Home > Press > Quantum Dots Provide Quantitative Profile of Pancreatic Cancer Biomarkers on Single Cells
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Abstract:
With the aid of a novel set of lipid-coated, targeted quantum dots, researchers at Johns Hopkins University have developed a method for quantifying multiple specific biomarkers on the surfaces of individual cancer cells. This approach to quantitative biomarker detection stands to improve the histopathology methods used to diagnosis pancreatic and other cancers and enable the development of methods to spot cancer cells circulating in the blood stream.
Quantum Dots Provide Quantitative Profile of Pancreatic Cancer Biomarkers on Single Cells
Bethesda, MD | Posted on April 5th, 2012Peter Searson, co-principal investigator of the Center for Cancer Nanotechnology Excellence at Johns Hopkins, led this study. He and his collaborators published their work in the journal Nanomedicine.
The key to the success of this project was developing a method for coating quantum dots, fluorescent nanoparticles that shine brightly at specific wavelengths of light, in such a way as to make the nanoparticles water soluble and to keep them from binding to anything but their targets. The solution was to develop a lipid bilayer, the same strategy that nature uses to create the highly stable cell membrane, which is hydrophilic on the outside and renders the coated particles soluble.
The bilayer coating came with another benefit - it enabled the researchers to attach a specific number of biomarker-binding antibodies in a way that each coated quantum dot would only bind to one biomarker protein on the surface of a single cancer cell. The investigators created a set of three quantum dots, each emitting light of distinct color and each targeted to a different well-characterized pancreatic cancer protein.
To determine the amount of each biomarker on a pancreatic cell surface, the investigators spread tumor cells across a plate and added the targeted quantum dots. In a series of experiments, they demonstrated that they could saturate the biomarker proteins on the cell surface, that is, they could ensure that every biomarker protein on the cell surface was binding one quantum dot.
Dr. Searson's team then used high-resolution quantitative fluorescence imaging to measure the amount of light each cell emitted and used that number to calculate the density of each biomarker on the surface of each cell. The researchers were able to make these measurements with sufficient resolution to determine that one of the biomarkers was not distributed uniformly over the surface of the cell. They also demonstrated that they could make simultaneous measurements of all three targeted biomarkers, a capability essential to the development of high-throughput diagnostic profiling assays.
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To help meet the goal of reducing the burden of cancer, the National Cancer Institute (NCI), part of the National Institutes of Health, is engaged in efforts to harness the power of nanotechnology to radically change the way we diagnose, treat and prevent cancer.
The NCI Alliance for Nanotechnology in Cancer is a comprehensive, systematized initiative encompassing the public and private sectors, designed to accelerate the application of the best capabilities of nanotechnology to cancer.
Currently, scientists are limited in their ability to turn promising molecular discoveries into benefits for cancer patients. Nanotechnology can provide the technical power and tools that will enable those developing new diagnostics, therapeutics, and preventives to keep pace with today’s explosion in knowledge.
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