Nutrient-sensing GHS-R in macrophage reprogramming and inflamm-aging

巨噬细胞重编程和炎症衰老中的营养感应 GHS-R

基本信息

批准号：
10425305
负责人：
YUXIANG SUN
金额：
$ 30.6万
依托单位：
TEXAS A&M AGRILIFE RESEARCH
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-07-01 至 2024-04-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10425305
关键词：
Ablation Adipocytes Adipose tissue Age Aging Anti-Inflammatory Agents Attenuated Biological Assay Biological Response Modifiers Bone Marrow Cells Characteristics Chronic Coculture Techniques Cues Data Diabetes Mellitus Disease Elderly Exhibits Flow Cytometry Genes Genus Hippocampus Glycolysis Goals Hepatic Hepatocyte Hormones IRS2 gene Impairment Inflammaging Inflammation Inflammatory Insulin Insulin Resistance Insulin Signaling Pathway Knock-out Light Link Liver Mediating Metabolic Metabolic Diseases Metabolic Pathway Metabolic syndrome Metabolism Mitochondria Molecular Morphology Mus Myelogenous Obesity Pathogenesis Pathologic Processes Pathway interactions Peritoneal Peritoneal Macrophages Phenotype Play Protein Kinase Regulatory Pathway Respiration Role Signal Transduction Steatohepatitis Testing Thinness Tissues Validation antagonist detection of nutrient diet-induced obesity dietary extracellular fatty acid oxidation fatty liver disease ghrelin growth hormone secretagogue receptor in vivo insulin mediators insulin receptor substrate-2 protein insulin signaling knock-down macrophage middle age nonalcoholic steatohepatitis novel paracrine prevent receptor receptor expression response

项目摘要

Project Summary Aging is associated with increased adiposity, that induces low grade chronic inflammation in many tissues, termed “inflamm-aging”. This metabolically-triggered inflammation, aka "meta-inflammation", underlies pathological processes of many age-associated diseases and is a hallmark of aging. Macrophages are a major immune-mediator of meta-inflammation. Macrophages consist of pro-inflammatory M1 and anti-inflammatory M2 cells, which undergo dynamically polarization to either M1 and M2 state in response to environmental cues. Macrophage polarization is impaired in aging, which contributes to inflamm-aging. Macrophage anti- inflammatory reprogramming has potential to prevent/reverse meta-inflammation in aging. However, the regulatory mechanisms of macrophage polarization are not well understood. Growth hormone secretagogue receptor (GHS-R), is a known receptor for nutrient-sensing gut hormone ghrelin. We have found that global GHS- R ablation protects against obesity, insulin resistance, adipose tissue inflammation and nonalcoholic steatohepatitis (NASH) in aging. GHS-R is highly expressed in macrophages and its expression increases in aging. In contrast, GHS-R expression is undetectable in hepatocytes and very low in adipocytes. Our gene knockdown study indicates that GHS-R has cell-autonomous effects in macrophages. Our preliminary data have suggested that GHS-R deletion down-regulates key insulin signaling mediators insulin receptor substrate-2 (IRS2) and protein kinase Akt in macrophages. Hence, we hypothesize that GHS-R is a key regulator of macrophage polarization in aging. Specifically, GHS-R activates the IRS2-Akt pathway to metabolically reprogram macrophages to promote pro-inflammatory polarization during aging, leading to meta- inflammation in adipose tissues and liver. To unravel the roles and pertinent mechanisms of GHS-R in macrophage reprogramming and meta-inflammation, we have generated myeloid-specific GHS-R knockout and re-expressing mice. The following comprehensive and complementary Specific Aims will be tested: 1. Determine the role of GHS-R in macrophage polarization, and its effect on adipose and hepatic meta-inflammation during aging (in vivo studies); 2. Interrogate the cellular mechanisms by assessing cell-autonomous effect of GHS-R in macrophages, and paracrine effect of GHS-R deficient/re-expressing macrophages on adipocytes and hepatocytes (ex vivo studies); 3. Delineate molecular mechanisms by which GHS-R regulates macrophage polarization. We anticipate that during aging, GHS-R activates insulin signaling pathway to upregulate anabolic glycolysis and down-regulate fatty acid oxidation pathways, thus promoting pro-inflammatory polarization. This proposal will shed light on a new paradigm for metabolic reprogramming of macrophages during aging, and will likely uncover a novel regulatory mechanism linking nutrient sensing signaling and metabolic regulatory pathways in macrophages. This proposal will also provide “proof-of-concept” evidence for whether targeting GHS-R in macrophages would be a unique and powerful strategy for combating inflamm-aging.

项目概要衰老与肥胖增加有关，肥胖会导致许多人出现轻度慢性炎症。组织，称为“炎症老化”，这种代谢引发的炎症，又称为“元炎症”。许多与年龄相关的疾病的病理过程是衰老的一个主要标志。巨噬细胞由促炎性 M1 和抗炎性 M2 组成。细胞，响应环境信号而动态极化至 M1 和 M2 状态。巨噬细胞极化在衰老过程中受损，这有助于巨噬细胞抗炎症衰老。炎症重编程有可能预防/逆转衰老过程中的元炎症。巨噬细胞极化的调节机制尚不清楚。受体（GHS-R）是一种已知的营养感应肠道激素生长素释放肽受体，我们发现全球 GHS-。 R 消融可预防肥胖、胰岛素抵抗、脂肪组织炎症和非酒精性衰老过程中的脂肪性肝炎 (NASH) GHS-R 在巨噬细胞中高表达，并且其表达在衰老过程中增加。相比之下，GHS-R 的表达在肝细胞中检测不到，而在脂肪细胞中则非常低。敲除研究表明 GHS-R 在巨噬细胞中具有细胞自主效应。表明 GHS-R 缺失下调关键胰岛素信号传导介质胰岛素受体底物-2 (IRS2) 和巨噬细胞中的蛋白激酶 Akt 因此，我们研究 GHS-R 是巨噬细胞中的关键调节因子。具体而言，GHS-R 会激活 IRS2-Akt 代谢途径。重新编程巨噬细胞以促进衰老过程中的促炎性极化，从而导致元- 揭示 GHS-R 在脂肪组织和肝脏炎症中的作用和相关机制。巨噬细胞重编程和元炎症，我们已经产生了骨髓特异性 GHS-R 敲除和将测试以下全面且互补的具体目标： 1. 确定 GHS-R 在巨噬细胞极化中的作用及其对脂肪和肝脏元炎症的影响衰老（体内研究）；2. 通过评估 GHS-R 的细胞自主效应来探究细胞机制巨噬细胞，以及 GHS-R 缺陷/重新表达巨噬细胞对脂肪细胞的旁分泌作用肝细胞（离体研究）；3. 描述 GHS-R 调节巨噬细胞的分子机制我们预计在衰老过程中，GHS-R 会激活胰岛素信号通路以上调合成代谢。糖酵解和下调脂肪酸氧化途径，从而促进促炎极化。该提案将揭示衰老过程中巨噬细胞代谢重编程的新范式，并将可能会发现一种连接营养传感信号和代谢调节的新调节机制该提案还将为是否靶向提供“概念验证”证据。巨噬细胞中的 GHS-R 将是对抗炎症衰老的独特而强大的策略。