Practical Implementation of 2D HPLC Scheme with Accurate Peptide Retention Prediction in Both Dimensions for High-Throughput Bottom-Up Proteomics

Dwivedi, Ravi C.; Spicer, Vic; Harder, Michael; Antonovici, Mihaela; Ens, Werner; Standing, Kenneth G.; Wilkins, John A.; Krokhin, Oleg V.

doi:10.1021/ac800984n

Cited by 151 publications

(201 citation statements)

References 25 publications

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“…Lyophilized tryptic digests were dissolved in 200 l of 20 mM ammonium formate (pH 10) (buffer A for first-dimension separation), injected onto a 1-by 100-mm XTerra (Waters, Milford, MA) column, and fractionated using a 0.67% acetonitrile-per-minute linear gradient (Agilent 1100 Series high-performance liquid chromatography [HPLC] system; Agilent Technologies, Wilmington, DE) at a 150-l/min flow rate. Sixty 1-min fractions were collected (covering an ϳ40% acetonitrile concentration range) and concatenated using procedures described elsewhere (22,67); the last 30 fractions were com-bined with the first 30 fractions in sequential order (i.e., 1 with 31; 2 with 32, etc.). Combined fractions were vacuum dried and redissolved in buffer A for the second-dimension RP separation (0.1% formic acid in water).…”

Section: Cells and Viruses (I) Virusesmentioning

confidence: 99%

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Quantitative Proteomic Analyses of Influenza Virus-Infected Cultured Human Lung Cells

Coombs

Berard

et al. 2010

J Virol

133

190

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Because they are obligate intracellular parasites, all viruses are exclusively and intimately dependent upon host cells for replication. Viruses, in turn, induce profound changes within cells, including apoptosis, morphological changes, and activation of signaling pathways. Many of these alterations have been analyzed by gene arrays, which measure the cellular "transcriptome." Until recently, it has not been possible to extend comparable types of studies to globally examine all the host cellular proteins, which are the actual effector molecules. We have used stable isotope labeling by amino acids in cell culture (SILAC), combined with high-throughput two-dimensional (2-D) high-performance liquid chromatography (HPLC)/mass spectrometry, to determine quantitative differences in host proteins after infection of human lung A549 cells with human influenza virus A/PR/8/34 (H1N1) for 24 h. Of the 4,689 identified and measured cytosolic protein pairs, 127 were significantly upregulated at >95% confidence, 153 were significantly downregulated at >95% confidence, and a total of 87 proteins were upregulated or downregulated more than 5-fold at >99% confidence. Gene ontology and pathway analyses indicated differentially regulated proteins and included those involved in host cell immunity and antigen presentation, cell adhesion, metabolism, protein function, signal transduction, and transcription pathways.

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Section: Cells and Viruses (I) Virusesmentioning

confidence: 99%

“…There also have been improvements in peptide fractionation (22,67). Therefore, we decided to apply newer quantitative approaches to more fully probe the richness of influenza virus-infected host cell proteomes to attempt to identify additional potential antiviral targets.…”

mentioning

confidence: 99%

Quantitative Proteomic Analyses of Influenza Virus-Infected Cultured Human Lung Cells

Coombs

Berard

et al. 2010

J Virol

133

190

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“…Peptides from the three multiplexes were first separated offline into 20 fractions using alkaline pH reversed-phase HPLC (84). Peptides from each fraction were separated using a nanoLC Ultra 2D Plus system (SCIEX) interfaced with a 5600 Triple TOF mass spectrometer (SCIEX).…”

Section: Methodsmentioning

confidence: 99%

Quantitative proteomic analyses of mammary organoids reveals distinct signatures after exposure to environmental chemicals

Williams

Lemieux

Hassis

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Common environmental contaminants such as bisphenols and phthalates and persistent contaminants such as polychlorinated biphenyls are thought to influence tissue homeostasis and carcinogenesis by acting as disrupters of endocrine function. In this study we investigated the direct effects of exposure to bisphenol A (BPA), mono-n-butyl phthalate (Pht), and polychlorinated biphenyl 153 (PCB153) on the proteome of primary organotypic cultures of the mouse mammary gland. At low-nanomolar doses each of these agents induced distinct effects on the proteomes of these cultures. Although BPA treatment produced effects that were similar to those induced by estradiol, there were some notable differences, including a reduction in the abundance of retinoblastomaassociated protein and increases in the Rho GTPases Ras-related C3 botulinum toxin substrate 1 (Rac1) and cell division cycle protein CDC42. Both Pht and PCB153 induced changes that were distinct from those induced by estrogen, including decreased levels of the transcriptional corepressor C-terminal binding protein 1. Interestingly, the three chemicals appeared to alter the abundance of distinct splice forms of many proteins as well as the abundance of several proteins that regulate RNA splicing. Our combined results indicate that the three classes of chemical have distinct effects on the proteome of normal mouse mammary cultures, some estrogen-like but most estrogen independent, that influence diverse biological processes including apoptosis, cell adhesion, and proliferation.proteomics | mammary epithelium | environmental chemicals | organotypic culture | estrogen B reast cancers are caricatures of normal tissue development (1-3). The same underlying mechanisms that affect the cell processes needed for normal mammary development contribute to cancer progression. By affecting the distribution of interacting cells and communication among them through nontargeted effects, carcinogens can promote the outgrowth of altered cells with malignant potential. Exposure to environmental agents can affect mammary gland development and alter breast cancer risk. Epidemiologic studies have associated a number of environmental factors with increased breast cancer risk (4). Some of these factors may have low-level effects that are not genotoxic but alter immune responses, vascularity, or the microenvironment or that change susceptibility to carcinogens. A current weakness in models of cancer risk assessment is the lack of consideration of factors that influence the susceptibility of mixed cell populations to transformation. Indeed, ionizing radiation, the prototypical carcinogen, promotes changes in the biochemical properties in cultured mouse and human breast cells, in the stromal environment, and in intact mouse mammary gland (5-7).Physiologically relevant 3D culture models can recapitulate crucial aspects of the dynamic and reciprocal signaling necessary for establishing and maintaining tissue-specific morphogenetic programs. The determination of the molecular mechanisms underlying m...

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“…Our Sequence-Specific Retention Calculator (SSRCalc) model has been a benchmark tool in this field since 2004 (available on-line at http://hs2.proteome.ca/SSRCalc/SSRCalcQ.html), and followed the same trend but with the addition of models for trifluoroacetic acid [19] and high pH reversed-phase [20]. Other peptide separation modes have largely excluded because of the poor compatibility of the eluents with ESI-MS.…”

Section: Introductionmentioning

confidence: 99%

“…All of the listed prediction models that we have generated are the most accurate models reported for the respective modes of peptide separation. Application of 2D LC-MS/MS of the complex tryptic digests was the key innovation allowing collection of large retention datasets for peptide separations not possible with on-line ESI-MS detection [20,21]. Standard RP (formic acid) LC-MS/MS was used in the second dimension as a "standard detection device", while the first-dimension separation information was used as a modelling dataset: e.g.…”

Section: Introductionmentioning

confidence: 99%

Peptide retention time prediction for immobilized artificial membrane phosphatidylcholine stationary phase: method development and preliminary observations

Gussakovsky¹,

Neustaeter²,

Spicer³

et al. 2018

ADMET DMPK

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Development of the first peptide retention prediction model for immobilized artificial membrane phosphatidylcholine (IAM.PC) stationary phase is reported. 2D LC-MS/MS analysis of a whole cell lysate of <em>S. cerevisiae</em> yielded a retention dataset of ~29,500 tryptic peptides; sufficient for confident assignment of retention coefficients which determine the contribution of individual amino acids in peptide retention. Retention data from the first dimension was used for the modeling: IAM.PC DD2 column, pH 7.4 ammonium bicarbonate, and water/acetonitrile gradient. Peptide separation using IAM.PC was compared to a standard C18 phase (Luna C18(2)). There was a significant reduction in peptide retention (~14% acetonitrile on average), indicating that the phosphatidylcholine stationary phase is significantly more hydrophilic. In comparison to the C18 phase, we found a substantial increase in the relative retention contribution for the positively charged Arg and Lys, and the aromatic Tyr, Trp and His residues. We also observed a decrease in retention contribution for the negatively charged Asp and Glu. This indicates an involvement of electrostatic interactions with the glycerophosphate functional groups, and possibly, delocalization effects from a hydrogen bond between the phosphate group and aromatic side chains in the separation mechanism.

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Practical Implementation of 2D HPLC Scheme with Accurate Peptide Retention Prediction in Both Dimensions for High-Throughput Bottom-Up Proteomics

Cited by 151 publications

References 25 publications

Quantitative Proteomic Analyses of Influenza Virus-Infected Cultured Human Lung Cells

Quantitative Proteomic Analyses of Influenza Virus-Infected Cultured Human Lung Cells

Quantitative proteomic analyses of mammary organoids reveals distinct signatures after exposure to environmental chemicals

Peptide retention time prediction for immobilized artificial membrane phosphatidylcholine stationary phase: method development and preliminary observations

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