Simultaneous Quantification of Apolipoprotein A-I and Apolipoprotein B by Liquid-Chromatography–Multiple- Reaction–Monitoring Mass Spectrometry
If liquid-chromatography-multiple-reaction-monitoring mass spectrometry (LC-MRM/MS) could be used in the large-scale preclinical verification of putative biomarkers, it would obviate the need for the development of expensive immunoassays. In addition, the translation of novel biomarkers to clinical...
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| Published in | Clinical chemistry (Baltimore, Md.) Vol. 56; no. 12; pp. 1804 - 1813 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Washington, DC
American Association for Clinical Chemistry
01.12.2010
Oxford University Press |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0009-9147 1530-8561 1530-8561 |
| DOI | 10.1373/clinchem.2010.152264 |
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| Abstract | If liquid-chromatography-multiple-reaction-monitoring mass spectrometry (LC-MRM/MS) could be used in the large-scale preclinical verification of putative biomarkers, it would obviate the need for the development of expensive immunoassays. In addition, the translation of novel biomarkers to clinical use would be accelerated if the assays used in preclinical studies were the same as those used in the clinical laboratory. To validate this approach, we developed a multiplexed assay for the quantification of 2 clinically well-known biomarkers in human plasma, apolipoprotein A-I and apolipoprotein B (apoA-I and apoB).
We used PeptideAtlas to identify candidate peptides. Human samples were denatured with urea or trifluoroethanol, reduced and alkylated, and digested with trypsin. We compared reversed-phase chromatographic separation of peptides with normal flow and microflow, and we normalized endogenous peptide peak areas to internal standard peptides. We evaluated different methods of calibration and compared the final method with a nephelometric immunoassay.
We developed a final method using trifluoroethanol denaturation, 21-h digestion, normal flow chromatography-electrospray ionization, and calibration with a single normal human plasma sample. For samples injected in duplicate, the method had intraassay CVs <6% and interassay CVs <12% for both proteins, and compared well with immunoassay (n = 47; Deming regression, LC-MRM/MS = 1.17 × immunoassay - 36.6; S(x|y) = 10.3 for apoA-I and LC-MRM/MS = 1.21 × immunoassay + 7.0; S(x|y) = 7.9 for apoB).
Multiplexed quantification of proteins in human plasma/serum by LC-MRM/MS is possible and compares well with clinically useful immunoassays. The potential application of single-point calibration to large clinical studies could simplify efforts to reduce day-to-day digestion variability. |
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| AbstractList | If liquid-chromatography-multiple-reaction-monitoring mass spectrometry (LC-MRM/MS) could be used in the large-scale preclinical verification of putative biomarkers, it would obviate the need for the development of expensive immunoassays. In addition, the translation of novel biomarkers to clinical use would be accelerated if the assays used in preclinical studies were the same as those used in the clinical laboratory. To validate this approach, we developed a multiplexed assay for the quantification of 2 clinically well-known biomarkers in human plasma, apolipoprotein A-I and apolipoprotein B (apoA-I and apoB).
We used PeptideAtlas to identify candidate peptides. Human samples were denatured with urea or trifluoroethanol, reduced and alkylated, and digested with trypsin. We compared reversed-phase chromatographic separation of peptides with normal flow and microflow, and we normalized endogenous peptide peak areas to internal standard peptides. We evaluated different methods of calibration and compared the final method with a nephelometric immunoassay.
We developed a final method using trifluoroethanol denaturation, 21-h digestion, normal flow chromatography-electrospray ionization, and calibration with a single normal human plasma sample. For samples injected in duplicate, the method had intraassay CVs <6% and interassay CVs <12% for both proteins, and compared well with immunoassay (n = 47; Deming regression, LC-MRM/MS = 1.17 × immunoassay - 36.6; S(x|y) = 10.3 for apoA-I and LC-MRM/MS = 1.21 × immunoassay + 7.0; S(x|y) = 7.9 for apoB).
Multiplexed quantification of proteins in human plasma/serum by LC-MRM/MS is possible and compares well with clinically useful immunoassays. The potential application of single-point calibration to large clinical studies could simplify efforts to reduce day-to-day digestion variability. If liquid-chromatography-multiple-reaction-monitoring mass spectrometry (LC-MRM/MS) could be used in the large-scale preclinical verification of putative biomarkers, it would obviate the need for the development of expensive immunoassays. In addition, the translation of novel biomarkers to clinical use would be accelerated if the assays used in preclinical studies were the same as those used in the clinical laboratory. To validate this approach, we developed a multiplexed assay for the quantification of 2 clinically well-known biomarkers in human plasma, apolipoprotein A-I and apolipoprotein B (apoA-I and apoB). We used PeptideAtlas to identify candidate peptides. Human samples were denatured with urea or trifluoroethanol, reduced and alkylated, and digested with trypsin. We compared reversed-phase chromatographic separation of peptides with normal flow and microflow, and we normalized endogenous peptide peak areas to internal standard peptides. We evaluated different methods of calibration and compared the final method with a nephelometric immunoassay. We developed a final method using trifluoroethanol denaturation, 21-h digestion, normal flow chromatography-electrospray ionization, and calibration with a single normal human plasma sample. For samples injected in duplicate, the method had intraassay CVs <6% and interassay CVs <12% for both proteins, and compared well with immunoassay (n = 47; Deming regression, LC-MRM/MS=1.17 × immunoassay - 36.6; S^sub x|y^ = 10.3 for apoA-I and LC-MRM/MS = 1.21 × immunoassay + 7.0; S^sub x|y^ = 7.9 for apoB). Multiplexed quantification of proteins in human plasma/serum by LC-MRM/MS is possible and compares well with clinically useful immunoassays. The potential application of single-point calibration to large clinical studies could simplify efforts to reduce day-to-day digestion variability. If liquid-chromatography-multiple-reaction-monitoring mass spectrometry (LC-MRM/MS) could be used in the large-scale preclinical verification of putative biomarkers, it would obviate the need for the development of expensive immunoassays. In addition, the translation of novel biomarkers to clinical use would be accelerated if the assays used in preclinical studies were the same as those used in the clinical laboratory. To validate this approach, we developed a multiplexed assay for the quantification of 2 clinically well-known biomarkers in human plasma, apolipoprotein A-I and apolipoprotein B (apoA-I and apoB).BACKGROUNDIf liquid-chromatography-multiple-reaction-monitoring mass spectrometry (LC-MRM/MS) could be used in the large-scale preclinical verification of putative biomarkers, it would obviate the need for the development of expensive immunoassays. In addition, the translation of novel biomarkers to clinical use would be accelerated if the assays used in preclinical studies were the same as those used in the clinical laboratory. To validate this approach, we developed a multiplexed assay for the quantification of 2 clinically well-known biomarkers in human plasma, apolipoprotein A-I and apolipoprotein B (apoA-I and apoB).We used PeptideAtlas to identify candidate peptides. Human samples were denatured with urea or trifluoroethanol, reduced and alkylated, and digested with trypsin. We compared reversed-phase chromatographic separation of peptides with normal flow and microflow, and we normalized endogenous peptide peak areas to internal standard peptides. We evaluated different methods of calibration and compared the final method with a nephelometric immunoassay.METHODSWe used PeptideAtlas to identify candidate peptides. Human samples were denatured with urea or trifluoroethanol, reduced and alkylated, and digested with trypsin. We compared reversed-phase chromatographic separation of peptides with normal flow and microflow, and we normalized endogenous peptide peak areas to internal standard peptides. We evaluated different methods of calibration and compared the final method with a nephelometric immunoassay.We developed a final method using trifluoroethanol denaturation, 21-h digestion, normal flow chromatography-electrospray ionization, and calibration with a single normal human plasma sample. For samples injected in duplicate, the method had intraassay CVs <6% and interassay CVs <12% for both proteins, and compared well with immunoassay (n = 47; Deming regression, LC-MRM/MS = 1.17 × immunoassay - 36.6; S(x|y) = 10.3 for apoA-I and LC-MRM/MS = 1.21 × immunoassay + 7.0; S(x|y) = 7.9 for apoB).RESULTSWe developed a final method using trifluoroethanol denaturation, 21-h digestion, normal flow chromatography-electrospray ionization, and calibration with a single normal human plasma sample. For samples injected in duplicate, the method had intraassay CVs <6% and interassay CVs <12% for both proteins, and compared well with immunoassay (n = 47; Deming regression, LC-MRM/MS = 1.17 × immunoassay - 36.6; S(x|y) = 10.3 for apoA-I and LC-MRM/MS = 1.21 × immunoassay + 7.0; S(x|y) = 7.9 for apoB).Multiplexed quantification of proteins in human plasma/serum by LC-MRM/MS is possible and compares well with clinically useful immunoassays. The potential application of single-point calibration to large clinical studies could simplify efforts to reduce day-to-day digestion variability.CONCLUSIONSMultiplexed quantification of proteins in human plasma/serum by LC-MRM/MS is possible and compares well with clinically useful immunoassays. The potential application of single-point calibration to large clinical studies could simplify efforts to reduce day-to-day digestion variability. |
| Author | Marney, Luke C Agger, Sean A Hoofnagle, Andrew N |
| AuthorAffiliation | 1 Department of Laboratory Medicine, University of Washington, Seattle, WA, 98195 |
| AuthorAffiliation_xml | – name: 1 Department of Laboratory Medicine, University of Washington, Seattle, WA, 98195 |
| Author_xml | – sequence: 1 givenname: Sean A surname: Agger fullname: Agger, Sean A organization: Department of Laboratory Medicine, University of Washington, Seattle, WA, 98195 – sequence: 2 givenname: Luke C surname: Marney fullname: Marney, Luke C organization: Department of Laboratory Medicine, University of Washington, Seattle, WA, 98195 – sequence: 3 givenname: Andrew N surname: Hoofnagle fullname: Hoofnagle, Andrew N organization: Department of Laboratory Medicine, University of Washington, Seattle, WA, 98195 |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=23756724$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/20923952$$D View this record in MEDLINE/PubMed |
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| Copyright | 2015 INIST-CNRS Copyright American Association for Clinical Chemistry Dec 2010 2010 American Association for Clinical Chemistry 2010 |
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| Issue | 12 |
| Keywords | Apolipoprotein B Multiple Surveillance Clinical biology Apolipoprotein AI Quantization Biochemistry Liquid chromatography Molecular biology Reaction Mass spectrometry Quantitative analysis |
| Language | English |
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| References | Hoofnagle (2020022704420125300_B33) 2010; 56 Deutsch (2020022704420125300_B25) 2005; 5 La Belle (2020022704420125300_B29) 1990; 1046 Hoofnagle (2020022704420125300_B1) 2009; 347 Elliott (2020022704420125300_B12) 2009; 44 Walldius (2020022704420125300_B22) 2006; 259 Barr (2020022704420125300_B34) 1996; 42 Abbatiello (2020022704420125300_B27) 2010; 56 Paulovich (2020022704420125300_B15) 2008; 2 Kuzyk (2020022704420125300_B7) 2009; 8 Addona (2020022704420125300_B2) 2009; 27 Neubert (2020022704420125300_B8) 2010; 56 Carr (2020022704420125300_B14) 2008; 54 Holme (2020022704420125300_B18) 2009; 11 Kay (2020022704420125300_B24) 2007; 21 Kuhn (2020022704420125300_B5) 2009; 55 Ong (2020022704420125300_B10) 2005; 1 Anderson (2020022704420125300_B13) 2009; 8 2020022704420125300_B26 Bondar (2020022704420125300_B3) 2007; 53 Davidson (2020022704420125300_B17) 2009; 32 Movva (2020022704420125300_B21) 2008; 54 Contois (2020022704420125300_B16) 2009; 55 Brun (2020022704420125300_B11) 2009; 72 R Development Core Team (2020022704420125300_B35) 2008 Whiteaker (2020022704420125300_B9) 2010; 9 Lopez (2020022704420125300_B30) 2010; 56 Anderson (2020022704420125300_B31) 2004; 3 Lamarche (2020022704420125300_B19) 1996; 94 Hoofnagle (2020022704420125300_B23) 2009; 50 Kuhn (2020022704420125300_B6) 2004; 4 Rodbard (2020022704420125300_B28) 1974; 20 Hoofnagle (2020022704420125300_B4) 2008; 54 Barter (2020022704420125300_B20) 2004; 95 Hoofnagle (2020022704420125300_B32) 2010; 56 20940327 - Clin Chem. 2010 Dec;56(12):1786-8. doi: 10.1373/clinchem.2010.155705. |
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| SubjectTerms | Analytical, structural and metabolic biochemistry Apolipoprotein A-I - blood Apolipoproteins Apolipoproteins B - blood Biological and medical sciences Biomarkers Biomarkers - blood Calibration Chromatography Chromatography, High Pressure Liquid Fundamental and applied biological sciences. Psychology Human subjects Humans Immunoassay Immunoassays Investigative techniques, diagnostic techniques (general aspects) Ionization Isotopes Mass spectrometry Medical sciences Molecular biophysics Nephelometry and Turbidimetry Peptides Plasma Protein Denaturation Proteins Reproducibility of Results Spectrometry, Mass, Electrospray Ionization Studies Tandem Mass Spectrometry Trifluoroethanol Urea |
| Title | Simultaneous Quantification of Apolipoprotein A-I and Apolipoprotein B by Liquid-Chromatography–Multiple- Reaction–Monitoring Mass Spectrometry |
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