Molecular Systems Biology (Jun 2024)

µPhos: a scalable and sensitive platform for high-dimensional phosphoproteomics

  • Denys Oliinyk,
  • Andreas Will,
  • Felix R Schneidmadel,
  • Maximilian Böhme,
  • Jenny Rinke,
  • Andreas Hochhaus,
  • Thomas Ernst,
  • Nina Hahn,
  • Christian Geis,
  • Markus Lubeck,
  • Oliver Raether,
  • Sean J Humphrey,
  • Florian Meier

DOI
https://doi.org/10.1038/s44320-024-00050-9
Journal volume & issue
Vol. 20, no. 8
pp. 972 – 995

Abstract

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Abstract Mass spectrometry has revolutionized cell signaling research by vastly simplifying the analysis of many thousands of phosphorylation sites in the human proteome. Defining the cellular response to perturbations is crucial for further illuminating the functionality of the phosphoproteome. Here we describe µPhos (‘microPhos’), an accessible phosphoproteomics platform that permits phosphopeptide enrichment from 96-well cell culture and small tissue amounts in 90% selectivity, and excellent quantitative reproducibility. Employing highly sensitive trapped ion mobility mass spectrometry, we quantify ~17,000 Class I phosphosites in a human cancer cell line using 20 µg starting material, and confidently localize ~6200 phosphosites from 1 µg. This depth covers key signaling pathways, rendering sample-limited applications and perturbation experiments with hundreds of samples viable. We employ µPhos to study drug- and time-dependent response signatures in a leukemia cell line, and by quantifying 30,000 Class I phosphosites in the mouse brain we reveal distinct spatial kinase activities in subregions of the hippocampal formation.

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