Amyloid Beta-Protein: ApoE and Cholesterol Homeostasis

β-淀粉样蛋白：ApoE 和胆固醇稳态

• 批准号: 7173784
• 负责人: WELLINGTON GIBSON WOOD
• 金额: $ 24.21万
• 依托单位: UNIVERSITY OF MINNESOTA
• 依托单位国家: 美国
• 财政年份: 2005
• 资助国家: 美国
• 起止时间: 2005-01-15 至 2009-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7173784
• 关键词: Adrenergic Receptor; Alleles; Alzheimer' s Disease; Amyloid beta-Protein; Amyloid beta-Protein Precursor; Apolipoprotein E; Astrocytes; Blood Vessels; C57BL/6 Mouse; Caveolae; Caveolins; Cell membrane; Cell physiology; Cells; Cerebrum; Cholesterol; Cholesterol Homeostasis; Coculture Techniques; Complex; Conditioned Culture Media; Coupled; Cyclic AMP; DNA Binding; Data; Epidemiologic Studies; Gene Expression; Genetic Transcription; Golgi Apparatus; Hippocampus (Brain); Homeostasis; Human; Incubated; Individual; Knockout Mice; Laboratories; Lead; Lipids; Medial; Mediating; Membrane; Membrane Microdomains; Messenger RNA; Mus; Nerve Degeneration; Neurons; Organelles; Pathway interactions; Patients; Pharmaceutical Preparations; Phenotype; Play; Primary Cell Cultures; Production; Protein Isoforms; Proteins; Proteomics; Rattus; Reporting; Risk; Role; Source; Structure; Synaptophysin; Testing; Thinking; Time; Transcription Factor AP-2 Alpha; Transcriptional Regulation; Tretinoin; Wood material; Work; apolipoprotein E-3; apolipoprotein E-4; beta-adrenergic receptor; brain tissue; caveolin 1; cholesterol trafficking; lipid transport; neurite growth; protein expression; research study; synaptogenesis; trafficking; transcription factor; vesicle-associated membrane protein

This application focuses on mechanisms of amyloid beta-protein perturbation of cholesterol and apoE homeostasis within astrocytes and resulting consequences on neuronal function. There is a dynamic interaction between cholesterol and amyloid beta-protein (ABeta), a protein that is thought to be an important contributor to neurodegeneration that occurs with Alzheimer's disease. Cholesterol levels modulate amyloid precursor protein expression and ABeta1-42 production. Conversely, ABeta1-42 alters cellular cholesterol dynamics particularly cholesterol trafficking in astrocytes and neurons. The Golgi complex play an important role in protein and lipid trafficking and recent work from our laboratory has shown that ABeta1-42 modified cholesterol distribution within the Golgi complex in astrocytes, reduced cholesterol levels in the plasma membrane and increased apoE levels. These results lead us to hypothesize that: ABeta1-42 disrupts cholesterol and apoE homeostasis in astrocytes and effects are apoE isoform dependent. Mechanisms of ABeta1-42 effects involve a caveolin associated pathway between the Golgi complex and the plasma membrane, and transcriptional regulation of apoE expression that is dependent on stimulation of Beta-adrenergic receptors, cAMP formation and the transcription factor AP-2. Consequences of ABeta1-42 perturbation of astrocyte cholesterol and apoE homeostasis are alterations in neuronal cholesterol domains and the synaptophysin/synaptobrevin complex. To test this we will: 1: Evaluate effects of ABeta1-42 on caveolin levels in the cis-medial and trans- regions of the Golgi complex of astrocytes. Examine proteomics of the Golgi complex regions of astrocytes treated with ABeta1-42 Evaluate caveolae and lipid raft structure and function in astrocytes treated with ABeta1-42. Primary astrocytes from mice expressing human apoE2, apoE3, apoE4, apoE-null mice, caveolin-l-null mice and human astrocytes will be used. 2: Examine the effects of ABeta1-42 on distribution of apoE levels in astrocyte organelles and conditioned media. Evaluate apoE mRNA abundance in astrocytes incubated with ABeta1-42. Evaluate effects of ABeta1-42 on Beta-adrenergic receptors, cAMP formation, transcription factor AP-2 levels and DNA binding of AP-2. Astrocytes of mice expressing human apoE2, apoE3, and apoE4 will be used. 3: Evaluate neuronal lipid raft proteins, lipids and transbilayer cholesterol distribution using neurons of C57BL/6 mice co-cultured with astrocytes from mice expressing human apoE2, apoE3, apoE4, and apoE-null mice. Examine synaptophysin/synaptobrevin complex in neurons of C57BL/6 mice co-cultured with astrocytes from mice expressing human apoE2, apoE3, apoE4, and apoE-null mice. Determine if the neuronal apoE4 and apoE-null phenotype can be "rescued" by incubation with astrocytes of apoE2, apoE3, or wildtype mice. In some experiments astrocytes will be treated with ABeta1-42.

本申请集中于星形胶质细胞内的胆固醇和载脂蛋白E稳态的淀粉样β蛋白扰动的机制以及对神经元功能的结果。胆固醇和淀粉样β蛋白（ABeta）之间存在动态相互作用，该蛋白质被认为是阿尔茨海默病发生的神经变性的重要贡献者。胆固醇水平调节淀粉样前体蛋白表达和A β 1 -42的产生。相反，A β 1 -42改变细胞胆固醇动力学，特别是星形胶质细胞和神经元中的胆固醇运输。高尔基体复合体在蛋白质和脂质运输中起重要作用，我们实验室最近的工作表明，A β 1 -42修饰了星形胶质细胞中高尔基体复合体内的胆固醇分布，降低了质膜中的胆固醇水平并增加了apoE水平。这些结果使我们假设：A β 1 -42破坏了星形胶质细胞中胆固醇和apoE的稳态，其作用依赖于apoE亚型。A β 1 -42效应的机制涉及高尔基复合体和质膜之间的小窝蛋白相关通路，以及依赖于β-肾上腺素能受体刺激、cAMP形成和转录因子AP-2的apoE表达的转录调节。星形胶质细胞胆固醇和apoE稳态的A β 1 -42扰动的后果是神经元胆固醇结构域和突触泡蛋白/小突触泡蛋白复合物的改变。为了测试这一点，我们将：1：评估A β 1 -42对星形胶质细胞高尔基复合体的顺式-中间和反式-区域中小窝蛋白水平的影响。检查用A β 1 - 42处理的星形胶质细胞的高尔基复合体区域的蛋白质组学评估用A β 1 -42处理的星形胶质细胞中的小窝和脂筏结构和功能。将使用来自表达人apoE 2、apoE 3、apoE 4的小鼠、apoE缺失小鼠、小窝蛋白-1缺失小鼠和人星形胶质细胞的原代星形胶质细胞。2：检测A β 1 -42对星形胶质细胞细胞器和条件培养基中apoE水平分布的影响。评估与A β 1 -42孵育的星形胶质细胞中的apoE mRNA丰度。评价A β 1 -42对β-肾上腺素能受体、cAMP形成、转录因子AP-2水平和AP-2的DNA结合的影响。将使用表达人apoE 2、apoE 3和apoE 4的小鼠星形胶质细胞。第三章：使用C57 BL/6小鼠的神经元与来自表达人apoE 2、apoE 3、apoE 4的小鼠和apoE缺失小鼠的星形胶质细胞共培养，评价神经元脂筏蛋白、脂质和跨双层胆固醇分布。检查与来自表达人apoE 2、apoE 3、apoE 4的小鼠和apoE缺失小鼠的星形胶质细胞共培养的C57 BL/6小鼠神经元中的突触泡蛋白/突触泡蛋白复合物。确定是否可以通过与apoE 2、apoE 3或野生型小鼠的星形胶质细胞孵育来“拯救”神经元apoE 4和apoE-null表型。在一些实验中，星形胶质细胞将用A β 1 -42处理。