Conclusion
Inhibition of HDAC or PAD significantly suppresses Cit H3 production in vitro and improves survival in vivo. Neutralization of Cit H3 significantly improves survival in septic mice. Collectively, our findings indicate for the first time that Cit H3 could not only serve as a potential biomarker, but also a novel therapeutic target in sepsis.
Methods
Three experiments were carried out. In experiment I, HL-60 neutrophilic cells grown on a coverslip were treated with LPS (100 ng/mL) in the presence or absence of SAHA (5 μmol) for 3 hours, and subjected to immunostaining with anti-Cit H3 antibody to assess effect of SAHA on Cit H3 production under a fluorescence microscope. The ratio of Cit H3 positive cells was calculated as mean values ± SD (n = 3). In experiment II, male C57BL/6J mice were subjected to CLP, and 1 hour later randomly divided into 2 groups for intraperitoneal injection as follows: (1) Dimethyl sulfoxide (DMSO), (2) SAHA (50 mg/kg) in DMSO, and (3) Cl-amidine (80 mg/kg) in DMSO (n = 10/group). In experiment III, male C57BL/6J mice were divided into control and treatment groups, and subjected to CLP. Two hours later, immunoglobulin (Ig)G and Cit H3 antibody (20 mg/kg IV; n = 5/group) were injected into the control and treatment groups, respectively. Survival was monitored for ≤10 days.
Results
In experiment I, LPS induced Cit H3 production in the HL-60 cells, and SAHA treatment inhibited H3 citrullination significantly (P < .05). In experiment II, all vehicle-injected mice died within 3 days with increased circulating Cit H3 levels, whereas treatment with HDACI or Cl-amidine notably improved long-term survival (P < .01). In experiment III, administration of IgG did not improve survival, but a single treatment with Cit H3 specific antibody significantly improved survival (P < .014).