AI Article Synopsis
- The cerebrospinal fluid (CSF) holds potential for discovering biomarkers in pediatric brain cancers, but variations in protein levels and age-related differences complicate research.
- The study improved proteome analysis techniques to maximize protein extraction from limited CSF samples, allowing for more detailed insights.
- An optimized workflow enabled the quantification of 2989 unique proteins from just 400 μL of CSF, significantly enhancing the amount of data obtainable from small sample sizes compared to traditional methods.
Article Abstract
The cerebrospinal fluid (CSF) is a key matrix for discovery of biomarkers relevant for prognosis and the development of therapeutic targets in pediatric central nervous system malignancies. However, the wide range of protein concentrations and age-related differences in children makes such discoveries challenging. In addition, pediatric CSF samples are often sparse and first prioritized for clinical purposes. The present work focused on optimizing each step of the proteome analysis workflow to extract the most detailed proteome information possible from the limited CSF resources available for research purposes. The strategy included applying sequential ultracentrifugation to enrich for extracellular vesicles (EV) in addition to analysis of a small volume of raw CSF, which allowed quantification of 1351 proteins (+55% relative to raw CSF) from 400 μL CSF. When including a spectral library, a total of 2103 proteins (+240%) could be quantified. The workflow was optimized for CSF input volume, tryptic digestion method, gradient length, mass spectrometry data acquisition method and database search strategy to quantify as many proteins a possible. The fully optimized workflow included protein aggregation capture (PAC) digestion, paired with data-independent acquisition (DIA, 21 min gradient) and allowed 2989 unique proteins to be quantified from only 400 μL CSF, which is a 340% increase in proteins compared to analysis of a tryptic digest of raw CSF.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11536435 | PMC |
| http://dx.doi.org/10.1021/acs.jproteome.4c00471 | DOI Listing |
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Article Synopsis
- The cerebrospinal fluid (CSF) holds potential for discovering biomarkers in pediatric brain cancers, but variations in protein levels and age-related differences complicate research.
- The study improved proteome analysis techniques to maximize protein extraction from limited CSF samples, allowing for more detailed insights.
- An optimized workflow enabled the quantification of 2989 unique proteins from just 400 μL of CSF, significantly enhancing the amount of data obtainable from small sample sizes compared to traditional methods.
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