doi: 10.1038/s41467-025-56736-7.
Limiting the impact of protein leakage in single-cell proteomics
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- PMID: 40324992
- PMCID: PMC12053607
- DOI: 10.1038/s41467-025-56736-7
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Limiting the impact of protein leakage in single-cell proteomics
Nat Commun.
.
Abstract
Limiting artifacts during sample preparation can significantly increase data quality in single-cell proteomics experiments. Towards this goal, we characterize the impact of protein leakage by analyzing thousands of primary single cells from mouse trachea. The cells were prepared either fresh immediately after dissociation or first cryopreserved and prepared at a later date. We directly identify permeabilized cells by imaging a cell permeable dye and use the data to define a signature for protein leakage. This signature is similar across diverse cell types and reflects increased leakage propensities for cytosolic and nuclear proteins compared to membrane and mitochondrial proteins. A classifier based on the signature allowed for the accurate identification of permeabilized cells across cell types and species. The classifier is integrated into QuantQC ( scp.slavovlab.net/QuantQC ) to support its application to diverse samples and workflows.
© 2025. The Author(s).
Conflict of interest statement
Competing interests: N.S. is a founding director and CEO of Parallel Squared Technology Institute, which is a nonprofit research institute. The other authors declare no competing interests.
Figures
a Images of cells in the CellenONE nozzle taken with brightfield and with the green fluorescent channel. The two cells shown are not clearly distinguishable from the brightfield but one cell is permeable and thus positive for the Sytox green fluorescent dye. b The UMAP dimensionality reduction shows co-clustering of cells from fresh and frozen batches that were recorded as permeable via Sytox green. c Percentages of permeable cells for the two sample handling conditions are shown in the dot plot. d Differences in protein fold changes between permeable and intact cells for all proteins. e Differences in protein fold changes between permeable and intact cells are categorized by subcellular compartment.
a Log2 average protein fold changes between permeable and intact Club cells and Fibroblasts are plotted against each other and show Pearson correlation of 0.66. The heatmap summarizes correlations between fold changes for all cell types is shown. b ROC curve for a classifier trained on permeability status of single cells using protein abundance profiles of the top 75 most significantly leaking proteins. Results for the model trained and tested on the same cell type are in red and trained and tested on different cell types are in black. c PCA projection of single cells from Leduc et al., 2024. Cells are colored by cell type or their permeability score from the classifier. The cells towards the center of the two dimensional space of the first two principal components were enriched for high permeability scores. d When comparing the fold changes between cells with probability over 0.2 and under 0.2 to be permeable versus intact fold changes from the primary mouse tracheal cells, the fold changes strongly agree, Pearson correlation 0.50.
Update of
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Limiting the impact of protein leakage in single-cell proteomics.bioRxiv [Preprint]. 2024 Jul 27:2024.07.26.605378. doi: 10.1101/2024.07.26.605378. bioRxiv. 2024. Update in: Nat Commun. 2025 May 5;16(1):4169. doi: 10.1038/s41467-025-56736-7. PMID: 39091738 Free PMC article. Updated. Preprint.
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References
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- Derks, J. et al. Single-nucleus proteomics identifies regulators of protein transport. Preprint at bioRxivhttps://pubmed.ncbi.nlm.nih.gov/38948785/ (2024).
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- UH3 CA268117/CA/NCI NIH HHS/United States
- R01GM144967/U.S. Department of Health & Human Services | NIH | National Institute of General Medical Sciences (NIGMS)
- R35 GM148218/GM/NIGMS NIH HHS/United States
- R01 GM144967/GM/NIGMS NIH HHS/United States
- UH3CA268117/U.S. Department of Health & Human Services | NIH | National Cancer Institute (NCI)
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