Abstract
Herpes simplex virus type 1 (HSV-1) is a very common human pathogenic virus among the world’s population. The lytic replication cycle of HSV-1 is, amongst others, characterized by a tripartite viral gene expression cascade, the assembly of nucleocapsids involving their subsequent nuclear egress, tegumentation, re-envelopment and the final release of progeny viral particles. During productive infection of a multitude of different cell types, HSV-1 generates not only infectious heavy (H-) particles, but also non-infectious light (L-) particles, lacking the capsid. In monocyte-derived mature dendritic cells (mDCs), HSV-1 causes a non-productive infection with the predominant release of L-particles. Until now, the generation and function of L-particles is not well understood, however, they are described as factors transferring viral components to the cellular microenvironment. To obtain deeper insights into the L-particle composition, we performed a mass-spectrometry-based analysis of L-particles derived from HSV-1-infected mDCs or BHK21 cells and H-particles from the latter one. In total, we detected 63 viral proteins in both H- and L-particle preparations derived from HSV-1-infected BHK21 cells. In L-particles from HSV-1-infected mDCs we identified 41 viral proteins which are differentially distributed compared to L-particles from BHK21 cells. In this study, we present data suggesting that L-particles modify mDCs and suppress their T cell stimulatory capacity. Due to the plethora of specific viral proteins incorporated into and transmitted by L-particles, it is tempting to speculate that L-particles manipulate non-infected bystander cells for the benefit of the virus.
Highlights
The human pathogenic herpes simplex virus type 1 (HSV1) represents the prototype of the α−herpesvirus subfamily
The detection of ICP4, ICP0, glycoprotein B (gB), and UL42 confirmed the successful isolation of sufficient amounts of either L-particles or H-particles (BHK21 cells; Figure 1C)
The Herpes simplex virus type 1 (HSV-1) L-particle fractions derived from BHK21 cells and mature dendritic cells (mDCs) were more heterogeneous in size, compared to full virions, and are lacking the viral capsid
Summary
The human pathogenic herpes simplex virus type 1 (HSV1) represents the prototype of the α−herpesvirus subfamily. HSV-1 consists of the viral DNA genome surrounded by a multi protein layer, known as tegument, and the outer glycoprotein rich host-derived membrane, forming the envelope (Laine et al, 2015). After completion of the viral de novo protein synthesis, HSV-1 progeny capsids are assembled inside the nucleus and subsequently cross the nuclear membrane bilayer getting enveloped and de-enveloped at the inner nuclear membrane (INM, primary envelopment) and the outer nuclear membrane (ONM), respectively (Mettenleiter, 2002; Johnson and Baines, 2011; Crump, 2018). Having passed the nuclear membrane, capsids get coated with tegument proteins by a step called tegumentation (Vittone et al, 2005; Henaff et al, 2013). Apart from mature infectious virions, so-called heavy (H-) particles, a lytic HSV-1 infection will give rise to the production of light (L-) particles, which are void of the capsid and are not infectious (Hogue et al, 2016)
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