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Updated: Sep 4, 2025

A Streamlined Approach for Mass Spectrometry-Based Proteomics Using Selected Tissue Regions
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Published on: April 18, 2025

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SimPLIT: Simplified Sample Preparation for Large-Scale Isobaric Tagging Proteomics.

Fernando J Sialana1,2, Theodoros I Roumeliotis1, Habib Bouguenina2

  • 1Functional Proteomics Group, The Institute of Cancer Research, Chester Beatty Laboratories, London SW3 6JB, U.K.

Journal of Proteome Research
|July 18, 2022
PubMed
Summary
This summary is machine-generated.

We developed SimPLIT, a simplified, cost-effective proteomic workflow for large-scale cell line analysis. This method streamlines sample preparation, improving reproducibility for proteogenomic studies and drug target discovery.

Keywords:
CELMoDsIMiDsTMTprocancer cell linesisobaric labelingtargeted protein degradation

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Area of Science:

  • Proteomics
  • Cell Biology
  • Pharmacology

Background:

  • Large-scale proteomic profiling aids in understanding cellular mechanisms and drug actions.
  • Existing isobaric labeling workflows are often time-consuming and expensive, hindering scalability.

Purpose of the Study:

  • To present a simplified, cost-effective, and reproducible proteomic workflow for medium-to-large scale studies.
  • To demonstrate the workflow's utility in colorectal cancer cell line profiling and molecular glue degrader target discovery.

Main Methods:

  • A one-pot reaction workflow (SimPLIT) in a 96-well plate format.
  • Utilizes sodium deoxycholate lysis, a single detergent cleanup post-peptide labeling, and off-line fractionation.
  • Mass spectrometry (MS2) analysis for deep profiling.

Main Results:

  • SimPLIT minimizes processing steps and enhances reproducibility compared to other methods.
  • Successfully profiled colorectal cancer cell lines and identified dysregulated proteins.
  • Uncovered cell-dependent protein degradation profiles for seven CRL4CRBN molecular glue degraders.

Conclusions:

  • SimPLIT is a robust and easily implementable method for TMT-based proteomic studies.
  • Facilitates deep profiling of cell lines and target discovery in drug development.
  • Enables efficient proteogenomic associations and pharmacological mechanism elucidation.