Acute Simian Varicella Virus Infection Causes Robust and Sustained Changes in Gene Expression in the Sensory Ganglia

Abstract: Primary infection with varicella-zoster virus (VZV), a neurotropic alphaherpesvirus, results in varicella. VZV establishes latency in the sensory ganglia and can reactivate later in life to cause herpes zoster. The relationship between VZV and its host during acute infection in the sensory ganglia is not well understood due to limited access to clinical specimens. Intrabronchial inoculation of rhesus macaques with simian varicella virus (SVV) recapitulates the hallmarks of VZV infection in humans. We leveraged… Show more

“…As described for VZV, we and others have demonstrated that SVV primarily infects T cells that traffic to the ganglia as early as 3 days postinfection (Ouwendijk et al, 2013;Arnold et al, 2016a). Moreover, we showed that T cells isolated from the broncho-alveolar lavage (BAL) during acute infection supported SVV replication (Arnold et al, 2016a). These data firmly establish the importance of T cells in SVV pathogenesis making this model ideal for investigating how VZV infection alters T cell behavior and function.…”

“…This model mimics the key characteristics of VZV infection including the development of varicella, cellular and humoral immune responses, the establishment of latency in sensory ganglia, and reactivation (Messaoudi et al, 2009;Mahalingam et al, 2010;Mahalingam et al, 2007;Kolappaswamy et al, 2007). As described for VZV, we and others have demonstrated that SVV primarily infects T cells that traffic to the ganglia as early as 3 days postinfection (Ouwendijk et al, 2013;Arnold et al, 2016a). Moreover, we showed that T cells isolated from the broncho-alveolar lavage (BAL) during acute infection supported SVV replication (Arnold et al, 2016a).…”

Simian varicella virus causes robust transcriptional changes in T cells that support viral replication

“…As described for VZV, we and others have demonstrated that SVV primarily infects T cells that traffic to the ganglia as early as 3 days postinfection (Ouwendijk et al, 2013;Arnold et al, 2016a). Moreover, we showed that T cells isolated from the broncho-alveolar lavage (BAL) during acute infection supported SVV replication (Arnold et al, 2016a). These data firmly establish the importance of T cells in SVV pathogenesis making this model ideal for investigating how VZV infection alters T cell behavior and function.…”

“…This model mimics the key characteristics of VZV infection including the development of varicella, cellular and humoral immune responses, the establishment of latency in sensory ganglia, and reactivation (Messaoudi et al, 2009;Mahalingam et al, 2010;Mahalingam et al, 2007;Kolappaswamy et al, 2007). As described for VZV, we and others have demonstrated that SVV primarily infects T cells that traffic to the ganglia as early as 3 days postinfection (Ouwendijk et al, 2013;Arnold et al, 2016a). Moreover, we showed that T cells isolated from the broncho-alveolar lavage (BAL) during acute infection supported SVV replication (Arnold et al, 2016a).…”

Simian varicella virus causes robust transcriptional changes in T cells that support viral replication

“…We also compared changes in gene expression in ganglia collected from animals that experienced a reactivation event and those that did not relative to ganglia collected from naïve animals (Arnold et al , 2016). Overall, we detected 967 DEGs (403 up-regulated, 325 down-regulated) in ganglia from animals that did not have a reactivation and 1200 DEGs (641 up-regulated, 559 down-regulated) in the ganglia from animals that did.…”

“…Recent studies from our lab have shown a down-regulation of neuronal genes during acute infection (Arnold et al , 2016), therefore we compared the DEGs detected after acute SVV infection (100 dpi) and those detected after SVV reactivation. Only 48 common DEGs were identified, most of which were down-regulated after both acute infection and reactivation.…”

“…Analysis of differentially expressed genes (DEGs) was performed with the GLM method from the edgeR package (Anders et al , 2013; Robinson et al , 2010)(SRP097695). For comparison to naïve ganglia, we leveraged RNASeq data from our recent publication (SRP072525, (Arnold et al , 2016)). In all analyses, differentially expressed genes (DEGs) were defined as those with a fold change ≥2, a false discovery rate (FDR) ≤0.05 and a median RPKM value ≥5.…”

Robust gene expression changes in the ganglia following subclinical reactivation in rhesus macaques infected with simian varicella virus

Simian Varicella Virus: Molecular Virology and Mechanisms of Pathogenesis