Abstract
ABSTRACTSuperinfection exclusion (SIE) is a phenomenon in which a primary viral infection interferes with secondary viral infections within that same cell. Although SIE has been observed across many viruses, it has remained relatively understudied. A recently characterized glycoprotein D (gD) -independent SIE of alphaherpesviruses presents a novel mechanism of co-infection restriction for Herpes Simplex Virus Type 1 (HSV-1) and Pseudorabies virus (PRV). In this study, we evaluated the role of multiplicity of infection (MOI), receptor expression, and trafficking of virions to gain greater insight into potential mechanisms of alphaherpesvirus SIE.We observed that high MOI secondary viral infections were able to overcome SIE in a manner that was independent of receptor availability. Utilizing recombinant viruses expressing fluorescent protein fusions, we assessed virion localization during SIE through live fluorescent microscopy of dual-labeled virions and localization of capsid assemblies. Analysis of these assemblies confirmed changes in the distribution of capsids during SIE. These results indicate that SIE during PRV infection inhibits viral entry or fusion while HSV-1 SIE inhibits infection through a post-entry mechanism. Although the timing and phenotype of SIE is similar between alphaherpesviruses, the related viruses implement different mechanisms to restrict coinfection.IMPORTANCEMost viruses utilize a form of superinfection exclusion to conserve resources and control population dynamics. gD-dependent superinfection exclusion in alphaherpesviruses is well-documented. However, the under-characterized gD-independent SIE provides new insight into how alphaherpesviruses limit sequential infection. The observations described here demonstrate that gD-independent SIE differs between PRV and HSV-1. Comparing these differences provide new insights into the underlying mechanisms of SIE implemented by two related viruses.
Publisher
Cold Spring Harbor Laboratory