Peptidyl Arginine Deiminase (PAD) 4 Modulates the GI Microbiome and Baseline Inflammation in Mice: Implications for Sepsis

Introduction: As part of the innate immune response, neutrophils release neutrophil extracellular traps (NETs), webs of decondensed chromatin coated with histones that capture bacteria but cause collateral tissue damage when produced in a dysregulated manner. Deficiency of PAD4, a protein that converts histone arginine to citrulline to promote chromatin decondensation essential to NET release (NETosis), has been associated with improved outcomes in murine sepsis models, leading some to propose that inhibiting NETosis may be protective. This conclusion has primarily been drawn from studies using the murine cecal-ligation and puncture (CLP) model of polymicrobial sepsis, in which the cecum is perforated to disseminate GI microbiota. However, NET release is an evolutionarily conserved function, present in protozoa and retained in all studied animal species, suggesting that it plays a crucial role in the immune response. In this study, we seek to characterize the baseline immunophenotype of NET-deficient, PAD4 knockout (PAD4 -/-) mice, to determine how PAD4 influences the GI microbiome to impact outcomes in GI models of polymicrobial sepsis. Methods: Whole blood samples were collected from wild type (WT) C57BL/6 mice, PAD4 -/- mice generated by our group through deletion of exon II in the PAD4 gene (PAD4D ΔII), and PAD4 -/- mice with deletion of exon IX and X (PAD4D ΔIX+X) obtained from Jackson laboratory. Complete blood counts (CBCs) and weights were obtained from PAD4 -/- and healthy WT mice at 9-12 weeks. The Olink target 96 mouse exploratory panel was used to quantify variation in levels of 96 plasma proteins. Next generation sequencing was used to assess the abundance of different bacterial species in stool samples from WT, PAD4D ΔII, and PAD4D ΔIX+X animals. Polymicrobial sepsis was then induced through peritoneal injections of cecal slurry (CS), using cecal samples from WT, PAD4D ΔII, and PAD4D ΔIX+X donor mice. 24 hours post injection, mean sepsis score (MSS) was assessed, and blood was obtained for CBC measurement, plasma proteomic analysis, and quantification of bacterial colony forming units (CFUs). Relative abundance of bacterial species was quantified in blood and liver homogenates. Survival outcome was performed on parallel subsets of WT and PAD4 -/- mice. Results: At comparable ages, both strains of PAD4 -/- animals had lower weights and significantly higher baseline neutrophil counts than WT controls bred in the same colony. Proteomic analysis