RORalpha mediates chronic subretinal inflammation associated with AMD

RORalpha 介导与 AMD 相关的慢性视网膜下炎症

• 批准号: 10625419
• 负责人: JING CHEN
• 金额: $ 50.77万
• 依托单位: BOSTON CHILDREN'S HOSPITAL
• 依托单位国家: 美国
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-12-02 至 2026-05-31
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10625419
• 关键词: Acceleration; Acute; Affect; Age related macular degeneration; Aging; Agonist; Blindness; Cholesterol; Cholesterol Homeostasis; Choroid; Choroidal Neovascularization; Chronic; Clinical; Complement; Complement Activation; Complement Factor H; Complex; Cytoprotection; Data; Deposition; Disease; Drusen; Dryness; Elderly; Eye; Eye diseases; Fundus; Genes; Genetic Transcription; Genetic Variation; Goals; Grant; Health; Hepatocyte; High Fat Diet; Histology; Homeostasis; Human; Human Genetics; Immune; Immunity; In Vitro; Inflammation; Inflammatory; Lesion; Ligands; Light; Link; Lipids; Liver; LoxP-flanked allele; Macrophage; Mediating; Metabolic; Metabolism; Microglia; Modeling; Morphology; Mus; Myelogenous; Natural Immunity; Neurodegenerative Disorders; Nonexudative age-related macular degeneration; Nuclear Receptors; Orphan; PPAR gamma; Pathogenicity; Pathologic; Pathway interactions; Photoreceptors; Production; Proliferating; Proteins; Retina; Retinal Degeneration; Retinoic Acid Receptor; Risk; Role; Structure of retinal pigment epithelium; Susceptibility Gene; Testing; Thinness; Transcriptional Regulation; Vision; Wild Type Mouse; Work; age related; chemokine; cholesterol trafficking; design; human data; in vivo; inflammatory marker; lipid biosynthesis; lipid mediator; mouse model; neovascular; novel strategies; overexpression; prevent; public health relevance; receptor; recruit; retinal damage; transcription factor; uptake

Project Summary Age-related macular degeneration (AMD) is a major cause of blindness in the elderly, associated with altered lipid (cholesterol) metabolism and altered immunity (complement). Chronic subretinal inflammation occurs during aging in clinical and experimental AMD, and is associated many other neurodegenerative diseases. Resolving harmful persistent inflammation is important to protect the retinas from age-related damage. Previous work identified that retinoic-acid-receptor-related orphan receptor alpha (RORαa lipid (cholesterol)-sensing nuclear receptor, is genetically linked with the risk for wet AMD. RORαis a transcription factor that regulates lipid homeostasis and inflammation, both important for AMD. Our preliminary results from mouse models of aging and retinal degeneration indicate that: 1) RORα deficiency induces subretinal deposits, accumulation of lipid- enriched microglia/macrophages in the subretinal space in aging mice; 2) RORα deficiency worsens light- induced retinal degeneration; 3) Loss of RORα induces microglia/macrophage lipogenesis and chronic inflammation in RPE/choroid with induction of PPARγ, a key lipid metabolic regulator; 4) RORα deficiency alters complement factors and suppresses complement inhibitory factor H (CFH, one of the strongest AMD susceptibility genes) in the liver and in the eyes; and 5) RORα directly regulates both CFH and PPARγ transcription. Based on these findings, we hypothesize that during aging, RORα links lipid dysregulation with subretinal microglia/macrophage lipogenesis and complement alteration, to suppress chronic pathogenic subretinal inflammation; RORα activation may resolve chronic inflammation associated with early AMD. We will test this hypothesis with three aims. Aim I: To determine whether RORα deficiency exacerbates pathological subretinal inflammation and retinal degeneration in RORα deficient mice during aging and with a light-induced retinal degeneration model. Aim II: To assess if RORα deficiency induces chronic subretinal inflammation by accelerating microglia/macrophage recruitment, lipogenesis, and function through PPARγ, and/or by controlling systemic and/or local CFH function and complement cascade. Aim III: to determine if RORα activation resolves chronic inflammation and protects the retinas in chronic dry AMD models and in light-induced retinal degeneration model. This work will uncover the potential role of RORα as a key mediator of lipid homeostasis and altered innate immunity in chronic subretinal inflammation associated with AMD, and develop potential new treatments via activating RORα to resolve persistent inflammation during aging and protect retinas.

项目概要 年龄相关性黄斑变性（AMD）是老年人失明的主要原因，与黄斑变性有关 脂质（胆固醇）代谢和免疫力（补体）改变发生在慢性视网膜下炎症期间。 临床和实验性 AMD 中的衰老与许多其他神经退行性疾病有关。 有害的持续炎症对于保护视网膜免受与年龄相关的损伤很重要。 确定了视黄酸受体相关的孤儿受体 α（RORα一种脂质（胆固醇）感应核） RORα 受体与湿性 AMD 风险存在遗传相关性，RORα 是调节脂质的转录因子。 体内平衡和炎症对 AMD 都很重要，我们的初步结果来自小鼠衰老模型。 视网膜变性表明：1) RORα 会导致视网膜下沉积物缺乏，脂质沉积 衰老小鼠视网膜下腔中小胶质细胞/巨噬细胞富集；2) RORα 缺乏使光- 诱导视网膜变性；3) RORα 缺失诱导小胶质细胞/巨噬细胞脂肪生成和慢性 诱导 PPARγ（一种关键的脂质代谢调节剂）引起 RPE/脉络膜炎症；4) RORα 缺乏会改变； 因子并抑制补体抑制因子 H（CFH，最强的 AMD 因子之一） 易感基因）在肝脏和眼睛中；5）RORα直接调节CFH和PPARγ 基于这些发现，我们发现在衰老过程中，RORα 与脂质失调有关。 视网膜下小胶质细胞/巨噬细胞脂肪生成和补体改变，以抑制慢性致病性 视网膜下炎症；RORα 激活可能会解决与早期 AMD 相关的慢性炎症。 通过三个目标检验这一假设：确定 RORα 缺乏是否会导致病理恶化。 RORα 缺陷小鼠在衰老过程中和光诱导下的视网膜下炎症和视网膜变性 目标 II：评估 RORα 缺陷是否会诱发慢性视网膜下炎症。 通过 PPARγ 加速小胶质细胞/巨噬细胞的募集、脂肪生成和功能，和/或通过控制 全身和/或局部 CFH 功能和补体级联反应 目标 III：确定 RORα 激活是否得到解决。 在慢性干性 AMD 模型和光诱导视网膜中抑制慢性炎症并保护视网膜 这项工作将揭示 RORα 作为脂质稳态关键介质的潜在作用。 并改变与 AMD 相关的慢性视网膜下炎症的先天免疫，并开发潜在的新产品 通过激活 RORα 来解决衰老过程中持续的炎症并保护视网膜。

项目成果

RORα modulates semaphorin 3E transcription and neurovascular interaction in pathological retinal angiogenesis.

RORα 调节信号蛋白 3E 转录和病理性视网膜血管生成中神经血管的相互作用。

• 发表时间: 2017-10
• 作者: Sun, Ye;Liu, Chi;Wang, Zhongxiao;Meng, Steven S;Burnim, Samuel B;SanGiovanni, John Paul;Kamenecka, Theodore M;Solt, Laura A;Chen, Jing
• 通讯作者: Chen, Jing

Nuclear receptor RORα regulates pathologic retinal angiogenesis by modulating SOCS3-dependent inflammation.

核受体 RORα 通过调节 SOCS3 依赖性炎症来调节病理性视网膜血管生成。

• 发表时间: 2015-08-18
• 影响因子: 11.1
• 作者: Sun, Ye;Liu, Chi;SanGiovanni, John Paul;Evans, Lucy P;Tian, Katherine T;Zhang, Bing;Stahl, Andreas;Pu, William T;Kamenecka, Theodore M;Solt, Laura A;Chen, Jing
• 通讯作者: Chen, Jing

Endothelial TWIST1 promotes pathological ocular angiogenesis.

内皮细胞 TWIST1 促进病理性眼部血管生成。

• DOI: 10.1167/iovs.14-15623
• 发表时间: 2014-11-20
• 期刊: Investigative ophthalmology & visual science
• 影响因子: 4.4
• 作者: Jie Li;Chi;Ye Sun;Y. Gong;Z. Fu;L. Evans;Katherine T. Tian;Aimee M. Juan;Christian G. Hurst;A. Mammoto;J. Chen
• 通讯作者: J. Chen

Loss of RAR-related orphan receptor alpha (RORα) selectively lowers docosahexaenoic acid in developing cerebellum.

RAR 相关孤儿受体 α (RORα) 的丧失选择性地降低发育中小脑的二十二碳六烯酸。

• DOI: 10.1016/j.plefa.2019.102036
• 发表时间: 2019-11-20
• 期刊: Prostaglandins, leukotrienes, and essential fatty acids
• 作者: Chuck T. Chen;Joseph A Schultz;Sophie Haven;Breanne C Wilhite;Chi;J. Chen;J. Hibbeln
• 通讯作者: J. Hibbeln

Retinal expression of small non-coding RNAs in a murine model of proliferative retinopathy.

增殖性视网膜病小鼠模型中小非编码 RNA 的视网膜表达。

• 发表时间: 2016-09-22
• 影响因子: 4.6
• 作者: Liu, Chi;Wang, Zhongxiao;Sun, Ye;SanGiovanni, John Paul;Chen, Jing
• 通讯作者: Chen, Jing