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ABSTRACT: A genetic absence of the common IFN-α/β signaling receptor (IFNAR) in mice is associated with enhanced viral replication and altered adaptive immune responses. However, analysis of IFNAR(-/-) mice is limited for studying the functions of type I IFN at discrete stages of viral infection. To define the temporal functions of type I IFN signaling in the context of infection by West Nile virus (WNV), we treated mice with MAR1-5A3, a neutralizing, non cell-depleting anti-IFNAR antibody. Inhibition of type I IFN signaling at or before day 2 after infection was associated with markedly enhanced viral burden, whereas treatment at day 4 had substantially less effect on WNV dissemination. While antibody treatment prior to infection resulted in massive expansion of virus-specific CD8(+) T cells, blockade of type I IFN signaling starting at day 4 induced dysfunctional CD8(+) T cells with depressed cytokine responses and expression of phenotypic markers suggesting exhaustion. Thus, only the later maturation phase of anti-WNV CD8(+) T cell development requires type I IFN signaling. WNV infection experiments in BATF3(-/-) mice, which lack CD8-α dendritic cells and have impaired priming due to inefficient antigen cross-presentation, revealed a similar effect of blocking IFN signaling on CD8(+) T cell maturation. Collectively, our results suggest that cell non-autonomous type I IFN signaling shapes maturation of antiviral CD8(+) T cell response at a stage distinct from the initial priming event.
PLoS Pathogens 12/2011; 7(12):e1002407. · 9.13 Impact Factor
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ABSTRACT: Viral fusogenic membrane proteins have been proposed as tools to increase the potency of oncolytic viruses, but there is a need for mechanisms to control the spread of fusogenic viruses in normal versus tumor cells. We have previously shown that a mutant of the paramyxovirus simian virus 5 (SV5) that harbors mutations in the P/V gene from the canine parainfluenza virus (P/V-CPI(-)) is a potent inducer of type I interferon (IFN) and apoptosis and is restricted for spread through normal but not tumor cells in vitro. Here, we have used the cytopathic P/V-CPI(-) as a backbone vector to test the hypothesis that a virus expressing a hyperfusogenic glycoprotein will be a more effective oncolytic vector but will retain sensitivity to IFN. A P/V mutant virus expressing an F protein with a glycine-to-alanine substitution in the fusion peptide (P/V-CPI(-)-G3A) was more fusogenic than the parental P/V-CPI(-) mutant. In two model prostate tumor cell lines which are defective in IFN production (LNCaP and DU145), the hyperfusogenic P/V-CPI(-)-G3A mutant had normal growth properties at low multiplicities of infection and was more effective than the parental P/V-CPI(-) mutant at cell killing in vitro. However, in PC3 cells which produce and respond to IFN, the hyperfusogenic P/V-CPI(-)-G3A mutant was attenuated for growth and spread. Killing of PC3 cells was equivalent between the parental P/V-CPI(-) mutant and the hyperfusogenic P/V-CPI(-)-G3A mutant. In a nude mouse model using LNCaP cells, the hyperfusogenic P/V-CPI(-)-G3A mutant was more effective than P/V-CPI(-) at reducing tumor burden. In the case of DU145 tumors, the two vectors based on P/V-CPI(-) were equally effective at limiting tumor growth. Together, our results provide proof of principle that a cytopathic SV5 P/V mutant can serve as an oncolytic virus and that the oncolytic effectiveness of P/V mutants can be enhanced by a fusogenic membrane protein without compromising sensitivity to IFN. The potential advantages of SV5-based oncolytic vectors are discussed.
Journal of Virology 08/2008; 82(19):9369-80. · 5.40 Impact Factor
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ABSTRACT: The paramyxovirus simian virus 5 (SV5) establishes highly productive persistent infections of epithelial cells without inducing a global inhibition of translation. Here we show that an SV5 mutant (the P/V-CPI(-) mutant) with substitutions in the P subunit of the viral polymerase and the accessory V protein also establishes highly productive infections like wild-type (WT) SV5 but that cells infected with the P/V-CPI(-) mutant show an overall shutdown of both host and viral translation at late times postinfection. Reduced host and viral protein synthesis with the P/V-CPI(-) virus was not due to lower levels of mRNA or caspase-dependent apoptosis and correlated with phosphorylation of the translation initiation factor eIF-2alpha. WT SV5 was a poor activator of the eIF-2alpha kinase protein kinase R (PKR). By contrast, the P/V-CPI(-) mutant induced PKR phosphorylation, which correlated with the time course of translation inhibition but was independent of interferon signaling. In HeLa cells that expressed the PKR inhibitor influenza A virus NS1 or reovirus sigma3, the rate of host protein synthesis at late times after infection with the P/V-CPI(-) mutant was restored to approximately 50% that of control HeLa cells. By contrast, the rates of P/V-CPI(-) viral protein synthesis in HeLa cells expressing NS1 or sigma3 were dramatically enhanced, between 5- and 20-fold, while levels of viral mRNA were increased only slightly (NS1-expressing cells) or remained constant (sigma3-expressing cells). Similar results were found using HeLa cells where PKR levels were reduced due to knockdown by small interfering RNA. Expression of either the WT P or the WT V protein from the genome of the P/V-CPI(-) mutant resulted in lower levels of PKR activation and rates of host and viral protein synthesis that closely matched those seen with WT SV5. Despite higher rates of translation, cells infected with the V- or P-complemented virus accumulated viral mRNAs to lower levels than that seen with the parental P/V-CPI(-) mutant. We present a model in which the paramyxovirus P/V gene products limit induction of PKR by limiting the synthesis of aberrant viral mRNAs and double-stranded RNA and thus prevent the shutdown of translation by a mechanism that differs from that of other PKR inhibitors such as NS1 and sigma3.
Journal of Virology 02/2008; 82(2):828-39. · 5.40 Impact Factor
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ABSTRACT: A paramyxovirus SV5 mutant (rSV5-P/V-CPI-) that encodes 6 naturally-occurring P/V gene substitutions is a potent inducer of type I interferon (IFN) and is restricted for low moi growth, two phenotypes not seen with WT SV5. In this study, we have compared the IFN sensitivity of WT SV5 and the rSV5-P/V-CPI- mutant in tumor cell lines and in cultures of normal primary cells. We have tested the hypothesis that differences in IFN induction elicited by WT rSV5 and rSV5-P/V-CPI- are responsible for differences in low moi growth and spread. In contrast to WT SV5, low moi infection of A549 lung carcinoma cells with rSV5-P/V-CPI- resulted in a plateau of virus production by 24-48 h pi when secreted IFN levels were between approximately 100 and 1000 U/ml. Gene microarray and RT-PCR analyses identified IFN genes and IFN-stimulated genes whose expression were increased by infection of A549 cells with WT and P/V mutant viruses. Restricted low moi growth and spread of rSV5-P/V-CPI- in A549 cells was relieved in the presence of neutralizing antibodies to IFN-beta but not TNF-alpha. When A549 or MDA-MB-435 breast tumor cells were pretreated with IFN, both WT and P/V mutant viruses showed delayed spread and approximately 10-fold reduction in virus yield, but infections were not eliminated. Using normal primary human epithelial cells that have undergone limited passage in culture, WT rSV5 and rSV5-P/V-CPI- displayed high moi growth properties that were similar to that seen in A549 cells. However, IFN pretreatment of these primary cells as well as normal human lung cells eliminated low moi spread of both mutant and WT rSV5 infections. Together, these data demonstrate that SV5 growth in normal primary human cells is highly sensitive to IFN compared to growth in some tumor cell lines, regardless of whether the P/V gene is WT or mutant. These results suggest a model in which spread of WT SV5 in normal human cells is dependent on the ability of the virus to prevent IFN synthesis. The implications of these results for the use of recombinant paramyxoviruses as vectors are discussed.
Virology 05/2005; 335(1):131-44. · 3.35 Impact Factor
