On-Tissue Hydrogel-Mediated Nondestructive Proteomic Characterization: Application to fr/fr and FFPE Tissues and Insights for Quantitative Proteomics Using a Case of Cardiac Myxoma.

Purpose: The application of a methodology for quantitative protein analysis from formalin-fixed and paraffin-embedded (FFPE) tissue by using hydrogels. Miniaturized polymeric gels are placed onto histologically defined tissue regions in order to perform localized digestion for bottom-up proteomics. Hydrogel-extracted peptides are then labeled with tandem mass tags (TMT) reagents for relative protein quantification. A cardiac myxoma biopsy is used.
Experimental Design: Multiple hydrogels, incorporating the proteolytic enzyme trypsin, are placed on serial tissue sections, and processed for digestion and TMT derivatization. SCX fractionation before LC-MS/MS analysis and bioinformatics analysis are carried out.
Results: Two histologically different areas on both FFPE and frozen sections of the same cardiac myxoma biopsy are compared. In total, 1949 (FFPE) and 2491 (frozen) proteins are identified, with a total overlap of 56%. The quantitative comparison highlighted 15 (FFPE) and 138 (frozen) differentially expressed proteins between myxoma regions.
Conclusion: The methodology successfully detects numerous protein signals from FFPE and frozen specimens and is able to differentiate between tissue regions. A fast and reliable tissue preparation for quantitative protein analysis by minimum sample manipulation is developed. This offers an option for on-tissue proteomics analysis while preserving the inherent spatial information on the tissue.
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