Varicella zoster virus (VZV) is a ubiquitous, human alphaherpesvirus that produces varicella on primary infection then becomes latent in ganglionic neurons along the entire neuraxis. In elderly and immunocompromised individuals, VZV reactivates and travels along nerve fibers peripherally resulting in zoster. However, VZV can also spread centrally and infect cerebral and extracranial arteries (VZV vasculopathy) to produce transient ischemic attacks, stroke, aneurysm, sinus thrombosis and giant cell arteritis, as well as granulomatous aortitis. The mechanisms of virus-induced pathological vascular remodeling are not fully elucidated; however, recent studies suggest that inflammation and dysregulation of programmed death ligand-1 play a significant role.
Varicella zoster virus (VZV) is a lymphotropic alpha-herpesvirinae subfamily member that produces varicella on primary infection and causes zoster, vascular disease and vision loss upon reactivation from latency. VZV-infected peripheral blood mononuclear cells (PBMCs) disseminate virus to distal organs to produce clinical disease. To assess immune evasion strategies elicited by VZV that may contribute to dissemination of infection, human PBMCs and VZV-specific CD8+ T cells (V-CD8+) were mock- or VZV-infected and analyzed for immunoinhibitory protein PD-1, PD-L1, PD-L2, CTLA-4, LAG-3 and TIM-3 expression using flow cytometry. All VZV-infected PBMCs (monocytes, NK, NKT, B cells, CD4+ and CD8+ T cells) and V-CD8+ showed significant elevations in PD-L1 expression compared to uninfected cells. VZV induced PD-L2 expression in B cells and V-CD8+. Only VZV-infected CD8+ T cells, NKT cells and V-CD8+ upregulated PD-1 expression, the immunoinhibitory receptor for PD-L1/PD-L2. VZV induced CTLA-4 expression only in V-CD8+ and no significant changes in LAG-3 or TIM-3 expression were observed in V-CD8+ or PBMC T cells. To test whether PD-L1, PD-L2 or CTLA-4 regulates V-CD8+ effector function, autologous PBMCs were VZV-infected and co-cultured with V-CD8+ cells in the presence of blocking antibodies against PD-L1, PD-L2 or CTLA-4; ELISAs revealed significant elevations in IFNγ only upon blocking of PD-L1. Together, these results identified additional immune cells that are permissive to VZV infection (monocytes, B cells and NKT cells); along with a novel mechanism for inhibiting CD8+ T cell effector function through induction of PD-L1 expression.
Objective:To test whether varicella zoster virus (VZV) infection of human brain vascular cells and of lung fibroblasts directly increases proinflammatory cytokine levels, consistent with VZV as a causative agent in intracerebral VZV vasculopathy and giant-cell arteritis (GCA).Methods:Conditioned supernatant from mock- and VZV-infected human brain vascular adventitial fibroblasts (HBVAFs), human perineurial cells (HPNCs), human brain vascular smooth muscle cells (HBVSMCs), and human fetal lung fibroblasts (HFLs) were collected at 72 hours postinfection and analyzed for levels of 30 proinflammatory cytokines using the Meso Scale Discovery Multiplex ELISA platform.Results:Compared with mock infection, VZV infection led to significantly increased levels of the following: interleukin-8 (IL-8) in all cell lines examined; IL-6 in HBVAFs, HPNCs, and HFLs, with no change in HBVSMCs; and vascular endothelial growth factor A in HBVAFs, HBVSMCs, and HFLs, with a significant decrease in HPNCs. Other cytokines, including IL-2, IL-4, IL-15, IL-16, TGF-b, Eotaxin-1, Eotaxin-3, IP-10, MCP-1, and granulocyte macrophage colony-stimulating factor, were also significantly altered upon VZV infection in a cell type–specific manner.Conclusions:VZV infection of vascular cells can directly produce a proinflammatory environment that may potentially lead to prolonged arterial wall inflammation and vasculitis. The VZV-mediated increase in IL-8 and IL-6 is consistent with that seen in the CSF of patients with intracerebral VZV vasculopathy, and the VZV-mediated increase in IL-6 is consistent with the cytokine's elevated levels in temporal arteries and plasma of patients with GCA.
V aricella-zoster virus (VZV) is a common, neurotropic DNA alphaherpesvirus that causes varicella (chickenpox) upon primary infection, after which virus becomes latent in ganglionic neurons along the entire neuraxis (1-6). With a decline in VZVspecific cell-mediated immunity, VZV reactivates in elderly or immunocompromised individuals, most commonly causing zoster (shingles). VZV can also reactivate and spread transaxonally to cerebral arteries to produce stroke with or without rash (VZV vasculopathy). Recent studies show that aside from stroke, VZV vasculopathy presents as giant cell arteritis, which is the most common cause of systemic vasculitis in the elderly (7), as well as granulomatous aortitis (8).Studies of VZV-infected cerebral and temporal arteries from patients with VZV vasculopathy show viral antigen predominantly in the outermost adventitia in early infection, supporting deposition of virus from nerve fibers that terminate within this layer followed by transmural spread (7, 9). Persistent inflammation with a predominance of T cells and macrophages can be seen even up to 10 months after disease onset and is associated with pathological vascular remodeling (10). The mechanism(s) by which inflammatory cells persist to cause vascular damage in VZV-infected arteries is unknown.Programmed cell death ligand 1 (PD-L1), a 40-kDa type 1 transmembrane protein in the B7 immunoglobulin family that can be expressed on virtually all nucleated cells (11), suppresses the immune system through interaction with its receptor, pro-
Three relatively clear-cut diagnostic groups, namely primary major depressive disorder-endogenous subtype (PRI MDD-E), primary anxiety disorder with no depression (PRI ANX), and normal controls as well as two additional patient groups with mixed or coexisting anxious/depressive diagnoses were studied. Clinical assessment was made by routine psychiatric interview, Schedule of Affective Disorder and Schizophrenia (SADS) research interview, and obtaining family history of MDD. Subjects underwent both routine ‘baseline’ sleep EEG polygraphic arecoline, a muscarinic, cholinergic agonist infused during sleep. Cholinergic sensitivity was assessed by measuring the time to induction of REM sleep after arecoline infusion. In addition, a subgroup of MDD patients underwent pupillographic testing. Peripheral α-adrenergic responsivity was measured by the magnitude of pupillary mydriatic response after local ocular instillation of phenylephrine. Successful separation (83% correct classification) of the ‘pure’ groups (PRI MDD-E, PRI ANX, and normal) was achieved by discriminant function analysis of sleep EEG variables. Compared to PRI ANX and normal groups, patients with PRI MDD-E had supersensitive cholinergic REM-induction response, shorter REM latency, increased first REM density and REM percent. Separation of the PRI ANX and normal groups was by intermittent awake time, delta sleep percent, and total REM density. Classification of the mixed anxious/depressive groups was next attempted using the discriminant coefficients derived from the above analysis of ‘pure’ groups. We found that the presence of absence of family history of MDD in patients with mixed diagnosis offered the best prediction of classification into PRI MDD-E and PRI ANX groups, respectively. MDD patients with coexisting panic disorder were significantly subsensitive to phenylephrine -induced mydriasis compared to MDD patients without anxiety.
Objective:To determine the levels of proinflammatory cytokines and matrix metalloproteinases (MMPs) in the CSF of patients with virologically verified varicella zoster virus (VZV) vasculopathy.Methods:CSF from 30 patients with virologically verified VZV vasculopathy was analyzed for levels of proinflammatory cytokines and MMPs using the Meso Scale Discovery multiplex ELISA platform. Positive CNS inflammatory disease controls were provided by CSF from 30 patients with multiple sclerosis. Negative controls were provided by CSF from 20 healthy controls.Results:Compared to multiple sclerosis CSF and CSF from healthy controls, levels of interleukin (IL)-8, IL-6, and MMP-2 were significantly elevated in VZV vasculopathy CSF.Conclusions:CSF of patients with VZV vasculopathy revealed a unique profile of elevated proinflammatory cytokines, IL-8 and IL-6, along with elevated MMP-2. The relevance of these cytokines to the pathogenesis of VZV vasculopathy requires further study.
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