Fu Zhongjie, Liegl Raffael, Wang Zhongxiao, Gong Yan, Liu Chi-Hsiu, Sun Ye, Cakir Bertan, Burnim Samuel B, Meng Steven S, Löfqvist Chatarina, SanGiovanni John Paul, Hellström Ann, Smith Lois E H
Department of Ophthalmology, Boston Children's Hospital, Harvard Medical School, Boston, Massachusetts, United States.
Department of Ophthalmology, Sahlgrenska Academy at University of Gothenburg, Gothenburg, Sweden.
Invest Ophthalmol Vis Sci. 2017 Aug 1;58(10):3862-3870. doi: 10.1167/iovs.17-21796.
Neovascular age-related macular degeneration (AMD) is a major cause of legal blindness in the elderly. Diets with omega3-long-chain-polyunsaturated-fatty-acid (ω3-LCPUFA) correlate with a decreased risk of AMD. Dietary ω3-LCPUFA versus ω6-LCPUFA inhibits mouse ocular neovascularization, but the underlying mechanism needs further exploration. The aim of this study was to investigate if adiponectin (APN) mediated ω3-LCPUFA suppression of neovessels in AMD.
The mouse laser-induced choroidal neovascularization (CNV) model was used to mimic some of the inflammatory aspect of AMD. CNV was compared between wild-type (WT) and Apn-/- mice fed either otherwise matched diets with 2% ω3 or 2% ω6-LCPUFAs. Vldlr-/- mice were used to mimic some of the metabolic aspects of AMD. Choroid assay ex vivo and human retinal microvascular endothelial cell (HRMEC) proliferation assay in vitro was used to investigate the APN pathway in angiogenesis. Western blot for p-AMPKα/AMPKα and qPCR for Apn, Mmps, and IL-10 were used to define mechanism.
ω3-LCPUFA intake suppressed laser-induced CNV in WT mice; suppression was abolished with APN deficiency. ω3-LCPUFA, mediated by APN, decreased mouse Mmps expression. APN deficiency decreased AMPKα phosphorylation in vivo and exacerbated choroid-sprouting ex vivo. APN pathway activation inhibited HRMEC proliferation and decreased Mmps. In Vldlr-/- mice, ω3-LCPUFA increased retinal AdipoR1 and inhibited NV. ω3-LCPUFA decreased IL-10 but did not affect Mmps in Vldlr-/- retinas.
APN in part mediated ω3-LCPUFA inhibition of neovascularization in two mouse models of AMD. Modulating the APN pathway in conjunction with a ω3-LCPUFA-enriched-diet may augment the beneficial effects of ω3-LCPUFA in AMD patients.
新生血管性年龄相关性黄斑变性(AMD)是老年人法定失明的主要原因。富含ω3长链多不饱和脂肪酸(ω3-LCPUFA)的饮食与AMD风险降低相关。膳食中的ω3-LCPUFA与ω6-LCPUFA相比可抑制小鼠眼部新生血管形成,但其潜在机制尚需进一步探索。本研究旨在探讨脂联素(APN)是否介导ω3-LCPUFA对AMD新生血管的抑制作用。
采用小鼠激光诱导脉络膜新生血管(CNV)模型模拟AMD的一些炎症特征。比较野生型(WT)和Apn-/-小鼠在分别喂食含2%ω3或2%ω6-LCPUFA的其他匹配饮食后的CNV情况。使用Vldlr-/-小鼠模拟AMD的一些代谢特征。采用体外脉络膜试验和人视网膜微血管内皮细胞(HRMEC)增殖试验研究血管生成中的APN途径。用p-AMPKα/AMPKα的蛋白质印迹法和Apn、Mmps及IL-10的定量聚合酶链反应(qPCR)来确定机制。
摄入ω3-LCPUFA可抑制WT小鼠激光诱导的CNV;APN缺乏可消除这种抑制作用。由APN介导的ω3-LCPUFA可降低小鼠Mmps表达。APN缺乏会降低体内AMPKα磷酸化水平,并加剧体外脉络膜出芽。APN途径激活可抑制HRMEC增殖并降低Mmps。在Vldlr-/-小鼠中,ω3-LCPUFA可增加视网膜AdipoR1并抑制新生血管形成。ω3-LCPUFA可降低Vldlr-/-视网膜中的IL-10,但不影响Mmps。
在两种AMD小鼠模型中,APN部分介导了ω3-LCPUFA对新生血管形成的抑制作用。结合富含ω3-LCPUFA的饮食调节APN途径可能会增强ω3-LCPUFA对AMD患者的有益作用。
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