Sulfatides Act as Endogenous Toxin Reducing Efficiency of Remyelination

脑硫脂作为内源性毒素减少髓鞘再生的功效

• 批准号: 8594622
• 负责人: Katarzyna Czajkowska Pituch
• 金额: $ 3.03万
• 依托单位: UNIVERSITY OF ILLINOIS AT CHICAGO
• 依托单位国家: 美国
• 财政年份: 2013
• 资助国家: 美国
• 起止时间: 2013-07-16 至 2015-10-15
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8594622
• 关键词: Achievement; Address; Affect; Biology; Brain; Cell Cycle; Cell Death; Cells; Corpus Callosum; Data; Demyelinating Diseases; Demyelinations; Ensure; Exposure to; Failure; Flow Cytometry; Generations; Goals; Human; In Vitro; Lipids; Measures; Mediating; Membrane; Membrane Microdomains; Multiple Sclerosis; Myelin; Myelin Sheath; Oligodendroglia; Pathway interactions; Plant Roots; Process; Proliferating; Protein Isoforms; Proteins; Rattus; Recovery; Recruitment Activity; Regulation; Role; Signal Pathway; Signal Transduction; Sulfoglycosphingolipids; Survival Analysis; Testing; Toxic effect; Toxin; Ubiquitination; Work; design; extracellular; jagged1 protein; liquid chromatography mass spectrometry; notch protein; oligodendrocyte precursor; precursor cell; progenitor; public health relevance; receptor; receptor function; remyelination; repaired; research study; response; therapeutic target; trafficking

DESCRIPTION (provided by applicant): Sulfatides, one of the most abundant lipids in myelin sheaths, appear to be released into the extracellular milieu of the brain during myelin destruction in demyelinating diseases such as multiple sclerosis (MS). Because sulfatides have been proposed as negative regulators of oligodendrogenesis, an abnormal elevation of their extracellular levels during demyelinating insult may be one of the factors limiting recovery of myelin by endogenous oligodendrocyte precursors (OPCs). Unfortunately, the mechanism mediating the negative regulation of OPC differentiation by sulfatides is unknown. Preliminary data in this application provides a testable hypothesis stating that sulfatide isoforms released during demyelination exert toxic effects on OPCs by deregulation of the Notch1 and PDGFr¿ signaling pathways. To challenge our hypothesis, we propose experiments to determine the effect of four sulfatide isoforms, C16:0, C18:0, C24:0 and C24:1 (the main isoforms in OPCs and myelin), on the proliferation, cell death- survival, cell cycle, and differentiation capacity o OPCs, by using the well-characterized oligodendrocyte precursor cells isolated from P7 rat corpus callosum. These studies will be performed by immunocytochemical analysis, flow cytometry and liquid chromatography-mass spectrometry of sulfatides from cells grown in the presence of the sulfatide isoforms in proliferating or differentiating conditions. The involvement of Notch1 and PDGFr a receptors will be studied by classical expression experiments and by functional analyses of downstream components in each pathway. Altogether, these studies will allow us to characterize the role of the four sulfatide isoforms in isoforms on OPCs biology, by investigating the functional relevance of two well-studied signaling pathways. The understanding of this process is of fundamental relevance in the design of successful remyelination therapies, which are yet unavailable for those suffering from this demyelinating disease.

描述（由申请人提供）：硫酸脂是髓鞘中最丰富的脂质之一，在脱髓鞘疾病如多发性硬化症（MS）的髓鞘破坏过程中似乎释放到脑的细胞外环境中。由于硫苷脂已被提出作为少突胶质细胞生成的负调节剂，脱髓鞘损伤期间其细胞外水平的异常升高可能是限制内源性少突胶质细胞前体（OPCs）恢复髓鞘的因素之一。不幸的是，机制介导的负调控OPC分化的硫苷脂是未知的。本申请的初步数据提供了一个可检验的假设，即脱髓鞘过程中释放的硫苷脂亚型通过Notch 1和PDGFr信号通路的失调对OPCs产生毒性作用。 为了挑战我们的假设，我们提出实验来确定四种硫苷脂亚型C16：0、C18：0、C24：0和C24：1（OPCs和髓鞘中的主要亚型）对OPCs的增殖、细胞死亡-存活、细胞周期和分化能力的影响。使用从P7大鼠胼胝体分离的特征明确的少突胶质细胞前体细胞。这些研究将通过免疫细胞化学分析、流式细胞术和液相色谱-质谱法对在增殖或分化条件下存在硫苷脂亚型的情况下生长的细胞中的硫苷脂进行。Notch 1和PDGFr α受体的参与将通过经典表达实验和每个途径中下游组分的功能分析来研究。 总之，这些研究将使我们能够通过研究两个充分研究的信号通路的功能相关性来表征OPCs生物学中的四种硫苷脂亚型的作用。对这一过程的理解在设计成功的髓鞘再生疗法中具有根本的相关性，这些疗法对于患有这种脱髓鞘疾病的人来说还不可用。