Author:
Armstrong Heather,Rahbari Mandana,Park Heekuk,Sharon David,Thiesen Aducio,Hotte Naomi,Sun Ning,Syed Hussain,Abofayed Hiatem,Wang Weiwei,Madsen Karen,Wine Eytan,Mason Andrew
Abstract
AbstractBackgroundFollowing viral infection, genetically manipulated mice lacking immunoregulatory function may develop colitis and dysbiosis in a strain specific fashion that serves as a model for inflammatory bowel disease (IBD). We found that one such model of spontaneous colitis, the interleukin (IL)-10 knockout (IL-I0-/-) model derived from the SvEv mouse, had evidence of increased mouse mammary tumor virus (MMTV) viral RNA expression compared to the SvEv wildtype. MMTV is endemic in several mouse strains as an endogenously encoded betaretrovirus that is passaged as an exogenous agent in breast milk. As MMTV requires a viral superantigen to replicate in the gut associated lymphoid tissue prior to the development of systemic infection, we evaluated whether MMTV may contribute to the development of colitis in the IL-10-/-model.ResultsViral preparations extracted from IL-10-/-weanling stomachs revealed augmented MMTV load compared to the SvEv wildtype. Illumina sequencing of the viral genome revealed that the two largest contigs shared 96.4% - 97.3% identity with themtv-1endogenous loci and the MMTV(HeJ) exogenous virus from the C3H mouse. The MMTVsaggene cloned from IL-10-/-spleen encoded the MTV-9 superantigen that preferentially activates T cell receptor Vβ-12 subsets, which were expanded in the IL-10-/-versus the SvEv colon. Evidence of MMTV cellular immune responses to MMTV Gag peptides was observed in the IL-10-/-splenocytes with amplified interferon-γ production versus the SvEv wildtype. To address the hypothesis that MMTV may contribute to colitis, we used HIV reverse transcriptase inhibitors, tenofovir and emtricitabine, and the HIV protease inhibitor, lopinavir boosted with ritonavir, for 12 weeks treatment versus placebo. The combination anti-retroviral therapy with known activity against MMTV was associated with reduced colonic MMTV RNA and improved histological score in IL10-/-mice, as well as diminished secretion of pro-inflammatory cytokines and modulation of the microbiome associated with colitis.ConclusionsThis study suggests that immunogenetically manipulated mice with deletion of IL-10 may have reduced capacity to contain MMTV infection in a mouse-strain specific manner, and the antiviral inflammatory responses may contribute to the complexity of IBD with the development of colitis and dysbiosis.
Publisher
Cold Spring Harbor Laboratory