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Cancer-associated fibroblast in the regulation of bladder cancer stem cells

癌症相关成纤维细胞对膀胱癌干细胞的调节

基本信息

批准号：
8901077
负责人：
Keith Syson Chan
金额：
$ 32.47万
依托单位：
BAYLOR COLLEGE OF MEDICINE
依托单位国家：
美国
项目类别：
财政年份：
2013
资助国家：
美国
起止时间：
2013-09-30 至 2016-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8901077
关键词：
Address Attenuated Binding Bioinformatics Biological Bladder Bladder Neoplasm Cancer Intervention Cancer Patient Clinical Collagen Diagnosis Disease Early Intervention Epithelial Fibroblasts Foundations Gene Expression Genes Goals Health Human Integrins Knowledge Laboratories Link Literature Lung Malignant Neoplasms Malignant neoplasm of urinary bladder Mediating Muscle Nodule Nuclear Outcome Paracrine Communication Pathway interactions Patients Phenocopy Phenotype Phosphorylation Play Primary Neoplasm Property Protein Tyrosine Kinase Proteomics Regulation Relative (related person)Reporting Research Role Signal Transduction Specimen Transplantation Undifferentiated Work Xenograft procedure cancer cell cancer stem cell cell type clinically relevant clinically significant cohort discoidin receptor gain of function loss of function mRNA Expression novel overexpression prognostic receptor research study self-renewal success therapeutic development tumor progression tumorigenesis tumorigenic

项目摘要

DESCRIPTION (provided by applicant): Bladder cancer, the fifth most common malignancy in the U.S. with approximately 70,000 new cases diagnosed each year, is essentially incurable after it has begun to progress. Much of the difficulty lies in the scarcity of mechanistic insightsin the functional involvement of the fibroblastic microenvironment, and its interactions with the epithelial cancer compartment in modulating early bladder cancer invasion. The applicant and his collaborators have made considerable strides in closing this gap. They were among the first to isolate and characterize human bladder cancer stem cells. Recently, they showed that an expansion of phenotypic cancer stem cells correlates with a poorer clinical outcome and bladder cancer invasion. Their proposal aims to extend these findings by elucidating the functional contribution of cancer-associated fibroblasts (CAFs) in the modulation of bladder cancer stem cells and tumor progression. This application has its foundation via demonstrating that bladder cancer patients with an elevated expression of CAF genes also have muscle-invasive cancer and a poorer survival. Moreover, activated CAFs localize immediately adjacent to phenotypic cancer stem cells, suggesting a possible functional interaction between these two cell types. Additional findings indicate an important role of collagen I (COL1) excreted by CAFs, which can bind to discoidin domain receptor tyrosine kinase 1 (DDR1) on bladder cancer cells and modulate their tumorigenic properties. This progress has led to a novel working hypothesis - that COL1-DDR1 signaling between activated CAFs and bladder cancer cells is one of the mechanisms exerted by CAFs to regulate cancer stem cells and tumor progression. Three specific research aims will be pursued. Aim 1 seeks to establish the functional involvement of CAFs in the regulation of cancer stem cells and tumor progression, with an emphasis on using primary patient specimens. To further define the clinical significance of CAFs, we will utilize tw independent patient cohorts to assess the expression of CAFs/COL1 in relation to bladder cancer differentiation and selected clinical prognostic information. Aim 2 will employ both gain-of-function and loss-of-function strategies to define the functional contributions of DDR1 on bladder cancer cells to mediate the biological properties promoted by CAFs. These studies will be aided by the availability of newly isolated bladder CAFs and the applicant's expertise in isolating cancer stem cells for subsequent analysis. Finally, Aim 3 will access Stat3 and additional downstream mechanisms related to DDR1, using established proteomics profiling approach. The applicant intends to uncover druggable targets within this pathway for early bladder cancer intervention, as the long-term goal of this proposal.

描述（由申请人提供）：膀胱癌是美国第五常见的恶性肿瘤，每年诊断出约70，000例新病例，在开始进展后基本上无法治愈。大部分的困难在于缺乏机制的洞察力的功能参与的成纤维细胞微环境，其相互作用与上皮癌隔间在调制早期膀胱癌的侵袭。申请人和他的合作者在缩小这一差距方面取得了相当大的进展。他们是最早分离和鉴定人类膀胱癌干细胞的人之一。最近，他们发现表型癌症干细胞的扩增与较差的临床结果和膀胱癌侵袭相关。他们的提案旨在通过阐明癌症相关成纤维细胞（CAFs）在膀胱癌干细胞和肿瘤进展调节中的功能贡献来扩展这些发现。该应用的基础是证明CAF基因表达升高的膀胱癌患者也患有肌肉浸润性癌症并且生存率较差。此外，激活的CAFs定位于表型癌症干细胞附近，表明这两种细胞类型之间可能存在功能性相互作用。另外的发现表明CAFs分泌的胶原I（COL 1）的重要作用，其可以结合膀胱癌细胞上的盘状结构域受体酪氨酸激酶1（DDR 1）并调节其致瘤特性。这一进展导致了一个新的工作假设-激活的CAFs和膀胱癌细胞之间的COL 1-DDR 1信号传导是CAFs调节癌症干细胞和肿瘤进展的机制之一。三个具体的研究目标将被追求。目的1旨在建立CAFs在调节癌症干细胞和肿瘤进展中的功能参与，重点是使用原发性患者标本。为了进一步确定CAF的临床意义，我们将利用两个独立的患者队列来评估CAF/COL 1的表达与膀胱癌分化和选定的临床预后信息的关系。目的2将采用功能获得和功能丧失策略来确定DDR 1对膀胱癌细胞介导CAF促进的生物学特性的功能贡献。这些研究将得益于新分离的膀胱CAF的可用性以及申请人在分离癌症干细胞用于后续分析方面的专业知识。最后，目标3将使用已建立的蛋白质组学分析方法访问Stat 3和与DDR 1相关的其他下游机制。申请人打算发现该途径中的可药物靶点，用于早期膀胱癌干预，作为该提案的长期目标。