权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

POTENTIATION OF RADIATION THERAPY BY CARBOPLATIN

卡铂增强放射治疗

基本信息

批准号：
3180551
负责人：
EVAN BARR DOUPLE
金额：
$ 15.35万
依托单位：
DARTMOUTH COLLEGE
依托单位国家：
美国
项目类别：
财政年份：
1986
资助国家：
美国
起止时间：
1986-04-01 至 1989-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3180551
关键词：
combination cancer therapy drug adverse effect neoplasm /cancer radiation therapy radiation sensitivity synchronous cell division tissue /cell culture

项目摘要

A new platinum complex diammine(1,1-cyclobutanedicarboxylato)platinum(II) [Carboplatin or CBDCA] promies to replace or complement Cisplatin (cis-DDP) as an important anti-tumor agent based on clinical trials that have demonstrated efficacy without dose-limiting nephro- or gastrointestinal toxicity. Since the parent complex, cis-DDP, and several platinum analogs have been shown to potentiate radiation-induced cell kill in vitro and radiation therapy (RT) in animal tumors, this project proposes to test for two types of interaction when CBDCA is combined with RT and to compare the results with those obtained using cis-DPP. The study is divided into three parts. First, we will test for, and distinguish between, two interactions: the radiosensitization (RS) of hypoxic and euoxic cells, and (b)\radiation-induced enhanced chemotoxicity (EC) that results when platinum complexes are added after irradiation, which may result from the inhibition of radiation damage repair mechanisms. Second, we will determine whether both RS of hypoxic cells by platinum and post-radiation EC are demonstrable and important in human tumor cells treated as xenografts in nude mice. Third, we will measure the concentrations of CBDCA and cis-DDP in cells and in tumors and correlate total free and DNA-bound platinum levels, with the magnitude of interactions produced. The in vitro studies will employ two "normal" cells lines: the rodent line V79 and the human fetal lung fibroblast HFL. In addition, the human malignant melanoma cell line HX34 will be used along with two strains of a rodent tumor (Walker 256), one of which (WS) is more sensitive to platinum than the other (WR). The cell kill resulting from combined modalities will be assessed using colony forming unit (CFU) analysis on petri dish surfaces or in agar. The xenograft studies will employ the human malignant melanoma HX34, and cell survival will be evaluated using CFU analysis of cells explanted into agar following treatment in situ. Platinum levels will be measured using atomic absorption spectroscopy (AAS). These studies are designed to answer such questions as: (a) Does this second generation platinum complex interact more extensively with radiation than does Cisplatin? (b) Is this interaction greatest when cellular levels of total or free platinum are at their highest or when maximum platinum is bound to DNA?; and (c) Do these interactions occur in solid tumor? The results of this project will contribute directly to a rationale for combining CBDCA or cis-DDP with RT and are necessary to the formulation of appropriate designs for the clinical protocols that are being planned to exploit these interactions.

一种新的铂配合物二氨（1，1-环丁烷二甲酸）合铂（II） [卡铂或CBDCA]有望取代或补充顺铂（cis-DDP）作为一种重要的抗肿瘤药物，已证实疗效，无剂量限制性肾或胃肠道毒性由于母体复合物顺式DDP和几种铂类似物已显示在体外增强辐射诱导的细胞杀伤，放射治疗（RT）在动物肿瘤，该项目提出测试 CBDCA与RT结合时的两种相互作用并比较结果与使用cis-DPP获得的结果一致。研究分为三个部分零件. 首先，我们将测试并区分两种交互：低氧和常氧细胞的放射增敏（RS），和 (b)辐射诱导的增强化学毒性（EC），当铂络合物在照射后加入，这可能是由于抑制辐射损伤修复机制。二是确定是否通过铂和辐射后缺氧细胞的RS EC在治疗的人肿瘤细胞中是可证明的和重要的，在裸鼠中的异种移植物。第三，我们将测量细胞和肿瘤中的CBDCA和顺式-DDP以及相关的总游离和 DNA结合铂水平，以及产生的相互作用的大小。体外研究将使用两种“正常”细胞系： V79和人胎肺成纤维细胞HFL。此外，人类恶性黑色素瘤细胞系HX 34将沿着两株啮齿动物肿瘤（步行者256），其中一种（WS）对铂更敏感另一个（WR）。由组合方式产生的细胞杀伤将使用培养皿表面上的菌落形成单位（CFU）分析进行评估或在琼脂中。异种移植研究将使用人类恶性黑色素瘤 HX 34，并将使用细胞的CFU分析来评价细胞存活在原位处理后接种到琼脂中。白金级别将是使用原子吸收光谱法（AAS）测量。这些研究旨在回答以下问题：（a）第二代铂络合物与辐射的相互作用比顺铂？ (b)这种相互作用是否在细胞水平的或游离铂处于其最高值时，或当最大铂与 DNA？和（c）这些相互作用是否发生在实体瘤中？的结果该项目将直接有助于将CBDCA或顺式DDP与RT，并有必要制定适当的设计用于临床方案，交互.