A genomic storm in critically injured humans

Wenzhong Xiao; Michael Mindrinos; Junhee Seok; Joseph Cuschieri; Alex G. Cuenca; Hong Gao; Douglas L. Hayden; Laura Hennessy; Ernest E. Moore; Joseph P. Minei; Paul E. Bankey; Jeffrey L. Johnson; Jason L. Sperry; Avery B. Nathens; Timothy R. Billiar; Michael A. West; Bernard H. Brownstein; Philip H. Mason; Henry V. Baker; Celeste C. Finnerty; Marc G. Jeschke; M. Cecilia López; Matthew B. Klein; Richard L. Gamelli; Nicole S. Gibran; Brett D. Arnoldo; Weihong Xu; Yuping Zhang; Steven E. Calvano; Grace P. McDonald-Smith; David Schoenfeld; John D. Storey; J. Perren Cobb; H. Shaw Warren; Lyle L. Moldawer; David N. Herndon; Stephen F. Lowry; Ronald V. Maier; Ronald W. Davis; Ronald G. Tompkins

doi:10.1084/jem.20111354

A genomic storm in critically injured humans

Wenzhong Xiao(Harvard University), Michael Mindrinos(Stanford University), Junhee Seok(Stanford University), Joseph Cuschieri(University of Washington), Alex G. Cuenca(University of Florida), Hong Gao(Stanford University), Douglas L. Hayden(Massachusetts General Hospital), Laura Hennessy(University of Washington), Ernest E. Moore(University of Colorado Anschutz Medical Campus), Joseph P. Minei(Parkland Memorial Hospital), Paul E. Bankey(University of Rochester Medical Center), Jeffrey L. Johnson(University of Colorado Anschutz Medical Campus), Jason L. Sperry(UPMC Presbyterian), Avery B. Nathens(St. Michael's Hospital), Timothy R. Billiar(UPMC Presbyterian), Michael A. West(San Francisco General Hospital), Bernard H. Brownstein(Washington University in St. Louis), Philip H. Mason(Massachusetts General Hospital), Henry V. Baker(University of Florida), Celeste C. Finnerty(The University of Texas Medical Branch at Galveston), Marc G. Jeschke(University of Toronto), M. Cecilia López(University of Florida), Matthew B. Klein(University of Washington), Richard L. Gamelli(Loyola University Chicago), Nicole S. Gibran(University of Washington), Brett D. Arnoldo(Parkland Memorial Hospital), Weihong Xu(Stanford University), Yuping Zhang(Stanford University), Steven E. Calvano, Grace P. McDonald-Smith(Massachusetts General Hospital), David Schoenfeld(Harvard University), John D. Storey(Princeton University), J. Perren Cobb(Harvard University), H. Shaw Warren(Harvard University), Lyle L. Moldawer(University of Florida), David N. Herndon(The University of Texas Medical Branch at Galveston), Stephen F. Lowry, Ronald V. Maier(University of Washington), Ronald W. Davis(Stanford University), Ronald G. Tompkins(Harvard University)

The Journal of Experimental Medicine

November 21, 2011

10.1084/jem.20111354

Cited by 1,215Open Access

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Abstract

Human survival from injury requires an appropriate inflammatory and immune response. We describe the circulating leukocyte transcriptome after severe trauma and burn injury, as well as in healthy subjects receiving low-dose bacterial endotoxin, and show that these severe stresses produce a global reprioritization affecting >80% of the cellular functions and pathways, a truly unexpected "genomic storm." In severe blunt trauma, the early leukocyte genomic response is consistent with simultaneously increased expression of genes involved in the systemic inflammatory, innate immune, and compensatory antiinflammatory responses, as well as in the suppression of genes involved in adaptive immunity. Furthermore, complications like nosocomial infections and organ failure are not associated with any genomic evidence of a second hit and differ only in the magnitude and duration of this genomic reprioritization. The similarities in gene expression patterns between different injuries reveal an apparently fundamental human response to severe inflammatory stress, with genomic signatures that are surprisingly far more common than different. Based on these transcriptional data, we propose a new paradigm for the human immunological response to severe injury.

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