There is a need for high throughput methods for screening patient samples in the quest for potential biomarkers for diagnostics and patient care. Here, we used a combination of undirected target selection, antibody suspension bead arrays, and heat-induced epitope retrieval to allow for protein profiling of human plasma in a novel and systematic manner. Several antibodies were found to reveal altered protein profiles upon epitope retrieval at elevated temperatures with limits of detection improving into lower ng/ml ranges. In a study based on prostate cancer patients, several proteins with differential profiles were discovered and subsequently validated in an independent cohort. For one of the potential biomarkers, the human carnosine dipeptidase 1 protein (CNDP1), the differences were determined to be related to the glycosylation status of the targeted protein. The study shows a path of pursuit for large scale screening of biobank repositories in a flexible and proteome-wide fashion by utilizing heat-induced epitope retrieval and using an antibody suspension bead array format. Molecular & Cellular Proteomics 9: 2497-2507, 2010.
Current approaches within affinity-based proteomics are driven both by the accessibility and availability of antigens and capture reagents, and by suitable multiplexed technologies onto which these are implemented. By combining planar microarrays and other multiparallel systems with sets of reagents, possibilities to discover new and unpredicted protein-disease associations, either via directed hypothesis-driven or via undirected hypothesis-generating target selection, can be created. In the following stages, the discoveries made during these screening phases have to be verified for potential clinical relevance based on both technical and biological aspects. The use of affinity tools throughout discovery and verification has the potential to streamline the introduction of new markers, as transition into clinically required assay formats appears straightforward. In this article, we summarize some of the current building blocks within array- and affinity-based proteomic profiling with a focus on body fluids, by giving a perspective on how current and upcoming developments in this bioscience could enable a path of pursuit for biomarker discovery.
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