SUMOylation is an essential modification that regulates hundreds of proteins in eukaryotic cells. Owing to its dynamic nature and low steady-state levels, endogenous SUMOylation is challenging to detect. Here, we present a method that allows efficient enrichment and identification of endogenous targets of SUMO1 and the nearly identical SUMO2 and 3 (SUMO 2/3) from vertebrate cells and complex organ tissue. Using monoclonal antibodies for which we mapped the epitope, we enriched SUMOylated proteins by immunoprecipitation and peptide elution. We used this approach in combination with MS to identify SUMOylated proteins, which resulted in the first direct comparison of the endogenous SUMO1- and SUMO2/3-modified proteome in mammalian cells, to our knowledge. This protocol provides an affordable and feasible tool to investigate endogenous SUMOylation in primary cells, tissues and organs, and it will facilitate understanding of SUMO's role in physiology and disease.
SUMOylation is a protein modification that regulates the function of hundreds of proteins. Detecting endogenous SUMOylation is challenging: most small ubiquitin-related modifier (SUMO) targets are low in abundance, and only a fraction of a protein's cellular pool is typically SUMOylated. Here we present a step-by-step protocol for the enrichment of endogenous SUMO targets from mammalian cells and tissues (specifically, mouse liver), based on the use of monoclonal antibodies that are available to the scientific community. The protocol comprises (i) production of antibodies and affinity matrix, (ii) denaturing cell lysis, and (iii) SUMO immunoprecipitation followed by peptide elution. Production of affinity matrix and cell lysis requires ∼1 d. The immunoprecipitation with peptide elution can be performed in 2 d. As SUMO proteins are conserved, this protocol should also be applicable to other organisms, including many vertebrates and Drosophila melanogaster.
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