Abstract
Cell-cell fusion (abbreviated as cell fusion) is a characteristic pathology of medically important viruses, including varicella-zoster virus (VZV), the causative agent of chickenpox and shingles. Cell fusion is mediated by a complex of VZV glycoproteins, gB and gH-gL, and must be tightly regulated to enable skin pathogenesis based on studies with gB and gH hyperfusogenic VZV mutants. Although the function of gB and gH-gL in the regulation of cell fusion has been explored, whether host factors are directly involved in this regulation process is unknown. Here, we discovered host factors that modulated VZV gB/gH-gL mediated cell fusion via high-throughput screening of bioactive compounds with known cellular targets. Two structurally related non-antibiotic macrolides, tacrolimus and pimecrolimus, both significantly increased VZV gB/gH-gL mediated cell fusion. These compounds form a drug-protein complex with FKBP1A, which binds to calcineurin and specifically inhibits calcineurin phosphatase activity. Inhibition of calcineurin phosphatase activity also enhanced both herpes simplex virus-1 fusion complex and syncytin-1 mediated cell fusion, indicating a broad role of calcineurin in modulating this process. To characterize the role of calcineurin phosphatase activity in VZV gB/gH-gL mediated fusion, a series of biochemical, biological and infectivity assays was performed. Pimecrolimus-induced, enhanced cell fusion was significantly reduced by shRNA knockdown of FKBP1A, further supporting the role of calcineurin phosphatase activity in fusion regulation. Importantly, inhibition of calcineurin phosphatase activity during VZV infection caused exaggerated syncytia formation and suppressed virus propagation, which was consistent with the previously reported phenotypes of gB and gH hyperfusogenic VZV mutants. Seven host cell proteins that remained uniquely phosphorylated when calcineurin phosphatase activity was inhibited were identified as potential downstream factors involved in fusion regulation. These findings demonstrate that calcineurin is a critical host cell factor pivotal in the regulation of VZV induced cell fusion, which is essential for VZV pathogenesis.
Highlights
Glycoproteins in the membranes of enveloped viruses mediate host entry by inducing fusion between viral and cellular membranes
Our study demonstrated that calcineurin phosphatase activity regulates VZVinduced cell fusion, providing a new perspective for potential antiviral strategies that target host factors
To identify cellular factors that regulate varicella-zoster virus (VZV) cell fusion, a high-throughput stable reporter fusion assay (HT-SRFA) was developed to assess the differential effects of well-defined bioactive compounds on VZV glycoprotein B (gB)/gH-gL mediated cell fusion between effector Chinese Hamster Ovary (CHO) cells expressing the glycoproteins and target MeWo cells (Fig 1A)
Summary
Glycoproteins in the membranes of enveloped viruses mediate host entry by inducing fusion between viral and cellular membranes. These fusogenic glycoproteins can induce cell fusion, which is recognized as a component of pathogenesis in the infected host for viruses from diverse families. Among human pathogens, these viruses include the paramyxoviruses, measles virus (MV), respiratory syncytial virus (RSV), human immunodeficiency virus (HIV), and the herpesviruses, varicella-zoster virus (VZV) and herpes simplex virus (HSV) [1,2,3]. We investigate host cell factors involved in VZV induced cell fusion because this process is a hallmark of VZV pathogenesis and is linked directly to the adverse health consequences of VZV infection [6]
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