Defensins Potentiate a Neutralizing Antibody Response to Enteric Viral Infection.

Anshu P Gounder,Wuyuan Lu,André J Ouellette,Katherine R Spindler,Beth A Bromme,Nicolle D Myers,Mayim E Wiens,Jason G Smith,William C Parks,Sarah S Wilson,Piper M Treuting,William J Britt

doi:10.1371/journal.ppat.1005474

Abstract

α-defensins are abundant antimicrobial peptides with broad, potent antibacterial, antifungal, and antiviral activities in vitro. Although their contribution to host defense against bacteria in vivo has been demonstrated, comparable studies of their antiviral activity in vivo are lacking. Using a mouse model deficient in activated α-defensins in the small intestine, we show that Paneth cell α-defensins protect mice from oral infection by a pathogenic virus, mouse adenovirus 1 (MAdV-1). Survival differences between mouse genotypes are lost upon parenteral MAdV-1 infection, strongly implicating a role for intestinal defenses in attenuating pathogenesis. Although differences in α-defensin expression impact the composition of the ileal commensal bacterial population, depletion studies using broad-spectrum antibiotics revealed no effect of the microbiota on α-defensin-dependent viral pathogenesis. Moreover, despite the sensitivity of MAdV-1 infection to α-defensin neutralization in cell culture, we observed no barrier effect due to Paneth cell α-defensin activation on the kinetics and magnitude of MAdV-1 dissemination to the brain. Rather, a protective neutralizing antibody response was delayed in the absence of α-defensins. This effect was specific to oral viral infection, because antibody responses to parenteral or mucosal ovalbumin exposure were not affected by α-defensin deficiency. Thus, α-defensins play an important role as adjuvants in antiviral immunity in vivo that is distinct from their direct antiviral activity observed in cell culture.

Highlights

In addition to a sophisticated adaptive immune system, mammals retain more primitive immune effectors, such as antimicrobial peptides, as components of the innate response to microbial infection
One of the most abundant classes of antimicrobial peptides is α-defensins [1, 2]. α-defensins are subdivided into myeloid α-defensins [e.g., human neutrophil peptides (HNP) 1–4], expressed primarily in neutrophils and certain other immune cells, and enteric α-defensins [e.g., human defensins (HD) 5 and 6], expressed by specialized Paneth cells in the small intestinal epithelium and by epithelial cells in the genitourinary tract. α-defensins have potent antiviral and antibacterial activities in vitro and in cell culture against a wide range of organisms
Clinical correlations between defensin abundance and viral transmission or disease are not clear [2]. To address this gap in knowledge, we investigated mouse adenovirus type 1 (MAdV-1) pathogenesis in mice lacking functional enteric αdefensin processing, the matrix metalloproteinase-7 knockout (Mmp7-/-) mouse, as a system in which to study a viral pathogen in its natural host

Summary

Introduction

In addition to a sophisticated adaptive immune system, mammals retain more primitive immune effectors, such as antimicrobial peptides, as components of the innate response to microbial infection. Clinical correlations between defensin abundance and viral transmission or disease are not clear [2] To address this gap in knowledge, we investigated mouse adenovirus type 1 (MAdV-1) pathogenesis in mice lacking functional enteric αdefensin processing, the matrix metalloproteinase-7 knockout (Mmp7-/-) mouse, as a system in which to study a viral pathogen in its natural host. There are many cryptdin isoforms, they all share the requirement for a common proteolytic processing enzyme to convert inactive pro-α-defensin forms to active, mature forms within Paneth cells [6, 7]. Mmp7-/- mice provide a rational model for dissecting the role of α-defensins in enteric defense of bacterial [6, 8, 13] and viral pathogenesis

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