High dynamic range characterization of the trauma patient plasma proteome

Tao Liu; Wei Jun Qiant; Marina A. Gritsenko; Wenzhong Xiao; Lyle L. Moldawer; Amit Kaushal; Matthew E. Monroe; Susan M. Varnum; Ronald J. Moore; Samuel O. Purvine; Ronald V. Maier; Ronald W. Davis; Ronald G. Tompkins; David G. Camp; Richard D. Smith; Henry V. Baker; Paul E. Bankey; Timothy R. Billiar; Bernard H. Brownstein; Steve E. Calvano; Celeste Campbell-Finnerty; George Casella; Irshad H. Chaudry; Mashkoor Choudhry; J. Perren Cobb; Asit De; Constance Elson; Bradley Freeman; Richard L. Gamelli; Nicole S. Gibran; Brian G. Harbrecht; Douglas L. Hayden; David N. Herndon; Jureta W. Horton; William Hubbard; John Lee Hunt; Jeffrey L. Johnson; Matthew B. Klein; James A. Lederer; Tanya Logvinenko; Stephen F. Lowry; John A. Mannick; Philip H. Mason; Grace P. McDonald-Smith; Bruce McKinley; Carol L. Miller-Graziano; Michael Mindrinos; Joseph P. Minei; Ernest E. Moore; Fredrick A. Moore; Avery B. Nathens; Grant E. O'Keefe; Laurence G. Rahme; Daniel G. Remick; David Schoenfeld; Michael B. Shapiro; Martin Schwacha; Geoffrey M. Silver; John Storey; Mehmet Toner; H. Shaw Warren; Michael A. West

doi:10.1074/mcp.M600068-MCP200

High dynamic range characterization of the trauma patient plasma proteome

Tao Liu, Wei Jun Qiant, Marina A. Gritsenko, Wenzhong Xiao, Lyle L. Moldawer, Amit Kaushal, Matthew E. Monroe, Susan M. Varnum, Ronald J. Moore, Samuel O. Purvine, Ronald V. Maier, Ronald W. Davis, Ronald G. Tompkins, David G. Camp, Richard D. Smith, Henry V. Baker, Paul E. Bankey, Timothy R. Billiar, Bernard H. Brownstein, Steve E. CalvanoCeleste Campbell-Finnerty, George Casella, Irshad H. Chaudry, Mashkoor Choudhry, J. Perren Cobb, Asit De, Constance Elson, Bradley Freeman, Richard L. Gamelli, Nicole S. Gibran, Brian G. Harbrecht, Douglas L. Hayden, David N. Herndon, Jureta W. Horton, William Hubbard, John Lee Hunt, Jeffrey L. Johnson, Matthew B. Klein, James A. Lederer, Tanya Logvinenko, Stephen F. Lowry, John A. Mannick, Philip H. Mason, Grace P. McDonald-Smith, Bruce McKinley, Carol L. Miller-Graziano, Michael Mindrinos, Joseph P. Minei, Ernest E. Moore, Fredrick A. Moore, Avery B. Nathens, Grant E. O'Keefe, Laurence G. Rahme, Daniel G. Remick, David Schoenfeld, Michael B. Shapiro, Martin Schwacha, Geoffrey M. Silver, John Storey, Mehmet Toner, H. Shaw Warren, Michael A. West

Research output: Contribution to journal › Article › peer-review

141 Scopus citations

Abstract

Although human plasma represents an attractive sample for disease biomarker discovery, the extreme complexity and large dynamic range in protein concentrations present significant challenges for characterization, candidate biomarker discovery, and validation. Herein we describe a strategy that combines immunoaffinity subtraction and subsequent chemical fractionation based on cysteinyl peptide and N-glycopeptide captures with two-dimensional LC-MS/MS to increase the dynamic range of analysis for plasma. Application of this "divide-and-conquer" strategy to trauma patient plasma significantly improved the overall dynamic range of detection and resulted in confident identification of 22,267 unique peptides from four different peptide populations (cysteinyl peptides, non-cysteinyl peptides, N-glycopeptides, and non-glycopeptides) that covered 3654 different proteins with 1494 proteins identified by multiple peptides. Numerous low abundance proteins were identified, exemplified by 78 "classic" cytokines and cytokine receptors and by 136 human cell differentiation molecules. Additionally a total of 2910 different N-glycopeptides that correspond to 662 N-glycoproteins and 1553 N-glycosylation sites were identified. A panel of the proteins identified in this study is known to be involved in inflammation and immune responses. This study established an extensive reference protein database for trauma patients that provides a foundation for future high throughput quantitative plasma proteomic studies designed to elucidate the mechanisms that underlie systemic inflammatory responses.

Original language	English (US)
Pages (from-to)	1899-1913
Number of pages	15
Journal	Molecular and Cellular Proteomics
Volume	5
Issue number	10
DOIs	https://doi.org/10.1074/mcp.M600068-MCP200
State	Published - Oct 2006

ASJC Scopus subject areas

Analytical Chemistry
Biochemistry
Molecular Biology

Access to Document

10.1074/mcp.M600068-MCP200

Cite this

Liu, T., Qiant, W. J., Gritsenko, M. A., Xiao, W., Moldawer, L. L., Kaushal, A., Monroe, M. E., Varnum, S. M., Moore, R. J., Purvine, S. O., Maier, R. V., Davis, R. W., Tompkins, R. G., Camp, D. G., Smith, R. D., Baker, H. V., Bankey, P. E., Billiar, T. R., Brownstein, B. H., ... West, M. A. (2006). High dynamic range characterization of the trauma patient plasma proteome. Molecular and Cellular Proteomics, 5(10), 1899-1913. https://doi.org/10.1074/mcp.M600068-MCP200

Liu, T, Qiant, WJ, Gritsenko, MA, Xiao, W, Moldawer, LL, Kaushal, A, Monroe, ME, Varnum, SM, Moore, RJ, Purvine, SO, Maier, RV, Davis, RW, Tompkins, RG, Camp, DG, Smith, RD, Baker, HV, Bankey, PE, Billiar, TR, Brownstein, BH, Calvano, SE, Campbell-Finnerty, C, Casella, G, Chaudry, IH, Choudhry, M, Cobb, JP, De, A, Elson, C, Freeman, B, Gamelli, RL, Gibran, NS, Harbrecht, BG, Hayden, DL, Herndon, DN, Horton, JW, Hubbard, W, Hunt, JL, Johnson, JL, Klein, MB, Lederer, JA, Logvinenko, T, Lowry, SF, Mannick, JA, Mason, PH, McDonald-Smith, GP, McKinley, B, Miller-Graziano, CL, Mindrinos, M, Minei, JP, Moore, EE, Moore, FA, Nathens, AB, O'Keefe, GE, Rahme, LG, Remick, DG, Schoenfeld, D, Shapiro, MB, Schwacha, M, Silver, GM, Storey, J, Toner, M, Shaw Warren, H & West, MA 2006, 'High dynamic range characterization of the trauma patient plasma proteome', Molecular and Cellular Proteomics, vol. 5, no. 10, pp. 1899-1913. https://doi.org/10.1074/mcp.M600068-MCP200

@article{423c9266155e44bfad2f76e7ef3e7dc2,

title = "High dynamic range characterization of the trauma patient plasma proteome",

abstract = "Although human plasma represents an attractive sample for disease biomarker discovery, the extreme complexity and large dynamic range in protein concentrations present significant challenges for characterization, candidate biomarker discovery, and validation. Herein we describe a strategy that combines immunoaffinity subtraction and subsequent chemical fractionation based on cysteinyl peptide and N-glycopeptide captures with two-dimensional LC-MS/MS to increase the dynamic range of analysis for plasma. Application of this {"}divide-and-conquer{"} strategy to trauma patient plasma significantly improved the overall dynamic range of detection and resulted in confident identification of 22,267 unique peptides from four different peptide populations (cysteinyl peptides, non-cysteinyl peptides, N-glycopeptides, and non-glycopeptides) that covered 3654 different proteins with 1494 proteins identified by multiple peptides. Numerous low abundance proteins were identified, exemplified by 78 {"}classic{"} cytokines and cytokine receptors and by 136 human cell differentiation molecules. Additionally a total of 2910 different N-glycopeptides that correspond to 662 N-glycoproteins and 1553 N-glycosylation sites were identified. A panel of the proteins identified in this study is known to be involved in inflammation and immune responses. This study established an extensive reference protein database for trauma patients that provides a foundation for future high throughput quantitative plasma proteomic studies designed to elucidate the mechanisms that underlie systemic inflammatory responses.",

author = "Tao Liu and Qiant, {Wei Jun} and Gritsenko, {Marina A.} and Wenzhong Xiao and Moldawer, {Lyle L.} and Amit Kaushal and Monroe, {Matthew E.} and Varnum, {Susan M.} and Moore, {Ronald J.} and Purvine, {Samuel O.} and Maier, {Ronald V.} and Davis, {Ronald W.} and Tompkins, {Ronald G.} and Camp, {David G.} and Smith, {Richard D.} and Baker, {Henry V.} and Bankey, {Paul E.} and Billiar, {Timothy R.} and Brownstein, {Bernard H.} and Calvano, {Steve E.} and Celeste Campbell-Finnerty and George Casella and Chaudry, {Irshad H.} and Mashkoor Choudhry and Cobb, {J. Perren} and Asit De and Constance Elson and Bradley Freeman and Gamelli, {Richard L.} and Gibran, {Nicole S.} and Harbrecht, {Brian G.} and Hayden, {Douglas L.} and Herndon, {David N.} and Horton, {Jureta W.} and William Hubbard and Hunt, {John Lee} and Johnson, {Jeffrey L.} and Klein, {Matthew B.} and Lederer, {James A.} and Tanya Logvinenko and Lowry, {Stephen F.} and Mannick, {John A.} and Mason, {Philip H.} and McDonald-Smith, {Grace P.} and Bruce McKinley and Miller-Graziano, {Carol L.} and Michael Mindrinos and Minei, {Joseph P.} and Moore, {Ernest E.} and Moore, {Fredrick A.} and Nathens, {Avery B.} and O'Keefe, {Grant E.} and Rahme, {Laurence G.} and Remick, {Daniel G.} and David Schoenfeld and Shapiro, {Michael B.} and Martin Schwacha and Silver, {Geoffrey M.} and John Storey and Mehmet Toner and {Shaw Warren}, H. and West, {Michael A.}",

year = "2006",

month = oct,

doi = "10.1074/mcp.M600068-MCP200",

language = "English (US)",

volume = "5",

pages = "1899--1913",

journal = "Molecular and Cellular Proteomics",

issn = "1535-9476",

publisher = "American Society for Biochemistry and Molecular Biology Inc.",

number = "10",

}

TY - JOUR

T1 - High dynamic range characterization of the trauma patient plasma proteome

AU - Liu, Tao

AU - Qiant, Wei Jun

AU - Gritsenko, Marina A.

AU - Xiao, Wenzhong

AU - Moldawer, Lyle L.

AU - Kaushal, Amit

AU - Monroe, Matthew E.

AU - Varnum, Susan M.

AU - Moore, Ronald J.

AU - Purvine, Samuel O.

AU - Maier, Ronald V.

AU - Davis, Ronald W.

AU - Tompkins, Ronald G.

AU - Camp, David G.

AU - Smith, Richard D.

AU - Baker, Henry V.

AU - Bankey, Paul E.

AU - Billiar, Timothy R.

AU - Brownstein, Bernard H.

AU - Calvano, Steve E.

AU - Campbell-Finnerty, Celeste

AU - Casella, George

AU - Chaudry, Irshad H.

AU - Choudhry, Mashkoor

AU - Cobb, J. Perren

AU - De, Asit

AU - Elson, Constance

AU - Freeman, Bradley

AU - Gamelli, Richard L.

AU - Gibran, Nicole S.

AU - Harbrecht, Brian G.

AU - Hayden, Douglas L.

AU - Herndon, David N.

AU - Horton, Jureta W.

AU - Hubbard, William

AU - Hunt, John Lee

AU - Johnson, Jeffrey L.

AU - Klein, Matthew B.

AU - Lederer, James A.

AU - Logvinenko, Tanya

AU - Lowry, Stephen F.

AU - Mannick, John A.

AU - Mason, Philip H.

AU - McDonald-Smith, Grace P.

AU - McKinley, Bruce

AU - Miller-Graziano, Carol L.

AU - Mindrinos, Michael

AU - Minei, Joseph P.

AU - Moore, Ernest E.

AU - Moore, Fredrick A.

AU - Nathens, Avery B.

AU - O'Keefe, Grant E.

AU - Rahme, Laurence G.

AU - Remick, Daniel G.

AU - Schoenfeld, David

AU - Shapiro, Michael B.

AU - Schwacha, Martin

AU - Silver, Geoffrey M.

AU - Storey, John

AU - Toner, Mehmet

AU - Shaw Warren, H.

AU - West, Michael A.

PY - 2006/10

Y1 - 2006/10

N2 - Although human plasma represents an attractive sample for disease biomarker discovery, the extreme complexity and large dynamic range in protein concentrations present significant challenges for characterization, candidate biomarker discovery, and validation. Herein we describe a strategy that combines immunoaffinity subtraction and subsequent chemical fractionation based on cysteinyl peptide and N-glycopeptide captures with two-dimensional LC-MS/MS to increase the dynamic range of analysis for plasma. Application of this "divide-and-conquer" strategy to trauma patient plasma significantly improved the overall dynamic range of detection and resulted in confident identification of 22,267 unique peptides from four different peptide populations (cysteinyl peptides, non-cysteinyl peptides, N-glycopeptides, and non-glycopeptides) that covered 3654 different proteins with 1494 proteins identified by multiple peptides. Numerous low abundance proteins were identified, exemplified by 78 "classic" cytokines and cytokine receptors and by 136 human cell differentiation molecules. Additionally a total of 2910 different N-glycopeptides that correspond to 662 N-glycoproteins and 1553 N-glycosylation sites were identified. A panel of the proteins identified in this study is known to be involved in inflammation and immune responses. This study established an extensive reference protein database for trauma patients that provides a foundation for future high throughput quantitative plasma proteomic studies designed to elucidate the mechanisms that underlie systemic inflammatory responses.

AB - Although human plasma represents an attractive sample for disease biomarker discovery, the extreme complexity and large dynamic range in protein concentrations present significant challenges for characterization, candidate biomarker discovery, and validation. Herein we describe a strategy that combines immunoaffinity subtraction and subsequent chemical fractionation based on cysteinyl peptide and N-glycopeptide captures with two-dimensional LC-MS/MS to increase the dynamic range of analysis for plasma. Application of this "divide-and-conquer" strategy to trauma patient plasma significantly improved the overall dynamic range of detection and resulted in confident identification of 22,267 unique peptides from four different peptide populations (cysteinyl peptides, non-cysteinyl peptides, N-glycopeptides, and non-glycopeptides) that covered 3654 different proteins with 1494 proteins identified by multiple peptides. Numerous low abundance proteins were identified, exemplified by 78 "classic" cytokines and cytokine receptors and by 136 human cell differentiation molecules. Additionally a total of 2910 different N-glycopeptides that correspond to 662 N-glycoproteins and 1553 N-glycosylation sites were identified. A panel of the proteins identified in this study is known to be involved in inflammation and immune responses. This study established an extensive reference protein database for trauma patients that provides a foundation for future high throughput quantitative plasma proteomic studies designed to elucidate the mechanisms that underlie systemic inflammatory responses.

UR - http://www.scopus.com/inward/record.url?scp=33750629023&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=33750629023&partnerID=8YFLogxK

U2 - 10.1074/mcp.M600068-MCP200

DO - 10.1074/mcp.M600068-MCP200

M3 - Article

C2 - 16684767

AN - SCOPUS:33750629023

SN - 1535-9476

VL - 5

SP - 1899

EP - 1913

JO - Molecular and Cellular Proteomics

JF - Molecular and Cellular Proteomics

IS - 10

ER -

High dynamic range characterization of the trauma patient plasma proteome

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this