Integrative "omic" Analysis of Experimental Bacteremia Identifies a Metabolic Signature That Distinguishes Human Sepsis from Systemic Inflammatory Response Syndromes

Overview

Journal Am J Respir Crit Care Med

Specialty Critical Care

Date 2014 Jul 24

PMID 25054455

Citations 59

Authors

Raymond J Langley

Jennifer L Tipper

Shannon Bruse

Rebecca M Baron

Ephraim L Tsalik

James Huntley

Angela J Rogers

Richard J Jaramillo

Denise ODonnell

William M Mega

Mignon Keaton

Elizabeth Kensicki

Lee Gazourian

Laura E Fredenburgh

Anthony F Massaro

Ronny M Otero

Vance G Fowler Jr

Emanuel P Rivers

Chris W Woods

Stephen F Kingsmore

Mohan L Sopori

Mark A Perrella

Augustine M K Choi

Kevin S Harrod

Affiliations

Soon will be listed here.

Abstract

Rationale: Sepsis is a leading cause of morbidity and mortality. Currently, early diagnosis and the progression of the disease are difficult to make. The integration of metabolomic and transcriptomic data in a primate model of sepsis may provide a novel molecular signature of clinical sepsis.

Objectives: To develop a biomarker panel to characterize sepsis in primates and ascertain its relevance to early diagnosis and progression of human sepsis.

Methods: Intravenous inoculation of Macaca fascicularis with Escherichia coli produced mild to severe sepsis, lung injury, and death. Plasma samples were obtained before and after 1, 3, and 5 days of E. coli challenge and at the time of killing. At necropsy, blood, lung, kidney, and spleen samples were collected. An integrative analysis of the metabolomic and transcriptomic datasets was performed to identify a panel of sepsis biomarkers.

Measurements And Main Results: The extent of E. coli invasion, respiratory distress, lethargy, and mortality was dependent on the bacterial dose. Metabolomic and transcriptomic changes characterized severe infections and death, and indicated impaired mitochondrial, peroxisomal, and liver functions. Analysis of the pulmonary transcriptome and plasma metabolome suggested impaired fatty acid catabolism regulated by peroxisome-proliferator activated receptor signaling. A representative four-metabolite model effectively diagnosed sepsis in primates (area under the curve, 0.966) and in two human sepsis cohorts (area under the curve, 0.78 and 0.82).

Conclusions: A model of sepsis based on reciprocal metabolomic and transcriptomic data was developed in primates and validated in two human patient cohorts. It is anticipated that the identified parameters will facilitate early diagnosis and management of sepsis.

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