Interrogating Dynamics of Acute Secretion of Adiponectin Multimers from Adipose T

探究脂肪 T 中脂联素多聚体急性分泌的动力学

• 批准号: 8371557
• 负责人: Christopher J Easley
• 金额: $ 32.09万
• 依托单位: AUBURN UNIVERSITY AT AUBURN
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-06-08 至 2015-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8371557
• 关键词: Acute; Address; Adipocytes; Adipose tissue; Affect; Aftercare; Biochemistry; Biological Assay; Blood Circulation; Collaborations; Detection; Development; Diabetes Mellitus; Disease; Endocrine; Endocrine Glands; Enzyme-Linked Immunosorbent Assay; Event; Fatty acid glycerol esters; Fluorescence; Fluorescence Resonance Energy Transfer; Foundations; Future; Gel Chromatography; Goals; Golgi Apparatus; Heart Diseases; Hyperlipidemia; Incidence; Insulin; Insulin Resistance; Islets of Langerhans; Knowledge; Ligation; Link; Lipids; Measures; Metabolic; Metabolic Diseases; Metabolism; Methodology; Methods; Microfluidics; Mission; Molecular; Molecular Weight; Mus; National Institute of Diabetes and Digestive and Kidney Diseases; Nature; Nicotinic Acids; Obesity; Overweight; Patients; Pharmaceutical Preparations; Pharmacological Treatment; Pharmacology; Physiological; Play; Population; Proteins; Publications; Research; Resolution; Role; Sampling; Site; Solid; Stimulus; Technology; Testing; Thrombin; Time; Triglycerides; Vesicle; Western Blotting; Work; adipokines; adiponectin; base; extracellular; gel electrophoresis; in vivo; innovation; instrumentation; insulin sensitivity; novel; novel strategies; nutrition; receptor; response; sedimentation velocity; trafficking; vascular inflammation

DESCRIPTION (provided by applicant): Rather than a mere storage site for triglycerides, it is now understood that adipose tissue (fat) and its cellular units, adipocytes, serve as an endocrine organ that responds to extracellular stimuli. Adiponectin, a multimeric protein secreted by adipocytes, is one of the most abundantly secreted proteins in the body and plays a major role in insulin sensitivity, intermediary metabolism, and vascular inflammation. Recent studies have uncovered that adipose tissue has machinery for acutely secreting adiponectin into the bloodstream; yet without adequate approaches for sensitive detection of adiponectin in small volumes, there is limited understanding of adiponectin secretion dynamics and the response to pharmacological treatments. In particular, there is a clear need for more specific and simple-to-use adiponectin assays. The long-term goal of this research is to understand the molecular mechanisms of acute adiponectin secretion to help uncover its relation to insulin resistance, obesity, and metabolic disease states. The objective of this proposal is to determine the dynamics of acute adiponectin secretion and the effects of commonly used lipid-lowering drugs on these dynamics. To fill this gap in knowledge, homogeneous, sensitive assays (pFRET) will be developed for quantitation of adiponectin multimers from only a few microliters of sample. The simplified readout of the pFRET assays will be combined with microfluidic sampling of primary adipocytes to minimize dilution and measure secretion dynamics at high temporal resolution. The studies will not only eliminate a critical barrier to progress in adipocyt research, but will also address important, unresolved questions on acute adiponectin secretion. Aim 1 of the proposal seeks to develop homogeneous protein assays (pFRET), which are proven for insulin and thrombin detection, for direct fluorescence detection of adiponectin multimers. Aim 2 seeks to determine the dynamics of acute adiponectin secretion, where it is hypothesized that acute (<10 min) adiponectin secretion originates from a reserve pool of vesicles and is not dependent on ER-to-Golgi vesicle trafficking. Microfluidic secretion sampling, combined with the small-volume pFRET, will help interrogate acute secretion. In Aim 3, the PI will investigate the effects of a commonly-used lipid-lowering drug on acute adiponectin secretion, testing the hypothesis that statins increase acutely (<10 min) secreted adiponectin multimers. This proposal is significant because it will overcome a critical barrier to progress in understanding acute adiponectin secretion by filling gaps in the current methodology. The proposal is innovative based on the development and integration of two novel bioanalytical approaches, proximity assays and passive microfluidic sampling, for investigating recently discovered acute adiponectin secretion events that are not accessible without this technology. Preliminary evidence strongly supports the feasibility of these proposals. These findings could better inform the timing of drug administration to the many patients currently taking lipid lowerin drugs and permit future work on uncovering molecular and physiological mechanisms of acute adipokine secretion. PUBLIC HEALTH RELEVANCE: Nearly two-thirds of the US population is considered overweight or obese by current criteria, and with diabetes incidence on the rise, lipid-lowering drugs are now widely used to treat hyperlipidemia and related effects. Emerging evidence shows that many of these drugs modulate the synthesis and secretion of adipose-tissue secreted proteins (adipokines), which can have significant effects on insulin resistance; yet there is limited understanding of adipokine secretion dynamics and how insulin resistance is affected by these pharmacological treatments. This project is relevant to the mission of the NIDDK due to its direct relevance to the biochemistry and pharmacology of diabetes, obesity, and nutrition-related disorders.

描述（由申请人提供）：现在人们了解到，脂肪组织（脂肪）及其细胞单位，脂肪细胞，不仅仅是甘油三酯的储存场所，而是作为一种内分泌器官，对细胞外刺激作出反应。脂联素是一种由脂肪细胞分泌的多聚体蛋白，是体内分泌最丰富的蛋白之一，在胰岛素敏感性、中间代谢和血管炎症中起重要作用。最近的研究发现，脂肪组织具有向血液中快速分泌脂联素的机制；然而，由于没有足够的方法来灵敏地检测小体积的脂联素，人们对脂联素分泌动力学和对药物治疗的反应的了解有限。特别是，有一个明确的需要更具体和简单使用的脂联素测定。本研究的长期目标是了解急性脂联素分泌的分子机制，以帮助揭示其与胰岛素抵抗、肥胖和代谢疾病状态的关系。本建议的目的是确定急性脂联素分泌的动态和常用的降脂药物对这些动态的影响。为了填补这一知识空白，将开发仅从几微升样品中定量脂联素多聚物的均匀、敏感测定法（pFRET）。pffret分析的简化读数将与原代脂肪细胞的微流体采样相结合，以最大限度地减少稀释，并在高时间分辨率下测量分泌动态。这些研究不仅将消除脂肪细胞研究进展的关键障碍，而且还将解决有关急性脂联素分泌的重要、未解决的问题。该提案的目标1旨在开发均质蛋白测定法（pFRET），该方法已被证明可用于胰岛素和凝血酶检测，用于直接荧光检测脂联素多聚体。Aim 2旨在确定急性脂联素分泌的动力学，其中假设急性（<10分钟）脂联素分泌源于囊泡储备池，不依赖于内质网到高尔基体囊泡的运输。微流控分泌物取样，结合小体积pFRET，将有助于询问急性分泌。在Aim 3中，PI将研究一种常用的降脂药物对急性脂联素分泌的影响，验证他汀类药物急性（<10分钟）增加脂联素多聚体分泌的假设。这一建议具有重要意义，因为它将通过填补当前方法中的空白，克服理解急性脂联素分泌进展的关键障碍。该提案是基于两种新型生物分析方法的开发和整合的创新，即接近试验和被动微流体取样，用于研究最近发现的急性脂联素分泌事件，如果没有这种技术，这些事件是无法获得的。初步证据有力地支持这些建议的可行性。这些发现可以更好地为目前正在服用降脂药物的许多患者提供给药时机，并允许未来的工作揭示急性脂肪因子分泌的分子和生理机制。