Abstract 4552: Profiling signalling protein expression, modifications and interactions with multi-dimensional antibody microarrays

Abstract

Abstract Antibody microarrays permit sensitive and semi-quantitative analysis of the expression, covalent modification and interactions of proteins in lysates of cells and tissues. At Kinexus, we have developed high content Kinex KAM microarrays that feature nearly 900 pan- and phosphosite-specific antibodies for monitoring protein kinases, phosphatases and other low abundance cell signalling proteins with combinations of different detection systems. One method involved capture of in vitro dye-labeled proteins (e.g. with Cy3) from lysates from cells subjected to diverse treatments. Another method involved the detection of changes in their total phosphorylation with biotinylated pIMAGO stain and an anti-biotin antibody that is labeled with a different dye (e.g. Cy5). Alteration in protein-tyrosine phosphorylation were monitored with a dye-labelled, generic phosphotyrosine-specific PYK antibody in a sandwich antibody microarray (SAM) format. The SAM technique was also used to explore the interactions of adapter, scaffolding and chaperone proteins with hundreds of potential target signal transduction proteins with dye-labeled reporter antibodies for these highly interactive proteins. We used several human cancer cell lines (e.g. A431, HeLa, Jurkat, MCF7) subjected to diverse treatments (e.g. growth factors) to identify biomarkers for the actions of these agents. Reproducible results were obtained with as little as 25 μg of lysate protein, with a dynamic range of detection exceeding 6000-fold, and a median error range for duplicates measurements of ±12%. Typically 10-15% of the proteins tracked with these arrays demonstrated perturbations exceeding 50%. More than a third of the leads from our antibody microarrays were confirmed by immunoblotting studies. The major limitation associated with validation by Western blotting was the much lower sensitivity with immunoblotting compared with antibody microarrays. We also explored the specific interactions of heat shock proteins, adapter proteins, 14-3-3 and calcium-binding proteins with the antibody microarray captured lysate proteins from cancer cell lines. By combining these detection strategies, it was feasible to obtain over 7000 data points from use of a single antibody microarray slide with two lysate samples and duplicate measurements. The goal of our proteomics and bioinformatics studies is to use the experimental results from the application of these microarrays to map the architecture of signalling networks in a cell- or tissue-specific manner. Such multi-tiered microarray-based analyses permit target-directed identification of diverse regulatory protein changes in different experimental model systems with greater sensitivity, breadth, selectivity and economy when compared to any other competing proteomics methodologies. Citation Format: Steven Pelech, Lambert Yue, Jeffrey White, Ryan Hounjet, Dirk Winkler. Profiling signalling protein expression, modifications and interactions with multi-dimensional antibody microarrays. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4552.