猪γ干扰素的表达及其抗病毒活性的安全检测

为了提高干扰素抗病毒活性测定的生物安全性,本研究使用含有GFP的复制缺陷型水疱性口炎病毒(VSV△G*G)为指示病毒,分别对经原核表达系统和杆状病毒表达系统表达的重组猪γ干扰素(PoIFN-γ)在MDBK细胞上进行抗病毒活性测定。结果显示:由杆状病毒表达的重组PoIFN-γ具有高度抗病毒活性,其抗病毒活性为105IU/mL,原核表达的重组PoIFN-γ纯化后经缓慢复性也会产生一定的抗病毒活性,其抗病毒活性为32IU/mL。该方法与利用表达GFP的重组水疱性口炎病毒(VSV*GFP)所检测的干扰素抗病毒活性结果完全一致,表明复制缺陷型病毒VSV△G*G可作为复制型重组病毒的替代品,使得干扰素抗病毒活性检测更加安全、准确。     

A vesicular stomatitis virus replicon-based bioassay for the rapid and sensitive determination of multi-species type I interferon

Type I interferons (IFN) comprise a family of cytokines that signal through a common cellular receptor to induce a plethora of genes with antiviral and other activities. Recombinant IFNs are used for the treatment of hepatitis C virus infection, multiple sclerosis, and certain malignancies. The capability of type I IFN to suppress virus replication and resultant cytopathic effects is frequently used to measure their bioactivity. However, these assays are time-consuming and require appropriate biosafety containment. In this study, an improved IFN assay is presented which is based on a recombinant vesicular stomatitis virus (VSV) replicon encoding two reporter proteins, firefly luciferase and green fluorescent protein. The vector lacks the essential envelope glycoprotein (G) gene of VSV and is propagated on a G protein-expressing transgenic cell line. Several mammalian and avian cells turned out to be susceptible to infection with the complemented replicon particles. Infected cells readily expressed the reporter proteins at high levels five hours post infection. When human fibroblasts were treated with serial dilutions of human IFN-β prior to infection, reporter expression was accordingly suppressed. This method was more sensitive and faster than a classical IFN bioassay based on VSV cytopathic effects. In addition, the antiviral activity of human IFN-λ (interleukin-29), a type III IFN, was determined on Calu-3 cells. Both IFN-β and IFN-λ were acid-stable, but only IFN-β was resistant to alkaline treatment. The antiviral activities of canine, porcine, and avian type I IFN were analysed with cell lines derived from the corresponding species. This safe bioassay will be useful for the rapid and sensitive quantification of multi-species type I IFN and potentially other antiviral cytokines.     

Interferon-alpha genes from Bos and Bubalus bubalus

Interferon-a genes were cloned from six breeds of three species of two genera (three Chinese native cattle breeds of yellow cattle, wild yak and HuanHu domestic yak, one European breed of Holstein cow, and two water buffalo breeds of FuAn water buffalo and FuZhong water buffalo) by direct PCR. The PCR products were directly inserted into the expression vector to be sequenced and expressed. Sequence analysis showed that IFN-a genes of six clones were composed of 498 nucleotides, encoding a mature polypeptide with 166 amino acids. Compared with the published BoIFN-a subtypes, the IFN-a gene of Holstein cow had only one point mutation with the BoIFN-aA subtype. The IFN-a gene of yellow cattle was similar to the BoIFN-aD subtype with amino acid identity of 97.0% and may be considered as a new subtype, namely, BoIFN-aD1. The other four IFN-a genes, cloned from wild yak and HuanHu domestic yak, FuAn water buffalo, and FuZhong water buffalo, represented four new subtypes, namely, BoIFN-aI, BoIFN-aJ, BuIFN-a1, and BuIFN-a2, respectively. Each of the six clones was expressed in E. coli with molecular weight of approximately 20 kDa by SDS-PAGE and Western blot analyses. Antiviral activity assays showed that the six recombinant IFN-a (rIFN-a) all exhibited 1,000 times higher antiviral activity in the MDBK/VSV cell line than in the CEF/VSV one. Moreover, the rIFN-as could inhibit infectious bovine rhinotracheitis virus replication in the MDBK cell line using CPE inhibition method. The results suggested that rIFN-as a potential agent for clinical application against virus diseases in cattle industry.     

New simple dye-uptake assay for interferon

Using the spectrophotometer that the authors developed, the amounts of human leukocyte and mouse L cell interferons on FL cells and L929 cells were measured and values were compared with those measured by the cytopathogenic effect (CPE) reduction method (CPE method). The spectrophotometric method, which was simpler than the original dye-uptake method, was found to be more sensitive than the latter. When Sindbis virus was used instead of vesicular stomatitis virus (VSV), there were no significant differences in the sensitivities of the two methods or the interferon titers estimated. When FL cells or L929 cells were treated with interferon at the time of their dispersion, their interferon titers were almost the same as those of cells treated with interferon 2 days after dispersion. It is concluded that this new dye-uptake method is useful for assay of human and mouse interferons.     

Interferon-α Genes from Bos and Bubalus bubalus

Interferon-α genes were cloned from six breeds of three species of two genera (three Chinese native cattle breeds of yellow cattle, wild yak and HuanHu domestic yak, one European breed of Holstein cow, and two water buffalo breeds of FuAn water buffalo and FuZhong water buffalo) by direct PCR. The PCR products were directly inserted into the expression vector to be sequenced and expressed. Sequence analysis showed that IFN-α genes of six clones were composed of 498 nucleotides, encoding a mature polypeptide with 166 amino acids. Compared with the published BoIFN-α subtypes, the IFN-α gene of Holstein cow had only one point mutation with the BoIFN-αA subtype. The IFN-α gene of yellow cattle was similar to the BoIFN-αD subtype with amino acid identity of 97.0% and may be considered as a new subtype, namely, BoIFN-αD1. The other four IFN-α genes, cloned from wild yak and HuanHu domestic yak, FuAn water buffalo, and FuZhong water buffalo, represented four new subtypes, namely, BoIFN-αI, BoIFN-αJ, BuIFN-α1, and BuIFN-α2, respectively. Each of the six clones was expressed in E. coli with molecular weight of ～ 20kDa by SDS-PAGE and Western blot analyses. Antiviral activity assays showed that the six recombinant IFN-α (rIFN-α) all exhibited 1000 times higher antiviral activity in the MDBK/VSV cell line than in the CEF/VSV one. Moreover, the rIFN-αs could inhibit infectious bovine rhinotracheitis virus replication in the MDBK cell line using CPE inhibition method. The results suggested that rIFN-αs a potential agent for clinical application against virus diseases in cattle industry.     

Interferon gamma does not induce antiviral resistance in T lymphocytes

We compared the activity of human recombinant alpha and gamma interferons (IFNs) on normal T lymphocytes and various T cell lines. IFN gamma, unlike IFN alpha, did not promote the antiviral state in these cells, or induce the activity of 2'-5' oligoadenylate synthetase. The lack of antiviral effect was observed using an RNA virus (VSV) and a DNA virus (HSV, type 1) as challenger viruses.     

Partial antiviral activities of the Asn631 chicken Mx against newcastle disease virus and vesicular stomatitis virus

Conflicting data existed for the antiviral potential of the chicken Mx protein and the importance of the Asn631 polymorphism in determination of the antiviral activity. In this study we modified the chicken Mx cDNA from the Ser631 to Asn631 genotype and transfected them into COS-I cells, chicken embryonic fibroblast (CEF) or NIH 3T3 cells. The Mx protein was mainly located at the cytoplasm. The transfected cell cultures were challenged with newcastle disease virus (NDV) or vesicular stomatitis virus (VSV), cytopathic affect (CPE) inhibition assay showed that the times for development of visible and full CPE were significantly postponed by the Asn631 cDNA transfection at 48 h transfection, but not by the Ser631 cDNA transfection. Viral titration assay showed that the virus titers were significantly reduced before 72 h postinfection. CEF cells was incubated by the cell lysates extracted from the COS-I cells transfected with pcDNA-Mx/Asn631, could resist and delayed NDV infection. These data suggested the importance of the Asn631 polymorphism of the chicken Mx in determination of the antiviral activities against NDV and VSV at early stage of viral infection, which were relatively weak and not sufficient to inhibit the viral replication at late stage of viral infection.     

Adenovirus early region 1A modulation of interferon antiviral activity.

Human adenovirus type 5 (Ad5) is a DNA virus which replicates as efficiently in human A549 cells treated with human interferon-alpha 2 (IFN) as in untreated cells. Vesicular stomatitis virus (VSV), on the other hand, is a negative-strand RNA virus which is very sensitive to the effects of IFN treatment in A549 cells. The IFN-mediated inhibition of VSV replication was not observed in cells coinfected with Ad5. Abrogation of IFN-mediated antiviral activity was maximal when Ad5 infection preceded VSV infection by at least 36 h, but did not require adenovirus DNA synthesis for manifestation. Coinfection experiments with VSV and deletion variants of adenovirus demonstrated that neither virus-associated RNA synthesis nor expression of adenovirus early regions E1B, E2A, E3, or E4 are required for abrogation of IFN-mediated inhibition of VSV replication. However, expression of early region E1A was essential, suggesting that E1A products can modulate, either directly or indirectly, IFN activity in adenovirus-infected cells.     

ISG20, a new interferon-induced RNase specific for single-stranded RNA,defines an alternative antiviral pathway against RNA genomic viruses

Interferons (IFNs) encode a family of secreted proteins that provide the front-line defense against viral infections. Their diverse biological actions are thought to be mediated by the products of specific but usually overlapping sets of cellular genes induced in the target cells. We have recently isolated a new human IFN-induced gene that we have termed ISG20, which codes for a 3' to 5' exonuclease with specificity for single-stranded RNA and, to a lesser extent, for DNA. In this report, we demonstrate that ISG20 is involved in the antiviral functions of IFN. In the absence of IFN treatment, ISG20-overexpressing HeLa cells showed resistance to infections by vesicular stomatitis virus (VSV), influenza virus, and encephalomyocarditis virus (three RNA genomic viruses) but not to the DNA genomic adenovirus. ISG20 specifically interfered with VSV mRNA synthesis and protein production while leaving the expression of cellular control genes unaffected. No antiviral effect was observed in cells overexpressing a mutated ISG20 protein defective in exonuclease activity, demonstrating that the antiviral effects were due to the exonuclease activity of ISG20. In addition, the inactive mutant ISG20 protein, which is able to inhibit ISG20 exonuclease activity in vitro, significantly reduced the ability of IFN to block VSV development. Taken together, these data suggested that the antiviral activity of IFN against VSV is partly mediated by ISG20. We thus show that, besides RNase L, ISG20 has an antiviral activity, supporting the idea that it might represent a novel antiviral pathway in the mechanism of IFN action.     

Vesicular stomatitis virus (VSV) therapy of tumors

Vesicular stomatitis virus (VSV) is an essentially nonpathogenic negative-stranded RNA virus, the replication of which is extremely sensitive to the antiviral effects of interferon (IFN). We demonstrate here that VSV selectively induces the cytolysis of numerous transformed human cell lines in vitro, with all the morphological characteristics of apoptotic cell death. Importantly, VSV can also potently inhibit the growth of p53-null C6 glioblastoma tumors in vivo without infecting and replicating in normal tissue. With our previous findings demonstrating that primary cells containing the double-stranded RNA-activated protein kinase PKR and a functional IFN system are not permissive to VSV replication, these results suggest that signaling by IFN may be defective in many malignancies. Thus VSV might be useful in novel therapeutic strategies for targeting neoplastic disease.     

Ethanol induces 2',5'-oligoadenylate synthetase and antiviral activities through interferon-beta production.

We demonstrate here that ethanol, in contrast to heat shock (Chousterman, S., Chelbi-Alix, M.K., and Thang, M.N. (1987) J. Biol. Chem. 262, 4806-4811), induces interferon (IFN) synthesis and its related activities in Madin-Darby bovine kidney (MDBK) cells. The induced IFN is secreted maximally at 6 h, whereas the induction of 2',5'-oligoadenylate synthetase mRNA peaks between 9 and 12 h and its activity at 15 h. The appearance of both 2',5'-oligoadenylate synthetase activity and the antiviral state upon ethanol treatment is prevented by anti-bovine recombinant IFN-beta antibodies. Bovine diarrhea virus infection-free MDBK cells cultured in medium supplemented with serum substitute also gave similar results, thus indicating that IFN synthesis induced by ethanol is not mediated by the activation of bovine diarrhea virus. Together, these results show that: 1) ethanol induces the 2',5'-oligoadenylate synthetase and antiviral activities through IFN-beta production; and 2) the IFN produced does not act directly from inside the cells, but has to be first secreted to bind to its receptor. In MDBK cells, ethanol induces the synthesis of the 70-kDa protein, which precedes the expression of 2',5'-oligoadenylate synthetase; moreover, the transient nature of the synthesis of the hsp 70 in these cells is similar after both heat shock and ethanol treatment.     

Increase of vulnerability to lymphotoxin in cells infected by vesicular stomatitis virus and its further augmentation by interferon

The cytotoxic effect of lymphotoxin (LT) and its modulation by interferon (IFN) was quantitatively assessed in uninfected and vesicular stomatitis virus (VSV)-infected cultured cells. Preparations of human LT, which were depleted of IFN, had a significant cytotoxic effect on VSV-infected HeLa, SV-80, WISH, and Vero cells. IFN, most notably IFN-gamma, further potentiated destruction of the infected cells by these LT preparations, when applied on the cells at sub-antiviral IFN concentrations. In contrast, no cytotoxic effect could be observed in any of the examined cells, when applying LT, IFN, or their combination, in the absence of viral infection. Infected cells in which VSV replication was suppressed by treatment with antiviral concentrations of IFN also resisted destruction by LT. These findings indicate that LT cytotoxicity can be selectively directed against virus-infected cells and that IFN can augment this cell-killing mechanism when failing to exert an antiviral effect.     

Microinjection of anti-interferon antibodies into cells does not inhibit the induction of an antiviral state by interferon.

Affinity-purified polyclonal antibodies directed against human lymphoblastoid interferon (IFN), Escherichia coli-derived human IFN-alpha 2, or two synthetic fragments of human IFN-alpha 1 all neutralized the antiviral activity of human alpha IFNs when added to the culture medium of MDBK cells together with IFNs. However, when these antibodies were microinjected into the cytoplasm or the nucleus of cells, subsequent treatment of the cells with IFNs induced full protection against vesicular stomatitis virus. This suggests that IFNs themselves need not act in the cytoplasmic compartment or the nucleus to induce an antiviral state.     

Purification and some properties of human erythrocyte calpastatin

By means of a new type of microinjection apparatus, which has a micropipette located in a hole through the optical axis of the condenser lens, we injected interferon (IFN) or 2',5'-oligoadenylate (2-5A) into mouse L cells, and observed their antiviral effects on the multiplication of vesicular stomatitis virus (VSV). After injection, cells were infected with VSV, and labeled with [3H]uridine in the presence of actinomycin D. The proportion of cells infected with VSV which carried radioactive virus-RNA was determined by autoradiography. IFN introduced directly into L cells had no effect on the virus growth. This result supports the idea that IFN molecules exert their effect from outside the cell membrane without penetrating into the cytoplasm. 2-5A, on the other hand, was able to inhibit the growth of VSV effectively when injected into L cells. The antiviral effect was dependent on the dose of 2-5A injected, and moreover the effect was transient, since it disappeared completely after 24-h incubation.     

Regulation of the antiviral and anticellular activities of interferon by exogenous double-stranded RNA

The effects of double-stranded RNA (dsRNA) on interferon (IFN)-induced antiviral and anticellular activities was investigated by introducing poly(I)-poly(C) into mouse L-cells. Coprecipitation of dsRNA with calcium phosphate enabled its efficient penetration into cells in culture. Rate of cellular protein synthesis was inhibited by dsRNA only in cultures pretreated with IFN. Moreover, the anticellular effect of IFN, as measured by the inhibition of cell DNA synthesis, was also enhanced by dsRNA. The kinetics of dsRNA-mediated inhibition of protein synthesis were relatively slow as compared with the inhibitory effect of 2'-5' oligoadenylic acid (2'5'A), which was also introduced into cells by the calcium phosphate coprecipitation technique. To analyze the effects of dsRNA on the antiviral state induced by IFN, vesicular stomatitis virus (VSV) and encephalomyocarditis virus (EMC), replications were followed by measuring viral-specific RNA synthesis in the cell. Introduction of dsRNA after the infection had no effect on VSV and EMC replication in control cells, and it enhanced, to a small extent, the antiviral state of cells pretreated with IFN. In contrast, introduction of 2'5'A into virus-infected cells inhibited VSV and EMC replications regardless of IFN pretreatment. This work demonstrated that the role of dsRNA in regulating the antiviral and anticellular activities of IFN could be studied by introducing exogenous dsRNA into cells in culture by the calcium phosphate coprecipitation technique.     

牛γ-干扰素在重组杆状病毒中的表达及其抗病毒活性的测定

研究利用Bac-To-Bac杆状病毒表达系统构建含有牛γ-干扰素(Bovine interferon-γ,BoIFN-γ)完整开放阅读框的供体质粒pFastBacTM1-BoIFN-γ,转化DH10Bac感受态细胞获得重组穿梭质粒rBacmid-BoIFN-γ,转染sf9昆虫细胞救获表达BoIFN-γ的重组杆状病毒rBac-BoIFN-γ。采用抗BoIFN-γ单克隆抗体作为一抗进行间接免疫荧光(IFA)及间接ELISA检测,表明BoIFN-γ在重组杆状病毒rBac-BoIFN-γ感染的sf9昆虫细胞中获得正确表达。利用VSV*GFP-MDBK细胞系统测定rBoIFN-γ抗病毒活性,重组杆状病毒表达重组BoIFN-γ(rBoIFN-γ)能有效抑制水疱性口炎病毒(VSV)在牛肾细胞(MDBK)上的复制,rBac-BoIFN-γ感染sf9昆虫细胞上清抗病毒活性为2×105IU/mL,而且其抗病毒活性可以被鼠抗原核表达重组BoIFN-γ免疫血清阻断。结果表明:rBoIFN-γ在重组杆状病毒rBac-BoIFN-γ感染的sf9昆虫细胞中获得良好表达,并具有高效抗病毒活性。     

Correlation between the anti-virus-induced cytopathic effect activity of interferon-alpha subtypes and induction of MxA protein in vitro

There are several interferon-alpha (IFN-alpha) subtypes. Mechanism of disparity in biological effects among members of IFN-alpha subtypes remains unexplained. Biological activity of IFN-alpha is mediated in part by induction of intracellular antiviral proteins. We studied whether differences in biologic effects of IFN-alpha subtypes may rely on their antiviral protein inducing effect. Intracellular induction of MxA protein and anti-virus-induced cytopathic effect (CPE) activity of 11 IFN-alpha subtypes in human amnion WISH cells have been studied. MxA protein quantitation in cell lysates was performed by immunochemiluminescence assay and anti-virus-induced CPE activity was assessed by protection against vesicular stomatitis virus (VSV)-induced CPE. Range of MxA values was high when cells were treated with 10 and 100 IU/ml of each IFN-alpha subtype. Levels of MxA correlated with anti-VSV-induced CPE obtained with 10 IU/ml IFN-alpha subtype. Together our data show a disparity in MxA-inducing activity of IFN-alpha subtypes and suggest that differences in anti-VSV-induced CPE of IFN-alpha subtypes in WISH cells can be related to their different ability to induce MxA.     

Sensitivity of influenza a viruses to human interferons in human diploid cells

Abstract The sensitivity of influenza virus to the action of natural human interferon (IFN)-α+β and -γ, and to the action of highly purified recombinant HuIFN-αB, -αD, and -αF, has been investigated. A plaque assay for the fowl-plague strain of influenza A virus has been established using human embryonic foreskin (HEF) cells. The sensitivity of influenza virus to all IFNs tested in this assay was comparable to that shown by vesicular stomatitis virus (VSV) which was taken as the reference standard. The high sensitivity to IFN action found for the fowl-plague strain was confirmed for the WSN strain of human origin in a yield reduction assay.     

Negative regulation of the alpha interferon-induced antiviral response by the Ras/Raf/MEK pathway

Interferon (IFN) is one of the molecules released by virus-infected cells, resulting in the establishment of an antiviral state within infected and neighboring cells. IFN-induced antiviral response may be subject to modulation by the cellular signaling environment of host cells which impact the effectiveness of viral replication. Here, we show that cells with an activated Ras/Raf/MEK signaling cascade allow propagation of viruses in the presence of IFN. Ras-transformed (RasV12) and vector control NIH 3T3 cells were infected with vesicular stomatitis virus (VSV) or an IFN-sensitive vaccinia virus (delE3L) in the presence of alpha interferon. While IFN protected vector control cells from infection by both viruses, RasV12 cells were susceptible to viral infection regardless of the presence of IFN. IFN sensitivity was restored in RasV12 cells upon RNA interference (RNAi) knockdown of Ras. We further investigated which elements downstream of Ras are responsible for counteracting IFN-induced antiviral responses. A Ras effector domain mutant that can only stimulate the Raf kinase family of effectors was able to suppress the IFN response and allow VSV replication. IFN-induced antiviral mechanisms were also restored in RasV12 cells by treatment with a MEK inhibitor (U0126 or PD98059). Moreover, by using RNAi to MEK1 and MEK2, we determined that MEK2, rather than MEK1, is responsible for suppression of the IFN response. In conclusion, our results suggest that activation of the Ras/Raf/MEK pathway downregulates IFN-induced antiviral response.