SimPLIT: Simplified Sample Preparation for Large-Scale Isobaric Tagging Proteomics.
Fernando J SialanaTheodoros I RoumeliotisHabib BougueninaLaura Chan Wah HakHannah WangJohn CaldwellIan CollinsRajesh ChopraJyoti S ChoudharyPublished in: Journal of proteome research (2022)
Large scale proteomic profiling of cell lines can reveal molecular signatures attributed to variable genotypes or induced perturbations, enabling proteogenomic associations and elucidation of pharmacological mechanisms of action. Although isobaric labeling has increased the throughput of proteomic analysis, the commonly used sample preparation workflows often require time-consuming steps and costly consumables, limiting their suitability for large scale studies. Here, we present a simplified and cost-effective one-pot reaction workflow in a 96-well plate format (SimPLIT) that minimizes processing steps and demonstrates improved reproducibility compared to alternative approaches. The workflow is based on a sodium deoxycholate lysis buffer and a single detergent cleanup step after peptide labeling, followed by quick off-line fractionation and MS2 analysis. We showcase the applicability of the workflow in a panel of colorectal cancer cell lines and by performing target discovery for a set of molecular glue degraders in different cell lines, in a 96-sample assay. Using this workflow, we report frequently dysregulated proteins in colorectal cancer cells and uncover cell-dependent protein degradation profiles of seven cereblon E3 ligase modulators (CRL4 CRBN ). Overall, SimPLIT is a robust method that can be easily implemented in any proteomics laboratory for medium-to-large scale TMT-based studies for deep profiling of cell lines.
Keyphrases
- single cell
- mass spectrometry
- electronic health record
- small molecule
- high throughput
- label free
- multiple sclerosis
- genome wide
- molecularly imprinted
- case control
- high glucose
- ms ms
- stem cells
- diabetic rats
- mesenchymal stem cells
- endothelial cells
- cell therapy
- gene expression
- binding protein
- stress induced
- drug induced
- solid phase extraction