Fully Integrated and Multiplexed Sample Preparation Technology for Sensitive Interactome Profiling

Affinity purification coupled to mass spectrometry (AP-MS) is a popular approach for deciphering the architecture of protein interaction networks. Protein lysates (100 μg) are typically required for multistep sample processing in large volumes, which often causes sample loss and reduces the MS analysis sensitivity. Herein, we reported a fully integrated spintip-based AP-MS technology, termed FISAP, for multiplexed and sensitive interactome profiling. The FISAP device can be easily employed for routine use by introducing AP beads into a C18 StageTip. Taking advantage of the switchable functionalization of the C18 matrix by sodium dodecyl sulfate, all the sample preparation steps encompassing peptide or antibody-based AP, reduction, alkylation, tryptic digestion, tandem mass tag (TMT) labeling, and desalting can be performed in a single tip with a benchtop centrifuge in 4 h. Using a biotinylated tyrosine phosphorylated (pTyr) peptide as an affinity ligand, we mapped the pTyr-dependent interactome of the pY191 motif on the immune receptor CD28 cytoplasmic domain. When processing 50 μg of protein lysates, FISAP showed a comparable interactome identification performance but better quantification performance and lower background interference compared to the traditional tube-based method. Furthermore, a cost-effective on-column TMT labeling protocol was established and integrated into the FISAP pipeline with increased sensitivity. Compared to the tube-based method, the usage of a synthetic peptide probe and a TMT reagent was both reduced by 20 times. As low as 1 μg of protein lysates could be applied for interactome profiling. Finally, we expanded the applicability of the FISAP technology to epitope tag-based AP-MS for profiling the ILK/PINCH/Parvin complex using 100 times less protein lysate than a previous report. Collectively, FISAP is an easy-to-use and sensitive technology for quantitatively profiling protein complexes when the starting material and affinity reagent are the limitation, especially for applications in biomedical research and chemical biology.