究表明,氧化低密度脂蛋白的积累在下调晚期糖酵解的同时也下调了炎症反应。在本研究中,我们发现在 LPS 刺激后数小时内,积累了 oxLDL 的巨噬细胞会维持早期阶段的糖酵解,但会选择性地下调 AKT2(三种 AKT 同工酶之一)的活化。抑制 AKT2 的活化可减少 LPS 诱导的 ATP 柠檬酸溶解酶的活化、乙酰-CoA 的产生以及某些炎症基因启动子中组蛋白 3 赖氨酸 27(H3K27ac)的乙酰化。与 oxLDL 不同的是,在胆固醇积累的巨噬细胞中,多种 LPS 诱导的早期信号通路受到抑制,包括 TBK1、AKT1、AKT2、MAPK 和 NF-κB,以及早期糖酵解。对 LPS 诱导的 AKT2 激活的选择性抑制依赖于在 LPS 刺激之前巨噬细胞中氧化LDL 积累过程中线粒体氧自由基的生成。这与氧化磷酸化、脂肪酸合成和氧化途径的增加是一致的,氧化LDL 负载与对照巨噬细胞的转录组比较分析也发现了这一点。我们的研究表明,氧化LDL 的积累、AKT2 的失活以及通过 LPS 刺激后不久发生的表观遗传学变化抑制某些炎症基因之间存在功能性联系,这与早期阶段的糖酵解无关。
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