Biography
Biography: Guozheng Wang
Abstract
Although intra-nuclear histones play essential roles in DNA packaging and gene regulation, released histones following extensive cell or organ damage are toxic to pathogens but also to host hematopoietic, endothelial and epithelial cells. Cellular toxicity mainly results from direct membrane binding and resultant calcium influx with our work showing that this can directly trigger neutrophil MPO release and NETosis. In patients with severe trauma and sepsis, we found that high circulating histone levels correlated significantly to the incidence of acute lung injury (ALI) as well as markers of endothelial damage and coagulation activation. Using histone-infusion mouse models we showed that ALI with oedema, neutrophil congestion, NETs and thrombus formation impairs pulmonary microcirculation as indicated by pressure increase and even enlargement of right ventricle in extreme conditions. Since the lungs are the predominant sites of neutrophil margination and alveolar neutrophil infiltration is the hallmark of ALI, histone-induced neutrophil congestion, MPO release and NETs formation may provide an explanation as to why lungs are more susceptible to histone toxicity than other organs and new targets for managing ALI.