Magnetic nanobeads for cancer cell selection

用于癌细胞选择的磁性纳米珠

• 批准号: 6962010
• 负责人: Arfaan Rampersaud
• 金额: $ 10万
• 依托单位: COLUMBUS NANOWORKS, INC.
• 依托单位国家: 美国
• 财政年份: 2005
• 资助国家: 美国
• 起止时间: 2005-09-01 至 2006-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6962010
• 关键词: antibody; antigen antibody reaction; binding proteins; bioengineering /biomedical engineering; biotin; chemical synthesis; human genetic material tag; human tissue; immunomagnetic separation; iron compounds; magnetic field; nanotechnology; neoplastic cell; ovary neoplasms; particle; silicon compounds; technology /technique development; tissue /cell culture

DESCRIPTION (provided by applicant): The aim of this proposal is to develop high-resolution magnetic nanoparticles for use in Quadruple Magnetic Sorting (QMS). QMS is a flow-through immunomagnetic separation system that can provide sensitive enrichment of circulating cancer cells in blood as well as other biological fluids. Optimal cellular separation by QMS requires immunomagnetic particles having high magnetic susceptibility, narrow particle size distribution and high density attachment sites for antibodies. Current commercial immunomagnetic beads are either too large, lack size uniformity, or have too low magnetic susceptibility. We will make the necessary improvements in the magnetic immunobeads using recent advances in nano-particle technology and evaluate their performance by enriching ovarian cancer cells from a complex population of cultured cells. In Specific Aim 1 we will synthesize and physically characterize monodisperse paramagnetic nanoparticles using sol-gel methods to encapsulate Fe nano-crystals. These nanoparticles will have uniform size distribution and shape, and possess a high weight percentage of iron (Milestone 1). In Specific Aim 2 we will use siloxane treatments and heterobifunctional coupling agents to create high-density attachment sites for antibodies and streptavidin (Milestone 2). The resulting particles will be analyzed for their particle field interaction parameter values which is a major determinant of the effectiveness of magnetic nanoparticles in cellular separation (Milestone 3). Finally in Specific Aim 3 we will evaluate our magnetic nanoparticles for immunomagnetic detection and separation of ovarian tumor cells by QMS. The human ovarian tetracarcinoma PA-1 tumor cells will be diluted into whole blood and subjected to QMS using antibodies against TAG-72, a surface-expressed protein present on ovarian cancer cells. Demonstrating the detection of tumor cells in whole blood cells will be taken as the proof of principal for this project.

描述（由申请人提供）：该提案的目的是开发用于四倍磁排序（QMS）的高分辨率磁性纳米颗粒。 QMS是一种流通的免疫磁分离系统，可以提供血液中循环癌细胞以及其他生物液的敏感富集。 QMS的最佳细胞分离需要具有高磁化率，狭窄的粒度分布和高密度附着位点的免疫磁性颗粒。当前的商业免疫磁珠要么太大，缺乏尺寸均匀性，要么具有太低的磁化率。我们将使用纳米颗粒技术的最新进展来对磁性免疫棒进行必要的改进，并通过丰富复杂培养细胞群的卵巢癌细胞来评估其性能。在特定的目标1中，我们将使用溶胶 - 凝胶方法综合并物理表征单分散的顺磁性纳米颗粒来封装Fe纳米晶体。这些纳米颗粒的尺寸分布和形状均匀，并具有高度的铁（里程碑1）。在特定的目标2中，我们将使用硅氧烷处理和异常耦合剂来创建用于抗体和链霉亲和链霉菌素的高密度附着位点（里程碑2）。将分析所得颗粒的粒子场相互作用参数值，这是磁性纳米颗粒在细胞分离中有效性的主要决定因素（里程碑3）。最后，在特定目标3中，我们将评估磁性纳米颗粒，以通过QMS对卵巢肿瘤细胞进行免疫磁性检测和分离。人类卵巢四核PA-1肿瘤细胞将被稀释成全血，并使用针对TAG-72的抗体对QM进行QM，这是一种在卵巢癌细胞上存在的表面表达蛋白质。证明全血细胞中肿瘤细胞的检测将被视为该项目的主要证明。