Surfactant-assisted one-pot sample preparation for label-free single-cell proteomics.
Chia-Feng TsaiPengfei ZhangDavid ScholtenKendall MartinYi-Ting WangRui ZhaoWilliam B ChrislerDhwani B PatelMaowei DouYuzhi JiaGiancarlo FelicielloXia LiuRonald J MooreKristin E Burnum-JohnsonMiao-Hsia LinChuan-Chih HsuJon M JacobsJacob KaganSudhir SrivastavaKarin D RodlandH Steven WileyWei-Jun QianRichard D SmithYing ZhuMassimo CristofanilliTao LiuHuiping LiuTujin ShiPublished in: Communications biology (2021)
Large numbers of cells are generally required for quantitative global proteome profiling due to surface adsorption losses associated with sample processing. Such bulk measurement obscures important cell-to-cell variability (cell heterogeneity) and makes proteomic profiling impossible for rare cell populations (e.g., circulating tumor cells (CTCs)). Here we report a surfactant-assisted one-pot sample preparation coupled with mass spectrometry (MS) method termed SOP-MS for label-free global single-cell proteomics. SOP-MS capitalizes on the combination of a MS-compatible nonionic surfactant, n-Dodecyl-β-D-maltoside, and hydrophobic surface-based low-bind tubes or multi-well plates for 'all-in-one' one-pot sample preparation. This 'all-in-one' method including elimination of all sample transfer steps maximally reduces surface adsorption losses for effective processing of single cells, thus improving detection sensitivity for single-cell proteomics. This method allows convenient label-free quantification of hundreds of proteins from single human cells and ~1200 proteins from small tissue sections (close to ~20 cells). When applied to a patient CTC-derived xenograft (PCDX) model at the single-cell resolution, SOP-MS can reveal distinct protein signatures between primary tumor cells and early metastatic lung cells, which are related to the selection pressure of anti-tumor immunity during breast cancer metastasis. The approach paves the way for routine, precise, quantitative single-cell proteomics.
Keyphrases
- single cell
- label free
- mass spectrometry
- rna seq
- induced apoptosis
- circulating tumor cells
- high throughput
- cell cycle arrest
- multiple sclerosis
- ms ms
- liquid chromatography
- high resolution
- oxidative stress
- endoplasmic reticulum stress
- stem cells
- gas chromatography
- dna methylation
- pi k akt
- amino acid
- case report
- mesenchymal stem cells