Kinetotoxic Mechanisms of Environmental Carcinogens

环境致癌物的运动毒性机制

基本信息

批准号：
7515339
负责人：
JAMES L SHERLEY
金额：
$ 21.95万
依托单位：
BOSTON BIOMEDICAL RESEARCH INSTITUTE
依托单位国家：
美国
项目类别：
财政年份：
2004
资助国家：
美国
起止时间：
2004-03-05 至 2009-01-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7515339
关键词：
Acute Adult Benzene Biological Assay Carcinogens Cell Cycle Kinetics Cell Line Cell Proliferation Cell model Cell physiology Cells Chemicals Chronic Classification Condition DNA biosynthesis Data Disruption Dose Environmental Carcinogens Environmental Health Environmental Pollution Etiology Exhibits Exposure to Frequencies Gene Mutation Genes Goals Growth Guidelines Health Hepatic Hepatocyte Human Human Cell Line In Vitro International Agency for Research on Cancer Intervention Kinetics Knowledge Lead Liver Malignant Neoplasms Measures Modeling Molecular Molecular Genetics Morbidity - disease rate Mus Mutagens Mutation Pathway interactions Phorbol Esters Premature aging syndrome Process Property Rate Rattus Recording of previous events Research Risk Rodent Stem cells Testing Tissues Tumor Promoters adult stem cell cancer cell carcinogenesis environmental agent human adult stem cell human tissue in vivo insight programs prototype tumor tumor progression

项目摘要

DESCRIPTION (provided by applicant): Several different in vitro and ex vivo-derived rodent cell lines were developed that recapitulate the specialized asymmetric cell kinetics of adult somatic tissue stem cells in vivo. Previously, these model cells have been used to investigate and define genetic and molecular mechanisms that control adult stem cell kinetics. In the proposed research, the model cells will be used to investigate whether environmental agents, that are known to induce human cancers but with no detectable mutagenic activity, do so by disrupting adult stem cell kinetics. Specifically, the hypothesis that some non-mutagenic carcinogens function by inducing increased rates of stem cell proliferation will be examined. Disruption of asymmetric stem cell kinetics is an essential step in human carcinogenesis. "Kinetotoxic" effects by environmental contaminants, that lead to increased adult stem cell proliferation, may also be important in the etiology of other chronic processes associated with altered cell proliferation (e.g., premature aging). The model cells have already been used to identify 3 organic compounds that switch exposed cells from asymmetric cell kinetics to exponential cell kinetics. The main focus of the proposed research will be to use these cell lines to evaluate well established non-mutagenic environmental carcinogens for kinetotoxicity. Both acute high-dose and chronic low-dose exposures will be investigated. In addition to evaluating non-mutagenic compounds, several well-known mutagenic carcinogens will be examined, as they may exhibit concurrent kinetotoxicity. Chemicals found to induce changes in cell kinetics will be evaluated for molecular effects on cellular genes previously identified as regulators of asymmetric cell kinetics. In preliminary studies, the IARC Group 1 human carcinogen benzene exhibits evidence for kinetotoxicity. Benzene has a well-documented history as a potent non-mutagenic human carcinogen. It will serve as the prototype kinetotoxic agent for developing a systematic approach to revealing kinetotoxic mechanisms. In vitro human cell lines with asymmetric cell kinetics will be derived to provide kinetotoxicity assays that may have greater relevance to human adult stem cell physiology. The proposed research has the goal of providing new insights to the carcinogenic mechanisms of well studied environmental contaminants whose mode of action remains a mystery. Such insights will advance efforts to develop better strategies to limit morbidity associated with exposure to environmental carcinogens.

描述（由申请人提供）：开发了几种不同的体外和离体衍生的啮齿动物细胞系，它们概括了体内成体组织干细胞的专门不对称细胞动力学。此前，这些模型细胞已被用来研究和定义控制成体干细胞动力学的遗传和分子机制。在拟议的研究中，模型细胞将用于研究环境因素是否通过破坏成体干细胞动力学来诱导人类癌症，但没有可检测到的诱变活性。具体来说，将检验一些非诱变致癌物通过诱导干细胞增殖率增加而发挥作用的假设。不对称干细胞动力学的破坏是人类致癌的重要步骤。环境污染物的“运动毒性”效应会导致成体干细胞增殖增加，这在与细胞增殖改变（例如过早衰老）相关的其他慢性过程的病因学中也可能很重要。模型细胞已用于识别 3 种有机化合物，这些化合物可将暴露的细胞从不对称细胞动力学转变为指数细胞动力学。拟议研究的主要重点将是使用这些细胞系来评估已确定的非致突变环境致癌物的运动毒性。急性高剂量和慢性低剂量暴露都将受到调查。除了评估非诱变化合物外，还将检查几种众所周知的诱变致癌物，因为它们可能表现出并发的运动毒性。将评估被发现诱导细胞动力学变化的化学物质对先前被确定为不对称细胞动力学调节剂的细胞基因的分子影响。在初步研究中，IARC 第 1 类人类致癌物苯显示出具有运动毒性的证据。苯作为一种有效的非致突变性人类致癌物有着充分的历史记录。它将作为原型运动毒性剂，用于开发揭示运动毒性机制的系统方法。将衍生具有不对称细胞动力学的体外人类细胞系，以提供可能与人类成体干细胞生理学具有更大相关性的运动毒性测定。这项研究的目的是为深入研究的环境污染物的致癌机制提供新的见解，这些污染物的作用方式仍然是个谜。这些见解将推动制定更好的策略，以限制与接触环境致癌物相关的发病率。