Proteomic Profiling of Stem Cell Differentiation

干细胞分化的蛋白质组学分析

• 批准号: 6889216
• 负责人: Song Li
• 金额: $ 15.51万
• 依托单位: UNIVERSITY OF CALIFORNIA BERKELEY
• 依托单位国家: 美国
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-05-01 至 2007-01-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6889216
• 关键词: affinity chromatography; biological signal transduction; biomarker; biomechanics; biotechnology; cell differentiation; liquid chromatography mass spectrometry; pluripotent stem cells; posttranslational modifications; proteomics; transforming growth factors; two dimensional gel electrophoresis; vascular smooth muscle

DESCRIPTION (provided by applicant): Bone marrow mesenchymal stem cell (BMMSC) has potential to differentiate into different cell types. The long-term goal of this research is to control BMMSC differentiation in vitro and use BMMSC-derived smooth muscle cell (SMC) to construct tissue-engineered vascular grafts. The cyclic mechanical strain in the vessel wall and transforming growth factor 13(TGF-B) play important roles in SMC differentiation and vascular remodeling. The investigator has shown that both mechanical strain and TGF-I31 increase the expression of SMC markers in BMMSC. However, the underlying mechanisms and the proteomic changes of BMMSCs during differentiation are not well understood. Proteomic profiling provides a systematic and powerful approach to studying stem cell functions. The investigator hypothesizes: (1) BMMSC and its differentiation can be characterized by the expression of specific protein markers, and (2) mechanical strain and TGF-B] regulate BMMSC differentiation through distinct mechanisms and synergize the differentiation of BMMSCs into SMCs. Two specific aims are proposed in this exploratory/development study. In Aim 1, the investigator will determine the proteomic profile of BMMSC and identify potential markers of BMMSC. TGF-B] and other differentiation factors will be used to induce the proteome changes and differentiation of BMMSC. A comprehensive strategy using state-of-the-art technologies will be employed for proteome analysis. 2D gel electrophoresis and multidimensional liquid chromatography will be used for protein/peptide separation. Mass spectrometry will be used for protein identification and characterization. A reference map of BMMSC will be generated. The proteins only expressed in undifferentiated BMMSC will be identified. In Aim 2, the investigator will determine the proteome changes in BMMSC in response to mechanical strain and TGF-B. The proteins with changes in expression and post-translational modifications will be identified. Immobilized metal affinity capture will be employed for phosphopeptide enrichment. The global mechano-chemical signal transduction during BMMSC differentiation will be determined, and a map will be generated for the signaling pathways differentially regulated, shared, and synergized by mechanical strain and TGF-B]. Categorization and cluster analysis will be performed to correlate the proteins and signaling pathways. This study will advance our knowledge on BMMSC proteome and differentiation, and lead to more focused and in-depth biological studies in the future. The successful accomplishment of the goals will have high impact on stem cell engineering, and provide a rational basis for engineering BMMSC for vascular tissue repair.

描述（申请人提供）：骨髓间充质干细胞（BMMSC）具有分化成不同细胞类型的潜力。本研究的长期目标是在体外控制BMMSC分化，并利用BMMSC衍生的平滑肌细胞（SMC）构建组织工程血管移植物。血管壁的周期性机械应变和转化生长因子13（TGF-B）在SMC分化和血管重塑中发挥重要作用。研究人员表明，机械应变和 TGF-I31 都会增加 BMMSC 中 SMC 标志物的表达。然而，BMMSCs 分化过程中的潜在机制和蛋白质组变化尚不清楚。蛋白质组分析为研究干细胞功能提供了系统且强大的方法。研究者假设：(1) BMMSC 及其分化可以通过特定蛋白标记物的表达来表征，(2) 机械应变和 TGF-B] 通过不同的机制调节 BMMSC 分化，并协同 BMMSC 向 SMC 的分化。这项探索性/发展研究提出了两个具体目标。在目标 1 中，研究者将确定 BMMSC 的蛋白质组谱并鉴定 BMMSC 的潜在标记。 TGF-B]和其他分化因子将用于诱导BMMSC的蛋白质组变化和分化。将采用采用最先进技术的综合策略进行蛋白质组分析。二维凝胶电泳和多维液相色谱将用于蛋白质/肽分离。质谱分析将用于蛋白质鉴定和表征。将生成 BMMSC 的参考图。将鉴定仅在未分化的 BMMSC 中表达的蛋白质。在目标 2 中，研究人员将确定 BMMSC 响应机械应变和 TGF-B 的蛋白质组变化。将鉴定表达和翻译后修饰发生变化的蛋白质。固定化金属亲和捕获将用于磷酸肽富集。将确定 BMMSC 分化过程中的整体机械化学信号转导，并生成机械应变和 TGF-B 差异调节、共享和协同作用的信号通路图谱]。将进行分类和聚类分析以关联蛋白质和信号传导途径。这项研究将增进我们对 BMMSC 蛋白质组和分化的认识，并在未来带来更有针对性和更深入的生物学研究。这些目标的成功实现将对干细胞工程产生重大影响，并为工程化BMMSC用于血管组织修复提供合理的基础。

项目成果

Proteomic profiling of bone marrow mesenchymal stem cells upon transforming growth factor beta1 stimulation.

转化生长因子β1刺激后骨髓间充质干细胞的蛋白质组学分析。

• 发表时间: 2004-10-15
• 作者: Wang, Daojing;Park, Jennifer S;Chu, Julia S F;Krakowski, Ari;Luo, Kunxin;Chen, David J;Li, Song
• 通讯作者: Li, Song

Differential effects of x-rays and high-energy 56Fe ions on human mesenchymal stem cells.

X 射线和高能 56Fe 离子对人间充质干细胞的不同影响。

• 发表时间: 2009-03-01
• 作者: Kurpinski, Kyle;Jang, Deok;Bhattacharya, Sanchita;Rydberg, Bjorn;Chu, Julia;So, Joanna;Wyrobek, Andy;Li, Song;Wang, Daojing
• 通讯作者: Wang, Daojing