Proteomic profiling of nipple aspirate fluid (NAF): Exploring the complementarity of different peptide fractionation strategies
Autor: | Giselle Villa Flor Brunoro, André Teixeira da Silva Ferreira, Richard H. Valente, Paulo C. Carvalho, Claudia Vitoria de Moura Gallo, Ana G.C. Neves-Ferreira, Jonas Perales, Dante Pagnoncelli |
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Rok vydání: | 2015 |
Předmět: |
Adult
Proteomics Carbohydrate biosynthesis Chromatography Chemistry Peptide fractionation Proteomic Profiling Nipple Aspirate Fluid Biophysics Fractionation Mass spectrometry Biochemistry Mass Spectrometry Neoplasm Proteins Fibroadenoma Tumor Microenvironment Humans Female Protein identification Peptides Breast fluid |
Zdroj: | Journal of Proteomics. 117:86-94 |
ISSN: | 1874-3919 |
DOI: | 10.1016/j.jprot.2015.01.011 |
Popis: | NAF is a breast fluid that is closely related to the tumor microenvironment and a valuable sample for studying breast cancer. To perform an in-depth proteomic analysis of this sample, aliquots of a single NAF digest were analyzed by the following peptide-centric fractionation strategies: a) 30-cm reversed-phase (RP) column on-line with an LTQ-Orbitrap XL; b) off-line strong cation-exchange (SCX) column; and c) pI-based OFFGEL fractionation. All fractions from approaches (b) and (c) were further analyzed on a 10-cm RP column hyphenated to the same mass spectrometer. The RP-30cm, SCX/RP-10cm, and OFFGEL/RP-10cm approaches identified 1676, 2930, and 3240 peptides, which corresponded to 193, 390 and 528 proteins, respectively. In our cumulative dataset, 4466 distinct NAF peptides corresponded to a total of 557 proteins, of which only 34% were identified by all three approaches. No exclusive protein identification was associated to the RP-30cm approach, while SCX/RP-10cm and OFFGEL/RP-10cm contributed to 28 and 166 exclusive identifications, respectively. Each approach provided additional information related to energy metabolism (fermentation process/carbohydrate biosynthesis). In conclusion, the pre-fractionation platforms used were complementary for the comprehensive characterization of NAF and our work provides methodological information for future quantitative cancer-related NAF sample studies.High-resolution peptide separation is a sine qua non condition for achieving extensive proteome coverage. Various techniques have been employed to improve peptide fractionation prior to LC-MS/MS, thus allowing a comprehensive characterization of complex biological samples. Although fractionation efficiency is very sample-dependent, this issue is commonly overlooked, and a "cookbook" approach is routinely used during this critical step. The present study provides a systematic comparison of analytical information needed for the successful large-scale differential proteomic analysis of NAF samples from breast cancer patients, a precious and volume-limited biological sample. It reinforces the importance of optimizing sample-specific fractionation protocols for information retrieval from mass spectrometric analysis. |
Databáze: | OpenAIRE |
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