Zhenxing Cheng1,2, Simon T Abrams2, Yasir Alhamdi2, Julien Toh3, Weiping Yu1, Guozheng Wang1,2, Cheng-Hock Toh2,4. 1. The Medical School, Southeast University, Nanjing, China. 2. Institute of Infection and Global Health, University of Liverpool, Liverpool, United Kingdom. 3. Sheffield Medical School, University of Sheffield, Beech Hill Road, Sheffield, United Kingdom. 4. Royal Liverpool University Hospital, University of Liverpool, Liverpool, United Kingdom.
Abstract
OBJECTIVES: Multiple organ dysfunction syndrome is characterized by simultaneous multiple organ failure, which is the leading cause of death in acute critically ill patients. However, what mediates multiple organ dysfunction syndrome is not fully understood. The discovery of toxic effects by extracellular histones on different individual organs strongly suggests their involvement in multiple organ dysfunction syndrome. In this study, we investigate whether circulating histones are major mediators of multiple organ dysfunction syndrome in acute critical illnesses. DESIGN: Combination of retrospective clinical studies and animal models with intervention. SETTING: ICU in a tertiary hospital and research laboratories. PATIENTS: Four hundred and twenty ICU patients, including sepsis (140), severe trauma (63), severe pancreatitis (89), and other admission diagnoses (128). LABORATORY INVESTIGATION: Cells from major organs are treated with calf thymus histones or histone-containing sera. Animal models for sepsis, trauma, and acute pancreatitis are treated with antihistone reagents. INTERVENTION: Antihistone reagents in in vitro, ex vivo, and animal models. MEASUREMENT AND MAIN RESULTS: Retrospective analysis of a prospectively recruited ICU cohort demonstrated a strong correlation between circulating histones and organ injury markers and Sequential Organ Failure Assessment scores. Ex vivo experiments showed that patient sera containing high histone levels were toxic to cultured cells from different origins, suggesting their universal toxicity to multiple organs. Animal models of sepsis, trauma, and pancreatitis further demonstrated a temporal correlation between histone levels and disease severity and multiple organ injury. Importantly, antihistone reagents, that is, antihistone single-chain variable fragment and nonanticoagulant heparin, could dramatically reduce multiple organ injury, particularly of the heart and lungs, and improve survival in mouse models. CONCLUSIONS: High levels of circulating histones are major mediators of multiple organ dysfunction syndrome. Our results indicate that monitoring upon ICU admission could inform on disease severity and developing antihistone therapy holds great potential of reducing multiple organ dysfunction syndrome and improving survival of critically ill patients.
OBJECTIVES:Multiple organ dysfunction syndrome is characterized by simultaneous multiple organ failure, which is the leading cause of death in acute critically illpatients. However, what mediates multiple organ dysfunction syndrome is not fully understood. The discovery of toxic effects by extracellular histones on different individual organs strongly suggests their involvement in multiple organ dysfunction syndrome. In this study, we investigate whether circulating histones are major mediators of multiple organ dysfunction syndrome in acute critical illnesses. DESIGN: Combination of retrospective clinical studies and animal models with intervention. SETTING: ICU in a tertiary hospital and research laboratories. PATIENTS: Four hundred and twenty ICU patients, including sepsis (140), severe trauma (63), severe pancreatitis (89), and other admission diagnoses (128). LABORATORY INVESTIGATION: Cells from major organs are treated with calf thymus histones or histone-containing sera. Animal models for sepsis, trauma, and acute pancreatitis are treated with antihistone reagents. INTERVENTION: Antihistone reagents in in vitro, ex vivo, and animal models. MEASUREMENT AND MAIN RESULTS: Retrospective analysis of a prospectively recruited ICU cohort demonstrated a strong correlation between circulating histones and organ injury markers and Sequential Organ Failure Assessment scores. Ex vivo experiments showed that patient sera containing high histone levels were toxic to cultured cells from different origins, suggesting their universal toxicity to multiple organs. Animal models of sepsis, trauma, and pancreatitis further demonstrated a temporal correlation between histone levels and disease severity and multiple organ injury. Importantly, antihistone reagents, that is, antihistone single-chain variable fragment and nonanticoagulant heparin, could dramatically reduce multiple organ injury, particularly of the heart and lungs, and improve survival in mouse models. CONCLUSIONS: High levels of circulating histones are major mediators of multiple organ dysfunction syndrome. Our results indicate that monitoring upon ICU admission could inform on disease severity and developing antihistone therapy holds great potential of reducing multiple organ dysfunction syndrome and improving survival of critically illpatients.
Authors: Christopher A Moxon; Yasir Alhamdi; Janet Storm; Julien M H Toh; Dagmara McGuinness; Joo Yeon Ko; George Murphy; Steven Lane; Terrie E Taylor; Karl B Seydel; Sam Kampondeni; Michael Potchen; James S O'Donnell; Niamh O'Regan; Guozheng Wang; Guillermo García-Cardeña; Malcolm Molyneux; Alister G Craig; Simon T Abrams; Cheng-Hock Toh Journal: Blood Adv Date: 2020-07-14
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