Developmental genes, miRNAs and adipose tissue

发育基因、miRNA 和脂肪组织

• 批准号: 8828173
• 负责人: C RONALD KAHN
• 金额: $ 48.14万
• 依托单位: JOSLIN DIABETES CENTER
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-03-15 至 2019-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8828173
• 关键词: Accounting; Adipocytes; Adipose tissue; Adrenergic Receptor; Affect; Age; Aging; Animals; Blood Circulation; Body mass index; Brown Fat; Cell Respiration; Cells; Central obesity; Complex; Data; Development; Developmental Gene; Diabetes Mellitus; Dicer Enzyme; Employee Strikes; Energy Intake; Energy Metabolism; Epidemic; Equilibrium; Exhibits; Fatty acid glycerol esters; Gene Expression; Genes; Glypican; Goals; Grant; Health; Heterogeneity; Homeobox Genes; Human; Insulin Receptor; Insulin Resistance; Knock-out; Lymphocyte; Mediator of activation protein; Membrane; Metabolic Diseases; Metabolic syndrome; Metabolism; MicroRNAs; Mitochondria; Molecular; Muscle Fibers; Nature; Non-Insulin-Dependent Diabetes Mellitus; Obesity; Pathogenesis; Pattern; Peripheral; Process; Proteoglycan; Research; Risk; Role; Site; Source; Stress; Techniques; Tissues; United States National Institutes of Health; Visceral; adipocyte differentiation; base; circulating microRNA; diabetes risk; driving force; glucose metabolism; human DICER1 protein; insulin sensitivity; insulin signaling; knockout gene; lipid metabolism; novel; overexpression; programs; receptor binding; response; subcutaneous; transcription factor

DESCRIPTION (provided by applicant): This is a competitive renewal of NIH grant DK082659 entitled "Developmental Genes, miRNAs and Adipose Tissue". Over the past decade it has become clear that adipose tissue is more complex than originally believed. In addition to both white and brown fat, both types of fat are heterogeneous. Accumulation of visceral WAT is associated with insulin resistance and metabolic disease, whereas accumulation of subcutaneous WAT does not have such a risk and may even be protective. This is due, at least in part, to cell-autonomous, functional differences between adipocytes in these depots. During the past grant period, we have shown that white adipocytes and preadipocytes from different fat depots exhibit markedly different levels of expression of developmental/patterning genes, suggesting developmental heterogeneity of WAT. We have focused on three of these genes (Shox2, Tbx15 and Glypican-4), since in humans, the expression of these genes strongly correlates with BMI and fat distribution. We have shown that overexpression or knockdown of these genes can alter adipocyte differentiation and function. For example, Shox2 regulates the lipolytic response of adipocytes, whereas Tbx15 can modulate mitochondrial metabolism and the balance between glycolytic and oxidative metabolism in fat cells. Glypican-4 (Gpc4), on the other hand, modulates insulin receptor binding and action, and is released from fat cells into the circulation where is can act on other target cells. We have found that different WAT depots also differ in their expression of miRNAs and that there are alterations in miRNAs in obesity and aging. The latter is due to a decrease in the expression of the miRNA processing enzyme Dicer. In exciting new data, we also show that adipose tissue is a major source of circulating miRNAs. These data have led to two inter-related hypotheses. First, we hypothesize that, in analogy to skeletal muscle cells or lymphocytes which look alike but have different functions, white adipocytes are heterogeneous in nature and that development/patterning genes contribute to this heterogeneity and program differences in adipose tissue development and function. Secondly, adipocyte function and heterogeneity is further modified by differences in miRNA expression. In addition these miRNAs are released into the circulation where they act as novel mediators of the effects of fat on other tissues. The specific aims going forward are to: 1) Determine how the developmental geneTbx15 contributes to heterogeneity of WAT and affects adipocyte determination and function. 2) Further characterize the role of Gpc4 as a modifier of adipocyte function and insulin signaling, and how Gpc4 is released from adipocytes into the circulation and contributes to changes in insulin sensitivity. 3) Determine how miRNA expression differs between adipocytes and preadipocytes from different depots, and how changes in miRNA expression affect function of adipocytes in different depots. We will also explore our preliminary findings that adipose tissue is a major source of circulating miRNAs and that these circulating miRNAs may serve as mediators of adipose effects on other tissues.

描述（由申请人提供）：这是NIH资助DK 082659的竞争性更新，标题为“发育基因，miRNA和脂肪组织”。在过去的十年里，人们已经清楚地认识到脂肪组织比最初认为的要复杂得多。除了白色和棕色脂肪外，这两种类型的脂肪都是异质的。内脏WAT的积累与胰岛素抵抗和代谢疾病有关，而皮下WAT的积累没有这种风险，甚至可能是保护性的。这是由于，至少部分地，在这些仓库中的脂肪细胞之间的细胞自主的，功能的差异。在过去的资助期间，我们已经表明，白色脂肪细胞和前脂肪细胞从不同的脂肪库表现出显着不同水平的发育/模式化基因的表达，这表明发育异质性的WAT。我们专注于其中三个基因（Shox 2，Tbx 15和Glypican-4），因为在人类中，这些基因的表达与BMI和脂肪分布密切相关。我们已经证明，这些基因的过表达或敲低可以改变脂肪细胞的分化和功能。例如，Shox 2调节脂肪细胞的脂解反应，而Tbx 15可以调节脂肪细胞中的线粒体代谢以及糖酵解和氧化代谢之间的平衡。另一方面，磷脂酰肌醇蛋白聚糖-4（Gpc 4）调节胰岛素受体结合和作用，并从脂肪细胞释放到循环中，在循环中可以作用于其他靶细胞。我们已经发现，不同的WAT仓库也在其表达的miRNA不同，并有在肥胖和衰老的miRNA的改变。后者是由于miRNA加工酶Dicer的表达减少。在令人兴奋的新数据中，我们还表明脂肪组织是循环miRNA的主要来源。这些数据导致了两个相互关联的假设。首先，我们假设，与骨骼肌细胞或淋巴细胞相似，但功能不同，白色脂肪细胞在本质上是异质性的，发育/模式化基因有助于这种异质性，并在脂肪组织发育和功能中产生程序差异。其次，脂肪细胞的功能和异质性通过miRNA表达的差异进一步改变。此外，这些miRNAs被释放到循环中，在循环中它们作为脂肪对其他组织影响的新介质。未来的具体目标是：1）确定发育基因Tbx 15如何促进WAT的异质性并影响脂肪细胞的决定和功能。2)进一步表征Gpc 4作为脂肪细胞功能和胰岛素信号传导的修饰剂的作用，以及Gpc 4如何从脂肪细胞释放到循环中并有助于胰岛素敏感性的变化。3)确定来自不同库的脂肪细胞和前脂肪细胞之间miRNA表达的差异，以及miRNA表达的变化如何影响不同库中脂肪细胞的功能。我们还将探索我们的初步发现，脂肪组织是循环miRNA的主要来源，这些循环miRNA可能作为脂肪对其他组织影响的介质。