Citrullinated histone 3 causes endothelial barrier dysfunction

JE Meegan, X Yang, RS Beard Jr, M Jannaway… - Biochemical and …, 2018 - Elsevier
JE Meegan, X Yang, RS Beard Jr, M Jannaway, V Chatterjee, TE Taylor-Clark, SY Yuan
Biochemical and biophysical research communications, 2018Elsevier
Circulating components of neutrophil extracellular traps (NETs), especially histones, are
associated with tissue injury during inflammatory conditions like sepsis. Commonly used as
a NET biomarker, citrullinated histone 3 (H3Cit) may also functionally contribute to the NET-
associated inflammatory response. To this end, we sought to examine the role of H3Cit in
mediating microvascular endothelial barrier dysfunction. Here we show that H3Cit can
directly contribute to inflammatory injury by disrupting the microvascular endothelial barrier …
Abstract
Circulating components of neutrophil extracellular traps (NETs), especially histones, are associated with tissue injury during inflammatory conditions like sepsis. Commonly used as a NET biomarker, citrullinated histone 3 (H3Cit) may also functionally contribute to the NET-associated inflammatory response. To this end, we sought to examine the role of H3Cit in mediating microvascular endothelial barrier dysfunction. Here we show that H3Cit can directly contribute to inflammatory injury by disrupting the microvascular endothelial barrier. We found that endothelial responses to H3Cit are characterized by cell-cell adherens junction opening and cytoskeleton reorganization with increased F-actin stress fibers. Several signaling pathways often implicated in the transduction of hyperpermeability, such as Rho and MLCK, did not appear to play a major role; however, the adenylyl cyclase activator forskolin blocked the endothelial barrier effect of H3Cit. Taken together, the data suggest that H3Cit-induced endothelial barrier dysfunction may hold promise to treat inflammatory injury.
Elsevier