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Differentiating Radio-sensitivities Among Intestinal Stem Cell Pools

区分肠道干细胞池的放射敏感性

基本信息

批准号：
9135792
负责人：
Chandan Guha
金额：
$ 6.45万
依托单位：
COLUMBIA UNIVERSITY HEALTH SCIENCES
依托单位国家：
美国
项目类别：
财政年份：
2014
资助国家：
美国
起止时间：
2014-09-15 至 2019-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/9135792
关键词：
Ablation Bone Marrow Cell Fate Control Cell Survival Cells Characteristics Cholinergic Agents Columnar Cell Data Dose Epithelial Epithelial Cells Epithelium Gastrointestinal Injury Gene Expression Gene Expression Profiling Genetic Growth Growth Factor Health Homeostasis Human In Vitro Injury Intestines KRT19 gene Keratin-19 Label Maps Mediating Medical Mesenchymal Modeling Mus Natural regeneration Nerve Neurons Organoids Positioning Attribute Principal Investigator Radiation Radiation Injuries Radiation Tolerance Radiation therapy Recovery Regulation Relative (related person)Reserve Stem Cell Role Serotonin Signal Transduction Small Intestines Stem cells Stromal Cells Structure Study models Syndrome System Testing Therapeutic Agents Time Work base cell type cholinergic design gastrointestinal in vivo induced pluripotent stem cell intestinal epithelium irradiation macrophage novel therapeutics programs protein expression radiation effect radiation response radioresistant radiosensitive relating to nervous system repaired response stem cell population therapeutic target

项目摘要

DESCRIPTION (provided by applicant): The intestinal epithelium is rapidly renewed every 3-5 days from both active cycling stem cells, as well as, more quiescent stem cells. The radiation-induced gastrointestinal syndrome (RIGS) results from dose-dependent, cytocidal effects of radiation on intestinal stem cells. Preliminary work from our group has demonstrated using inducible Cre-dependent lineage tracing that Keratin-19 (Krt19) labels intestinal stem cells distinct from Lgr5+ CBCs and located above the +4 region. In contrast to Lgr5+ cells, Krt19+ stem cells are radioresistant and can regenerate the small intestine following 12Gy radiation. In addition, data from our group has shown that both mesenchymal cells and nerves are important in modulating stem cells and contributing to regeneration. Thus, it is our hypothesis that the +4 intestinal stem cell (ISC) marked by Krt19 is critical to the response to radiation injury, and maybe regulated by stromal factors distinct from that for Lgr5+ stem cells. We will explore this hypothesis through three specific aims. (1) What is the hierarchical relationship and characteristics that distinguish Lgr5+ and Krt19+ stem cells. We will use in vivo lineage tracing, in vitro organoids and gene expression studies to explore these distinct stem cell populations. (2) What is the role of neural factors in ISC expansion in response to radiation injury? We will use murine models with altered serotonin and cholinergic signaling to assess the response of ISCs to radiation injury. (3) How do intestinal growth factors regulate ISC regeneration in mice after radiation? We will examine defined intestinal growth factors (such as R-spondin1 and KGF), as well as other candidate niche factors, in the protection and mitigation of RIGS. There are currently no approved medical countermeasures to alleviate the RIGS. Overall, this proposal will investigate the hierarchy, cell fate, and role in regeneration of various ISC populations post radiation.

描述（由申请人提供）：肠上皮细胞每3-5天从活跃的循环干细胞以及更多的静止干细胞中快速更新。辐射诱导的胃肠道综合征（RIGS）是由辐射对肠道干细胞的剂量依赖性杀细胞作用引起的。我们小组的初步工作已经证明，使用可诱导的Cre依赖性谱系追踪，角蛋白-19（Krt 19）标记的肠干细胞与Lgr 5 + CBCs不同，位于+4区域上方。与Lgr 5+细胞相比，Krt 19+干细胞具有抗辐射性，并且可以在12 Gy辐射后再生小肠。此外，来自我们小组的数据表明，间充质细胞和神经在调节干细胞和促进再生方面都很重要。因此，我们假设Krt 19标记的+4肠干细胞（ISC）在辐射损伤的反应中是关键的，并且可能受到不同于Lgr 5+干细胞的基质因子的调节。我们将通过三个具体目标来探讨这一假设。(1)什么是区分Lgr 5+和Krt 19+干细胞的层次关系和特征。我们将使用体内谱系追踪，体外类器官和基因表达研究来探索这些不同的干细胞群。(2)神经因子在辐射损伤后ISC扩张中的作用是什么？我们将使用改变血清素和胆碱能信号的小鼠模型来评估ISCs对辐射损伤的反应。(3)肠生长因子如何调节辐射后小鼠ISC再生？我们将研究确定的肠道生长因子（如R-spondin 1和KGF），以及其他候选的生态位因子，在保护和减轻RIGS。目前没有批准的医疗对策来缓解RIGS。总的来说，这项计划将调查的层次，细胞命运，并在再生中的作用，各种ISC人口后，辐射