Integrated microscale analysis system for targeted LC/MS proteomics on limited amounts of enriched cell populations
Martin, Jeffrey, Rejtar, Tomas and Martin, Stephen (2013) Integrated microscale analysis system for targeted LC/MS proteomics on limited amounts of enriched cell populations. Analytical Chemistry.
Abstract
Limited samples, such as those that are in vivo sourced via biopsy, are closely representative of biological systems and contain valuable information for drug discovery. These precious samples are often heterogeneous and require cellular pre-fractionation prior to proteomic analysis to isolate specific subpopulations of interest. Enriched cells from in vivo samples are often very limited and pose a significant challenge to proteomic nanoLCMS (liquid chromatography mass spectrometry) sample preparation. To enable the streamlined analysis of these limited samples, we have developed an online cell enrichment, microscale sample preparation, nanoLCMS proteomics workflow by integrating fluorescence activated cell sorting (FACS), focused ultrasonication, microfluidics, immobilized trypsin digestion, and nanoLCMS. To assess the performance of the online FACS-Chip-LCMS workflow, 5000 fluorescent labeled SILAC HeLa cells were enriched from a 5% heterogeneous cell population within a background of Light HeLa cells and processed for LCMS proteomics. Within these 5000 enriched cells, 30 peptides corresponding to 17 proteins spanning 4.5 orders of magnitude of cellular abundance were quantified using a QExactive MS. The results from the online FACS-Chip-LCMS workflow starting from 5000 enriched cells were directly compared to results from a traditional macroscale sample preparation workflow starting from 2.0 x 106 cells. The microscale FACS-Chip-LCMS workflow demonstrated high cellular enrichment efficiency and high peptide recovery efficiency across the wide dynamic range of targeted peptides. Overall the microscale FACS-Chip-LCMS workflow has shown effectiveness in efficiently preparing limited amounts of FACS enriched cells in an online manner for proteomic LCMS.
Item Type: | Article |
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Keywords: | microfluidics, proteomics, mass spectrometry |
Date Deposited: | 13 Oct 2015 13:13 |
Last Modified: | 13 Oct 2015 13:13 |
URI: | https://oak.novartis.com/id/eprint/10646 |