Molecular and Functional Characterization of Colon Tumor Cancer Stem Cells and St

结肠肿瘤干细胞和 St 的分子和功能表征

• 批准号: 7689204
• 负责人: MICHAEL CLARKE
• 金额: $ 127.97万
• 依托单位: STANFORD UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-09-30 至 2011-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7689204
• 关键词: Molecular; Functional; Characterization; Colon; Tumor

DESCRIPTION (provided by applicant): Cancer trails only cardiovascular disease as the leading cause of mortality in the US. Cancers of the lung, colon, breast and prostate, all derived from epithelium, account for the majority of cancer-related deaths. Recently, our group has made two important discoveries about the various populations of normal and cancer cells in tumors. First, we find that in tumors arising in the breast, colon and head and neck only a subset of the cancer cells, called cancer stem cells, drive the growth and spread of the tumor and are ultimately responsible for patient morbidity and mortality. Next, compared to normal tissue fibroblasts, tumor stroma fibroblasts are "activated" and make high levels of growth factors implicated in carcinogenesis. The goal of this proposal which is to understand the mechanisms by which colon cancer stem cells interact with the tumor stroma, addresses the central theme of this RFA. As envisioned by the RFA, the investigators are a highly collaborative, multi-disciplinary group drawn from several departments and schools of Stanford University including members from the Departments of Bioengineering, Biochemistry, Statistics, Health Research Policy, Surgery, Medicine and the Stanford Institute of Stem Cell Biology. The team is developing novel, cutting edge technology to understand at the molecular and cellular level how the cancer stem cells interact with the tumor stroma. The grant consists of 2 highly interactive projects as well as an administrative core and a bioinformatics core. Project 1 will obtain gene expression profiles from tumor components including cancer stem cells and normal stromal cells. The gene expression data will be used to identify stromal factors that drive cancer stem cell growth in novel high throughput assays. Project 2 has two parts. We will use microfluidic devices to do single cell gene expression arrays to determine whether there is cellular heterogeneity of the markers described in Project 1 to enrich cancer stem cells. If so, each cell population will be analyzed in Project 1 to determine whether we can further enrich cancer stem cells. The second part will use microfluidic devices to identify stromal cell factors that drive proliferation of colon cancer stem cells. Any factors identified in Project 2 that drive proliferation of the cancer stem cells will be tested in Project 1 to see if the factors cause expansion of cancer stem cells or if they drive them to differentiate into cancer cells that no longer can form a tumor.

描述（由申请人提供）：在美国，癌症仅次于心血管疾病，是导致死亡的主要原因。肺癌， 结肠癌、乳腺癌和前列腺癌都来自上皮细胞，占癌症相关死亡的大多数。 最近，我们的研究小组有了两个重要的发现， 肿瘤细胞首先，我们发现在乳腺、结肠和头颈部的肿瘤中， 癌细胞，称为癌症干细胞，驱动肿瘤的生长和扩散， 导致患者发病率和死亡率。其次，与正常组织成纤维细胞相比，肿瘤间质 成纤维细胞被“激活”并产生高水平的与癌发生有关的生长因子。的目标 这项提案旨在了解结肠癌干细胞与肿瘤相互作用的机制。 肿瘤间质，解决了这个RFA的中心主题。正如RFA所设想的那样，调查人员是一个 来自斯坦福大学多个系和学院的高度协作的多学科小组 大学，包括来自生物工程，生物化学，统计学，卫生部门的成员 研究政策，外科，医学和斯坦福大学干细胞生物学研究所。该团队正在开发 新颖的尖端技术，可以在分子和细胞水平上了解癌症干细胞如何 与肿瘤间质相互作用。该赠款包括两个高度互动的项目以及一个行政 核心和生物信息学核心。项目1将从肿瘤成分中获得基因表达谱 包括癌症干细胞和正常基质细胞。基因表达数据将用于识别 基质因子在新型高通量测定中驱动癌症干细胞生长。项目2有两个部分。 我们将使用微流控装置做单细胞基因表达阵列，以确定是否有 在项目1中描述的标记物的细胞异质性以富集癌症干细胞。如果是这样，每个细胞 在项目1中，将分析这些细胞群，以确定我们是否可以进一步富集癌症干细胞。的 第二部分将使用微流控装置来识别驱动结肠癌增殖的基质细胞因子 干细胞项目2中确定的任何驱动癌症干细胞增殖的因素都将在 项目1，看看这些因素是否会导致癌症干细胞的扩增，或者它们是否会驱使它们分化为 不能再形成肿瘤的癌细胞。