Microbial exposures are crucial environmental factors that impact healthspan by sculpting the immune system and microbiota. Antibody profiling via programmable Phage ImmunoPrecipitation Sequencing (PhIP-Seq) provides a high-throughput, cost-effective approach for multiplexed detection of exposure and response to thousands of microbial protein products. Here we designed and constructed a library of 95,601 56 amino acid peptide tiles spanning a subset of environmental proteins more likely to be associated with immune responses: those with "toxin" or "virulence factor" keyword annotations. PhIP-Seq was used to profile the circulating antibodies of ~1,000 individuals against this "ToxScan" library of 14,430 toxins and virulence factors from 1,312 genera of organisms. In addition to a detailed analysis of six commonly encountered human commensals and pathogens, we study the age-dependent stability of the ToxScan profile and use a genome-wide association study (GWAS) to find that the MHC-II locus modulates the selection of bacterial epitopes. We detect previously described anti-flagellin antibody responses in a Crohn's disease cohort and identify a novel association between anti-flagellin antibodies and juvenile dermatomyositis (JDM). PhIP-Seq with the ToxScan library provides a new window into exposure and immune responses to environmental protein toxins and virulence factors, which can be used to study human health and disease at cohort scale.
Background Gut microbiota comprise important environmental exposures that influence human immune systems and may alter the clinical course of inflammatory bowel disease (IBD). Little is known about the role of gut bacteriophages (viral components that infect prokaryotic bacteria) and their interactions with the host’s immune responses. We tested the hypotheses that (1) immune responses of individuals with IBD to phages differ from those without IBD and (2) immune responses to phages are associated with disease type (i.e. those with Crohn’s disease have different responses than those with ulcerative colitis). Methods We have constructed the first bacteriophage peptidome library (“phageome”), based on sequencing of environmental phages and large-scale metagenomic sequencing of virus-like particles isolated from stool samples from IBD patients and their non-IBD household contacts. Using Phage ImmunoPrecipitation Sequencing (PhIP-Seq) technology, we generated complete serum antibody binding profiles of 48 IBD patients (16 ulcerative colitis, 11 Crohn’s, and 11 indeterminate), 9 of their non-IBD household contacts, and an independent non-IBD cohort of 674 volunteers collected by the Vaccine Research Center (VRC) at the National Institutes of Health. Antibody binding profiles were compared among groups using nonparametric statistics. Results IBD patients as a group had lower antibody responses to specific phages compared to both non-IBD household contacts and the non-IBD VRC controls; this difference was significant and remained after control for unequal sample sizes [Figure 1]. Patients with Crohn’s disease compared to those with ulcerative colitis had similar antibody responses. Particularly for phages of the genera Phifelvirus, the immune responses of Crohn’s patients were significantly reduced compared to their non-IBD household contacts, while the immune responses of patients with ulcerative colitis did not significantly differ from non-IBD household contacts [Figure 2]. IBD disease type comparisons to the VRC controls yielded similar results. Conclusion PhIP-Seq with a phageome library can be used to study the relationship between immune responses and gut bacteriophages in IBD. Our results suggest that IBD patients may have lower antibody responses to specific phages compared to non-IBD individuals. Differential antibody reactivities in Crohn’s disease vs. ulcerative colitis compared to their household contacts and VRC controls suggest disease-specific response to the gut phageome that warrant further study.
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