Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways

Krzysztof Laudanski; Carol Miller-Graziano; Wenzhong Xiao; Michael N. Mindrinos; Daniel R. Richards; Asit De; Lyle L. Moldawer; Ronald V. Maier; Paul Bankey; Henry V. Baker; Bernard H. Brownstein; J. Perren Cobb; Steve E. Galvano; Ronald W. Davis; Ronald G. Tompkins; Timothy R. Billiar; David Camp; Celeste Campbell-Finnerty; George Casella; Irshad H. Chaudry; Mashkoor Choudhry; 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 Johnson; Matthew B. Klein; James A. Lederer; Tanya Logvinenko; Stephen F. Lowry; John A. Mannick; Philip H. Mason; Grace P. McDonald-Smith; Bruce A. McKinley; Joseph P. Minei; Ernest E. Moore; Frederick A. Moore; Avery B. Nathens; Grant E. O'Keefe; Laurence G. Rahme; Daniel G. Remick; David A. Schoenfeld; Michael B. Shapiro; Martin Schwacha; Geoffrey M. Silver; Richard D. Smith; John Storey; Mehmet Toner; H. Shaw Warren; Michael A. West

doi:10.1073/pnas.0607028103

Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways

Krzysztof Laudanski, Carol Miller-Graziano, Wenzhong Xiao, Michael N. Mindrinos, Daniel R. Richards, Asit De, Lyle L. Moldawer, Ronald V. Maier, Paul Bankey, Henry V. Baker, Bernard H. Brownstein, J. Perren Cobb, Steve E. Galvano, Ronald W. Davis, Ronald G. Tompkins, Timothy R. Billiar, David Camp, Celeste Campbell-Finnerty, George Casella, Irshad H. ChaudryMashkoor Choudhry, 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 Johnson, Matthew B. Klein, James A. Lederer, Tanya Logvinenko, Stephen F. Lowry, John A. Mannick, Philip H. Mason, Grace P. McDonald-Smith, Bruce A. McKinley, Joseph P. Minei, Ernest E. Moore, Frederick A. Moore, Avery B. Nathens, Grant E. O'Keefe, Laurence G. Rahme, Daniel G. Remick, David A. Schoenfeld, Michael B. Shapiro, Martin Schwacha, Geoffrey M. Silver, Richard D. Smith, John Storey, Mehmet Toner, H. Shaw Warren, Michael A. West

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

97 Scopus citations

Abstract

Monitoring genome-wide, cell-specific responses to human disease, although challenging, holds great promise for the future of medicine. Patients with injuries severe enough to develop multiple organ dysfunction syndrome have multiple immune derangements, including T cell apoptosis and anergy combined with depressed monocyte antigen presentation. Genome-wide expression analysis of highly enriched circulating leukocyte subpopulations, combined with cell-specific pathway analyses, offers an opportunity to discover leukocyte regulatory networks in critically injured patients. Severe injury induced significant changes in T cell (5,693 genes), monocyte (2,801 genes), and total leukocyte (3,437 genes) transcriptomes, with only 911 of these genes common to all three cell populations (12%). T cell-specific pathway analyses identified increased gene expression of several inhibitory receptors (PD-1, CD152, NRP-1, and Lag3) and concomitant decreases in stimulatory receptors (CD28, CD4, and IL-2Rα). Functional analysis of T cells and monocytes confirmed reduced T cell proliferation and increased cell surface expression of negative signaling receptors paired with decreased monocyte costimulation ligands. Thus, genome-wide expression from highly enriched cell populations combined with knowledge-based pathway analyses leads to the identification of regulatory networks differentially expressed in injured patients. Importantly, application of cell separation, genome-wide expression, and cell-specific pathway analyses can be used to discover pathway alterations in human disease.

Original language	English (US)
Pages (from-to)	15564-15569
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	103
Issue number	42
DOIs	https://doi.org/10.1073/pnas.0607028103
State	Published - Oct 17 2006

Keywords

Anergy
Apoptosis
Costimulatory receptors
Immunosuppression
Network analysis

ASJC Scopus subject areas

General

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10.1073/pnas.0607028103

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Laudanski, K., Miller-Graziano, C., Xiao, W., Mindrinos, M. N., Richards, D. R., De, A., Moldawer, L. L., Maier, R. V., Bankey, P., Baker, H. V., Brownstein, B. H., Cobb, J. P., Galvano, S. E., Davis, R. W., Tompkins, R. G., Billiar, T. R., Camp, D., Campbell-Finnerty, C., Casella, G., ... West, M. A. (2006). Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways. Proceedings of the National Academy of Sciences of the United States of America, 103(42), 15564-15569. https://doi.org/10.1073/pnas.0607028103

Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways. / Laudanski, Krzysztof; Miller-Graziano, Carol; Xiao, Wenzhong et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 103, No. 42, 17.10.2006, p. 15564-15569.

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

Laudanski, K, Miller-Graziano, C, Xiao, W, Mindrinos, MN, Richards, DR, De, A, Moldawer, LL, Maier, RV, Bankey, P, Baker, HV, Brownstein, BH, Cobb, JP, Galvano, SE, Davis, RW, Tompkins, RG, Billiar, TR, Camp, D, Campbell-Finnerty, C, Casella, G, Chaudry, IH, Choudhry, M, Elson, C, Freeman, B, Gamelli, RL, Gibran, NS, Harbrecht, BG, Hayden, DL, Herndon, DN, Horton, JW, Hubbard, W, Hunt, JL, Johnson, J, Klein, MB, Lederer, JA, Logvinenko, T, Lowry, SF, Mannick, JA, Mason, PH, McDonald-Smith, GP, McKinley, BA, Minei, JP, Moore, EE, Moore, FA, Nathens, AB, O'Keefe, GE, Rahme, LG, Remick, DG, Schoenfeld, DA, Shapiro, MB, Schwacha, M, Silver, GM, Smith, RD, Storey, J, Toner, M, Warren, HS & West, MA 2006, 'Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways', Proceedings of the National Academy of Sciences of the United States of America, vol. 103, no. 42, pp. 15564-15569. https://doi.org/10.1073/pnas.0607028103

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title = "Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways",

abstract = "Monitoring genome-wide, cell-specific responses to human disease, although challenging, holds great promise for the future of medicine. Patients with injuries severe enough to develop multiple organ dysfunction syndrome have multiple immune derangements, including T cell apoptosis and anergy combined with depressed monocyte antigen presentation. Genome-wide expression analysis of highly enriched circulating leukocyte subpopulations, combined with cell-specific pathway analyses, offers an opportunity to discover leukocyte regulatory networks in critically injured patients. Severe injury induced significant changes in T cell (5,693 genes), monocyte (2,801 genes), and total leukocyte (3,437 genes) transcriptomes, with only 911 of these genes common to all three cell populations (12%). T cell-specific pathway analyses identified increased gene expression of several inhibitory receptors (PD-1, CD152, NRP-1, and Lag3) and concomitant decreases in stimulatory receptors (CD28, CD4, and IL-2Rα). Functional analysis of T cells and monocytes confirmed reduced T cell proliferation and increased cell surface expression of negative signaling receptors paired with decreased monocyte costimulation ligands. Thus, genome-wide expression from highly enriched cell populations combined with knowledge-based pathway analyses leads to the identification of regulatory networks differentially expressed in injured patients. Importantly, application of cell separation, genome-wide expression, and cell-specific pathway analyses can be used to discover pathway alterations in human disease.",

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author = "Krzysztof Laudanski and Carol Miller-Graziano and Wenzhong Xiao and Mindrinos, {Michael N.} and Richards, {Daniel R.} and Asit De and Moldawer, {Lyle L.} and Maier, {Ronald V.} and Paul Bankey and Baker, {Henry V.} and Brownstein, {Bernard H.} and Cobb, {J. Perren} and Galvano, {Steve E.} and Davis, {Ronald W.} and Tompkins, {Ronald G.} and Billiar, {Timothy R.} and David Camp and Celeste Campbell-Finnerty and George Casella and Chaudry, {Irshad H.} and Mashkoor Choudhry 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 Jeffrey Johnson 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 McKinley, {Bruce A.} and Minei, {Joseph P.} and Moore, {Ernest E.} and Moore, {Frederick A.} and Nathens, {Avery B.} and O'Keefe, {Grant E.} and Rahme, {Laurence G.} and Remick, {Daniel G.} and Schoenfeld, {David A.} and Shapiro, {Michael B.} and Martin Schwacha and Silver, {Geoffrey M.} and Smith, {Richard D.} and John Storey and Mehmet Toner and Warren, {H. Shaw} and West, {Michael A.}",

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AU - Xiao, Wenzhong

AU - Mindrinos, Michael N.

AU - Richards, Daniel R.

AU - De, Asit

AU - Moldawer, Lyle L.

AU - Maier, Ronald V.

AU - Bankey, Paul

AU - Baker, Henry V.

AU - Brownstein, Bernard H.

AU - Cobb, J. Perren

AU - Galvano, Steve E.

AU - Davis, Ronald W.

AU - Tompkins, Ronald G.

AU - Billiar, Timothy R.

AU - Camp, David

AU - Campbell-Finnerty, Celeste

AU - Casella, George

AU - Chaudry, Irshad H.

AU - Choudhry, Mashkoor

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

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 A.

AU - Minei, Joseph P.

AU - Moore, Ernest E.

AU - Moore, Frederick A.

AU - Nathens, Avery B.

AU - O'Keefe, Grant E.

AU - Rahme, Laurence G.

AU - Remick, Daniel G.

AU - Schoenfeld, David A.

AU - Shapiro, Michael B.

AU - Schwacha, Martin

AU - Silver, Geoffrey M.

AU - Smith, Richard D.

AU - Storey, John

AU - Toner, Mehmet

AU - Warren, H. Shaw

AU - West, Michael A.

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N2 - Monitoring genome-wide, cell-specific responses to human disease, although challenging, holds great promise for the future of medicine. Patients with injuries severe enough to develop multiple organ dysfunction syndrome have multiple immune derangements, including T cell apoptosis and anergy combined with depressed monocyte antigen presentation. Genome-wide expression analysis of highly enriched circulating leukocyte subpopulations, combined with cell-specific pathway analyses, offers an opportunity to discover leukocyte regulatory networks in critically injured patients. Severe injury induced significant changes in T cell (5,693 genes), monocyte (2,801 genes), and total leukocyte (3,437 genes) transcriptomes, with only 911 of these genes common to all three cell populations (12%). T cell-specific pathway analyses identified increased gene expression of several inhibitory receptors (PD-1, CD152, NRP-1, and Lag3) and concomitant decreases in stimulatory receptors (CD28, CD4, and IL-2Rα). Functional analysis of T cells and monocytes confirmed reduced T cell proliferation and increased cell surface expression of negative signaling receptors paired with decreased monocyte costimulation ligands. Thus, genome-wide expression from highly enriched cell populations combined with knowledge-based pathway analyses leads to the identification of regulatory networks differentially expressed in injured patients. Importantly, application of cell separation, genome-wide expression, and cell-specific pathway analyses can be used to discover pathway alterations in human disease.

AB - Monitoring genome-wide, cell-specific responses to human disease, although challenging, holds great promise for the future of medicine. Patients with injuries severe enough to develop multiple organ dysfunction syndrome have multiple immune derangements, including T cell apoptosis and anergy combined with depressed monocyte antigen presentation. Genome-wide expression analysis of highly enriched circulating leukocyte subpopulations, combined with cell-specific pathway analyses, offers an opportunity to discover leukocyte regulatory networks in critically injured patients. Severe injury induced significant changes in T cell (5,693 genes), monocyte (2,801 genes), and total leukocyte (3,437 genes) transcriptomes, with only 911 of these genes common to all three cell populations (12%). T cell-specific pathway analyses identified increased gene expression of several inhibitory receptors (PD-1, CD152, NRP-1, and Lag3) and concomitant decreases in stimulatory receptors (CD28, CD4, and IL-2Rα). Functional analysis of T cells and monocytes confirmed reduced T cell proliferation and increased cell surface expression of negative signaling receptors paired with decreased monocyte costimulation ligands. Thus, genome-wide expression from highly enriched cell populations combined with knowledge-based pathway analyses leads to the identification of regulatory networks differentially expressed in injured patients. Importantly, application of cell separation, genome-wide expression, and cell-specific pathway analyses can be used to discover pathway alterations in human disease.

KW - Anergy

KW - Apoptosis

KW - Costimulatory receptors

KW - Immunosuppression

KW - Network analysis

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Cell-specific expression and pathway analyses reveal alterations in trauma-related human T cell and monocyte pathways

Abstract

Keywords

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