Autocrine and paracrine interferon signalling as ‘ring vaccination’ and ‘contact tracing’ strategies to suppress virus infection in a host

G Michael Lavigne,Hayley Russell,Barbara Sherry,Ruian Ke

doi:10.1098/rspb.2020.3002

G Michael Lavigne, Hayley Russell + Show 2 more

Open Access

https://doi.org/10.1098/rspb.2020.3002

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Abstract

The innate immune response, particularly the interferon response, represents a first line of defence against viral infections. The interferon molecules produced from infected cells act through autocrine and paracrine signalling to turn host cells into an antiviral state. Although the molecular mechanisms of IFN signalling have been well characterized, how the interferon response collectively contribute to the regulation of host cells to stop or suppress viral infection during early infection remain unclear. Here, we use mathematical models to delineate the roles of the autocrine and the paracrine signalling, and show that their impacts on viral spread are dependent on how infection proceeds. In particular, we found that when infection is well-mixed, the paracrine signalling is not as effective; by contrast, when infection spreads in a spatial manner, a likely scenario during initial infection in tissue, the paracrine signalling can impede the spread of infection by decreasing the number of susceptible cells close to the site of infection. Furthermore, we argue that the interferon response can be seen as a parallel to population-level epidemic prevention strategies such as ‘contact tracing’ or ‘ring vaccination’. Thus, our results here may have implications for the outbreak control at the population scale more broadly.

Highlights

The innate immune response provides critical protection against pathogen invasion of humans and other animals prior to establishment of adaptive immunity
In vitro experiments suggest that the fraction of infected cells that successfully enter an antiviral state is in general low [36,37,38], i.e. k/(δ + k) is much less than 1. If this observation is consistent with IFN response in vivo, our results suggest that autocrine signalling has limited impact on stopping viral infection during initial stage of infection
Our results show that when cells, viruses and IFNs are well-mixed, autocrine signalling may have limited impact on the infection dynamics when a small fraction of cells turn on an antiviral response, and paracrine signalling has no impact on the infection dynamics during early infection

Summary

Introduction

The innate immune response provides critical protection against pathogen invasion of humans and other animals prior to establishment of adaptive immunity It relies on multiple cytokines, chief among them being interferons (IFNs), a large, diverse family of signalling proteins that together induce a protective response [1]. Viral RNAs or DNAs are detected by the cell, triggering a signalling cascade that results in the production of Type I IFNs [16,17]. These IFN molecules are secreted and bind to surface receptors located on the cell membrane.

F R model schematic

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