Compartmentalized regulation of lipid signaling in oxidative stress and inflammation: Plasmalogens, oxidized lipids and ferroptosis as new paradigms of bioactive lipid research

IF 14 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Progress in lipid research Pub Date : 2023-01-01 DOI:10.1016/j.plipres.2022.101207
Alma M. Astudillo , María A. Balboa , Jesús Balsinde
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引用次数: 10

Abstract

Perturbations in lipid homeostasis combined with conditions favoring oxidative stress constitute a hallmark of the inflammatory response. In this review we focus on the most recent results concerning lipid signaling in various oxidative stress-mediated responses and inflammation. These include phagocytosis and ferroptosis. The best characterized event, common to these responses, is the synthesis of oxygenated metabolites of arachidonic acid and other polyunsaturated fatty acids. Major developments in this area have highlighted the importance of compartmentalization of the enzymes and lipid substrates in shaping the appropriate response. In parallel, other relevant lipid metabolic pathways are also activated and, until recently, there has been a general lack of knowledge on the enzyme regulation and molecular mechanisms operating in these pathways. Specifically, data accumulated in recent years on the regulation and biological significance of plasmalogens and oxidized phospholipids have expanded our knowledge on the involvement of lipid metabolism in the progression of disease and the return to homeostasis. These recent major developments have helped to establish the concept of membrane phospholipids as cellular repositories for the compartmentalized production of bioactive lipids involved in cellular regulation. Importantly, an enzyme classically described as being involved in regulating the homeostatic turnover of phospholipids, namely the group VIA Ca2+-independent phospholipase A2 (iPLA2β), has taken center stage in oxidative stress and inflammation research owing to its key involvement in regulating metabolic and ferroptotic signals arising from membrane phospholipids. Understanding the role of iPLA2β in ferroptosis and metabolism not only broadens our knowledge of disease but also opens possible new horizons for this enzyme as a target for therapeutic intervention.

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氧化应激和炎症中脂质信号的区隔调节:缩醛原、氧化脂质和铁中毒是生物活性脂质研究的新范式
脂质稳态的紊乱加上有利于氧化应激的条件构成了炎症反应的标志。在这篇综述中,我们重点关注有关脂质信号在各种氧化应激介导的反应和炎症中的最新结果。其中包括吞噬作用和脱铁作用。这些反应中常见的最具特征的事件是花生四烯酸和其他多不饱和脂肪酸的含氧代谢产物的合成。该领域的主要进展突出了酶和脂质底物的区室化在形成适当反应中的重要性。与此同时,其他相关的脂质代谢途径也被激活,直到最近,人们对这些途径中的酶调节和分子机制普遍缺乏了解。具体而言,近年来积累的关于浆蛋白和氧化磷脂的调节和生物学意义的数据扩大了我们对脂质代谢参与疾病进展和恢复体内平衡的认识。这些最近的重大进展有助于建立膜磷脂作为细胞储存库的概念,用于参与细胞调节的生物活性脂质的分区生产。重要的是,一种被经典描述为参与调节磷脂稳态周转的酶,即VIA Ca2+非依赖性磷脂酶A2(iPLA2β),由于其关键参与调节膜磷脂产生的代谢和脱铁信号,已成为氧化应激和炎症研究的中心阶段。了解iPLA2β在脱铁性贫血和代谢中的作用不仅拓宽了我们对疾病的了解,而且为这种酶作为治疗干预的靶点开辟了可能的新视野。
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来源期刊
Progress in lipid research
Progress in lipid research 生物-生化与分子生物学
CiteScore
24.50
自引率
2.20%
发文量
37
审稿时长
14.6 weeks
期刊介绍: The significance of lipids as a fundamental category of biological compounds has been widely acknowledged. The utilization of our understanding in the fields of biochemistry, chemistry, and physiology of lipids has continued to grow in biotechnology, the fats and oils industry, and medicine. Moreover, new aspects such as lipid biophysics, particularly related to membranes and lipoproteins, as well as basic research and applications of liposomes, have emerged. To keep up with these advancements, there is a need for a journal that can evaluate recent progress in specific areas and provide a historical perspective on current research. Progress in Lipid Research serves this purpose.
期刊最新文献
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