Virus-induced autoantibody response to a transgenic viral antigen

The induction of autoantibodies and their possible role in the pathogenesis of autoimmune disease are poorly understood. Involvement of infectious agents has been suspected, but direct evidence is sparse. Whether immunological unresponsiveness to self by antibody-forming B cells is maintained by clonal abortion, clonal anergy or suppression, or how the scenario of interactions between helper T cells, B cells and antigen-presenting cells is distorted in autoantibody responses, is being analysed and widely debated. To evaluate tolerance of neutralizing B-cell responses we used transgenic mice expressing the cell membrane associated glycoprotein (G) of vesicular stomatitis virus (VSV) as self-antigen. We show that autoantibodies to VSV-G cannot be induced by VSV-G in adjuvant or by recombinant vaccinia virus expressing VSV-G, but are triggered by infection with wild-type VSV. The data show that helper T-cell tolerance is crucial in maintenance of B-cell non-reactivity and that cognate T-B recognition is necessary to break tolerance of self-reactive B cells. These results may help to understand mechanisms of virus-induced autoimmunity.     

Neutralization of human T-lymphotropic virus type III by sera of AIDS and AIDS-risk patients

Human T-lymphotropic virus type III (LAV, HTLV-III) is aetiologically linked to acquired immune deficiency syndrome (AIDS) and persistent general lymphadenopathy (PGL). Specific radioimmunoassays (RIA), enzyme-linked assays, immunofluorescence assays (IFA) and immunoblotting techniques are being used widely to detect serum antibodies to HTLV-III in infected patients and in those at risk of infection. However, these assays do not functionally identify those antibodies that neutralize the infectivity of the virus. We have used three methods of titrating serum neutralizing factors: inhibition of syncytium induction, neutralization of envelope pseudotypes of vesicular stomatitis virus (VSV) and reduction of infectivity of HTLV-III for a cell line permissive to virus replication. We report here that sera from subjects in various disease categories possess only low-level neutralizing activity, even when antibodies to viral membrane antigens are present in high titre. Envelope pseudotypes prepared from four HTLV-III isolates made in three different countries are equally sensitive to neutralization by positive sera, including sera from patients yielding two of the virus isolates.     

Constitutive expression of (2'-5') oligo A synthetase confers resistance to picornavirus infection

Study of the mechanisms by which interferon (IFN) treatment of cells induces resistance to virus infections has been complicated by the multiple biochemical changes induced. Over 20 proteins are increased by IFN, including the double-stranded (ds) RNA-activated protein kinase, (2'-5') oligo A synthetase, surface proteins such as the major histocompatibility complex (MHC) proteins, and various proteins with unknown functions. The availability of cloned complementary DNAs for several IFN-induced proteins now allows us to probe their roles in IFN action. For instance, the murine Mx protein has been shown to confer resistance, to influenza virus. We studied chinese hamster ovary (CHO) cell clones expressing high constitutive levels of (2'-5') A synthetase as a result of transfection with the cDNA encoding the enzyme form which has a relative molecular mass (Mr) of 40K. Elevated enzyme correlates directly with resistance to infection by a picornavirus such as Mengo, but does not make the cells resistant to vesicular stomatitis virus (VSV).     

Interferon inhibits transformation by murine sarcoma viruses before integration of provirus

Neoplastic transformation by C-type retroviruses requires synthesis of a DNA copy (the provirus) of the RNA genome and its integration into the host cell DNA. We have previously shown that interferon (IFN) can stably prevent transformation of murine fibroblasts by the Kirsten strain of murine sarcoma virus (KiMSV), a murine leukaemia virus (MLV). A series of cell clones (IFN clones), isolated in the presence of IFN (10(4) U ml-1) from cultures of NIH-3T3 cells which had been treated with IFN, and then infected with KiMSV (KiMLV) in conditions where every cell was infected, were shown to be phenotypically untransformed. These untransformed cells did not produce virus or contain rescuable KiMSV. However, cells isolated using an identical procedure, but in the absence of IFN, were uniformly transformed and all produced KiMSV (KiMLV) or contained rescuable KiMSV. It was concluded that IFN either prevents synthesis or integration of the provirus, or else that in the presence of IFN the provirus is integrated such that it is not expressed. We now show that five representative clones contain no detectable KiMSV proviral DNA, and also that the initial stages of infection by KiMSV (KiMLV) are inhibited by IFN treatment. IFN seems to act before integration, preventing either the synthesis or the integration of proviral DNA.     

Platelet-derived growth factor-alpha receptor activation is required for human cytomegalovirus infection

Human cytomegalovirus (HCMV) is a ubiquitous human herpesvirus that can cause life-threatening disease in the fetus and the immunocompromised host. Upon attachment to the cell, the virus induces robust inflammatory, interferon- and growth-factor-like signalling. The mechanisms facilitating viral entry and gene expression are not clearly understood. Here we show that platelet-derived growth factor-alpha receptor (PDGFR-alpha) is specifically phosphorylated by both laboratory and clinical isolates of HCMV in various human cell types, resulting in activation of the phosphoinositide-3-kinase (PI(3)K) signalling pathway. Upon stimulation by HCMV, tyrosine-phosphorylated PDGFR-alpha associated with the p85 regulatory subunit of PI(3)K and induced protein kinase B (also known as Akt) phosphorylation, similar to the genuine ligand, PDGF-AA. Cells in which PDGFR-alpha was genetically deleted or functionally blocked were non-permissive to HCMV entry, viral gene expression or infectious virus production. Re-introducing human PDGFRA gene into knockout cells restored susceptibility to viral entry and essential viral gene expression. Blockade of receptor function with a humanized PDGFR-alpha blocking antibody (IMC-3G3) or targeted inhibition of its kinase activity with a small molecule (Gleevec) completely inhibited HCMV viral internalization and gene expression in human epithelial, endothelial and fibroblast cells. Viral entry in cells harbouring endogenous PDGFR-alpha was competitively inhibited by pretreatment with PDGF-AA. We further demonstrate that HCMV glycoprotein B directly interacts with PDGFR-alpha, resulting in receptor tyrosine phosphorylation, and that glycoprotein B neutralizing antibodies inhibit HCMV-induced PDGFR-alpha phosphorylation. Taken together, these data indicate that PDGFR-alpha is a critical receptor required for HCMV infection, and thus a target for novel anti-viral therapies.     

致病性不同的两种流感病毒NS1蛋白对人源细胞IFN-β转录抑制的比较

A型流感病毒编码的NS1蛋白是病毒关键的致病因子,可以通过多种机制拮抗宿主抗病毒反应.病毒感染过程中,NS1通过抑制NF-κB和IRF3两种转录因子的活性,下调IFN-β转录水平以阻断其诱导的信号通路.实验选取病毒母本致病性不同的两种NS1蛋白(NS1-a,NS1-h),通过RT-PCR、报告基因和VSV病毒滴度等实验证明高致病性禽流感病毒NS1-a与普通人流感病毒NS1-h相比,表现出较强的抑制IFN-β转录能力,并有效帮助VSV病毒复制.此差异源于NS1-a更加有效抑制NF-κB活性以及IRF3激活后的入核行为,与IFN诱导的ISG转录无关.所得结果为阐释流感病毒致病性与NS1的密切关系提供线索.     

N-terminal of L protein of vesicular stomatitis virus contains a new signal sequence

The L protein (241kD) of vesicular stomatitis virus (VSV) is the most important snbnnit of the replication complex. The existence of specific localization signal in the L protein was investigated by making recombinant constructs expressing truncated mutants of the L protein fused to green fluorescent protein (GFP) in transient transfection assays. The chimeric genes encoding varied N-terminal of L and GFP gene were put under the control of T7 promoter or CMV promoter. The fusion proteins were transiently expressed in BHK-21, COS-7, CHO or Hep G2 cells. When more than 120 residues were deleted or only 96 residues were kept on the N-terminal, the fusion proteins were shown to be distributed throughout the cells, cytoplasm and nucleus under the confocal microscope. However, other chimeric proteins with 120 or more amino acids were dotted and distributed in the perinuclear regions. And the fusion protein with 96—120 aa has the similar distribution. A thirteen-residue peptide QGYSFLHEVDKEA (108—120) was identified as localization signal, whose function would be absolutely distributed with the deficiency of D or V. Our results show that there is an independent localizing signal in N-terminal domain of L protein of VSV and this functional signal is conserved in different cell lines.     

Prokaryotic expression, localization and function of the infectious laryngotracheitis virus glycoprotein G

The infectious laryngotracheitis virus （ILTV） glycoprotein G （gG） gene of E3 and Zhonghai strains was cloned, sequenced and compared with the gG gene of other Type Ⅰ animal herpesviruses. To find the localization and the function of the gG in the infected cells, the 35 kD fusion protein （His-GG） was expressed by inserting the coding region of gG except for the signal peptide into pET30a （＋）. After purification of the His-GG fusion protein, the rats＇ antibody to the His-GG was prepared and purified by using the protein G Sepbarose. Results of laser scanning confocal microscopy （LSCM） detection showed that the ILTV gG was in the perinuclear region and membrane of chicken embryo liver （CEL） and kidney （CEK） cells, and that the gG accumulated more in the coalescent part than in the other parts of the adjacent CEL or CEK cells. The plaque size and the one-step growth curve tests suggested that the ILTV gG was required for viral growth by cell-to-cell direct infection in tissue-cultured CEL cells.     

汉滩病毒囊膜糖蛋白g2基因重组腺病毒的构建与表达

获得汉滩病毒G2 基因 ,构建其重组腺病毒并在HEK2 93细胞中包装表达 ,为研究汉滩病毒基因疫苗提供了实验基础。设计引物采用PCR从含汉滩病毒 \|76 1 1 8株M基因的M5 6质粒扩增出糖蛋白G2 基因片段 ,并将其克隆入腺病毒载体Adeno XviralDNA ,筛选获得重组腺病毒DNA ,转染HEK2 93细胞 ,包装、扩增后得到汉滩病毒G2 基因重组腺病毒原种 ;并在感染细胞内初步表达 ,用ELISA检测表达产物。得到了含汉滩病毒G2 基因的重组腺病毒 ,其滴度约为 1 0 10 pfu/mL ,同时在感染的HEK2 93细胞中检测到汉滩病毒糖蛋白G2 的表达。含汉滩病毒糖蛋白G2 基因重组腺病毒的成功构建 ,为研究汉滩病毒基因疫苗提供了实验基础     

Virus-specific effects of interferon in embryonal carcinoma cells

Embryonal carcinoma (EC) cells are susceptible to infection by a variety of viruses, but do not become resistant to infection by Semliki Forest virus or vesicular stomatitis virus (VSV) on treatment with interferon. These observations have led to the conclusion that interferon does not induce an antiviral state in EC cells. We report here, however, that EC cells treated with interferon become resistant to infection by two picornaviruses and two ts mutants of VSV, whereas they remain sensitive to wild-type VSV, Sindbis and influenza virus infectin. These results suggest that a partial antiviral state is induced in EC cells by interferon and that the induced antiviral protein(s) interferes with the replication of specific viruses. A significant common feature of these viruses is their replication through structures containing double-stranded RNA (dsRNA).     

In vivo priming of virus-specific cytotoxic T lymphocytes with synthetic lipopeptide vaccine

Cytotoxic T lymphocytes (CTL) constitute an essential part of the immune response against viral infections. Such CTL recognize peptides derived from viral proteins together with major histocompatibility complex (MHC) class I molecules on the surface of infected cells, and usually require in vivo priming with infectious virus. Here we report that synthetic viral peptides covalently linked to tripalmitoyl-S-glycerylcysteinyl-seryl-serine (P3CSS) can efficiently prime influenza-virus-specific CTL in vivo. These lipopeptides are able to induce the same high-affinity CTL as does the infectious virus. Our data are not only relevant to vaccine development, but also have a bearing on basic immune processes leading to the transition of virgin T cells to activated effector cells in vivo, and to antigen presentation by MHC class I molecules.     

Evidence for polarization of plasma membrane domains in pancreatic endocrine cells

Polarization of plasma membrane domains is an essential feature of secretory epithelial cells from exocrine glands. The surface of exocrine cells (a typical example is the acinar cell of the pancreas) is separated into an apical domain, where secretion occurs by exocytosis, and a basolateral domain, which senses variations of the internal milieu and is enriched with receptors for various hormones and secretagogues. It is unknown whether secretion is polarized in endocrine cells (except for thyroid follicular cells, which are organized into cavitary structures). To determine whether distinct plasma membrane domains exist in endocrine cells, we infected monolayer cultures of pancreatic endocrine cells with enveloped RNA viruses known to bud selectively from either the apical or basolateral domain in polarized epithelial cells. This asymmetrical budding is thought to reflect the polarized nature of the infected cells, as in non-polarized cells such as fibroblasts, the same viruses bud nonselectively from the entire cell surface. We show here that influenza virus and vesicular stomatitis virus (VSV) emerge asymmetrically from cultured pancreatic islet cells; this represents the first evidence for polarization of plasma membrane domains in pancreatic endocrine cells.     

Interferon-dependent induction of mRNA activity for (2'-5')oligo-isoadenylate synthetase

At least three different enzymes involved in the regulation of protein synthesis are induced in a variety of cells by interferon (IFN). Sensitive assays for these enzymes have been developed and used to establish the specificity, dose dependence and time course of their induction by IFN. One of these enzymes, the oligo-isoadenylate synthetase E, whose product (2'-5')pppApApA activates the latent ribonuclease F, is increased over 50-fold after IFN treatment. We describe here the assay for an mRNA from IFN-treated mouse L cells, that produces oligo-isoadenylate synthetase activity when injected into Xenopus oocytes. This mRNA is found in the cells only after exposure to IFN. The mRNA increases in mouse L cells with the same time course as the enzyme activity itself. In particular, there is a 3-h lag period between IFN addition and the onset of enzyme and mRNA accumulation. Using anti-IFN antibodies, we show that during this lag period the continued interaction of IFN with the cells is necessary for the full induction of the oligo-isoadenylate synthetase.     

吉林地区病毒性肝炎分型分析

目的 了解吉林地区病毒性肝炎的型别分布及感染状况．方法 采用ELlSA法检测．结果 男性检出39例，女性检出21例，检出HAV23例，占38％；HBV25例，占42％，NCV6例，占10％；HVD未检出，HEV4例，占7％，HGV2例，占3％．乙型肝炎检出率最高，其次为甲型肝炎、丙型肝炎、戊型肝炎、庚型肝炎．丁型肝炎检出率为0．单纯感染56例；1例甲、丙、庚三重感染，1例为甲、乙二重感染．结论 甲、乙型肝炎仍为吉林地区人群感染的主要病原．     

Internalization of the human immunodeficiency virus does not require the cytoplasmic domain of CD4

Binding of the human immunodeficiency virus (HIV) to infectable host cells, such as B and T lymphocytes, monocytes and colorectal cells, is mediated by a high-affinity interaction between the gp120 component of the viral envelope glycoprotein and the CD4 receptor. Upon binding, it is thought that the second component of the envelope, gp41, mediates fusion between the viral envelope and host cell membranes. However, the early steps of HIV infection have not yet been thoroughly elucidated. Viral entry was first reported to be mediated by pH-dependent receptor-mediated endocytosis; subsequent studies have shown entry to be pH-independent. Although direct fusion of virus to plasma membranes of infected cells has been observed by electron microscopy, it is still formally possible that the infectious path of the virus involves receptor-mediated endocytosis. To gain a better understanding of receptor function in viral entry, we have analysed the ability of several altered or truncated forms of CD4 to serve as effective viral receptors. Our results indicate that domains beyond the HIV-binding region of CD4 are not required for viral infection. Some of the altered forms of CD4 that serve as effective HIV receptors are severely impaired in their ability to be endocytosed. These experiments therefore support the notion that viral fusion to the plasma membrane is sufficient for infection.     

Ebola virus entry requires the cholesterol transporter Niemann-Pick C1

Infections by the Ebola and Marburg filoviruses cause a rapidly fatal haemorrhagic fever in humans for which no approved antivirals are available. Filovirus entry is mediated by the viral spike glycoprotein (GP), which attaches viral particles to the cell surface, delivers them to endosomes and catalyses fusion between viral and endosomal membranes. Additional host factors in the endosomal compartment are probably required for viral membrane fusion; however, despite considerable efforts, these critical host factors have defied molecular identification. Here we describe a genome-wide haploid genetic screen in human cells to identify host factors required for Ebola virus entry. Our screen uncovered 67 mutations disrupting all six members of the homotypic fusion and vacuole protein-sorting (HOPS) multisubunit tethering complex, which is involved in the fusion of endosomes to lysosomes, and 39 independent mutations that disrupt the endo/lysosomal cholesterol transporter protein Niemann-Pick C1 (NPC1). Cells defective for the HOPS complex or NPC1 function, including primary fibroblasts derived from human Niemann-Pick type C1 disease patients, are resistant to infection by Ebola virus and Marburg virus, but remain fully susceptible to a suite of unrelated viruses. We show that membrane fusion mediated by filovirus glycoproteins and viral escape from the vesicular compartment require the NPC1 protein, independent of its known function in cholesterol transport. Our findings uncover unique features of the entry pathway used by filoviruses and indicate potential antiviral strategies to combat these deadly agents.     

猪小肠抗菌肽的提取及部分生物学活性研究

将新鲜猪小肠超声破碎,经高温处理、乙酸浸提后,再经Sephadex G100和Sephadex G25凝胶柱过滤层析,收集各组分并用琼脂糖弥散法检测各组分的抗菌活性。收集具有抗菌活性的组分,经Tricine SDS-PAGE,考马斯亮蓝染色后分析为一条蛋白带,分子量约为5972Da左右,得到电泳纯的猪小肠抗菌肽。该抗菌肽对大肠杆菌C84008株、金黄色葡萄球菌ATCC25923株、绿脓杆菌ATCC27853株均表现出较强的抗菌活性;并能灭活鸡传染性支气管炎病毒。     

2'-O methylation of the viral mRNA cap evades host restriction by IFIT family members

Cellular messenger RNA (mRNA) of higher eukaryotes and many viral RNAs are methylated at the N-7 and 2'-O positions of the 5' guanosine cap by specific nuclear and cytoplasmic methyltransferases (MTases), respectively. Whereas N-7 methylation is essential for RNA translation and stability, the function of 2'-O methylation has remained uncertain since its discovery 35 years ago. Here we show that a West Nile virus (WNV) mutant (E218A) that lacks 2'-O MTase activity was attenuated in wild-type primary cells and mice but was pathogenic in the absence of type I interferon (IFN) signalling. 2'-O methylation of viral RNA did not affect IFN induction in WNV-infected fibroblasts but instead modulated the antiviral effects of IFN-induced proteins with tetratricopeptide repeats (IFIT), which are interferon-stimulated genes (ISGs) implicated in regulation of protein translation. Poxvirus and coronavirus mutants that lacked 2'-O MTase activity similarly showed enhanced sensitivity to the antiviral actions of IFN and, specifically, IFIT proteins. Our results demonstrate that the 2'-O methylation of the 5' cap of viral RNA functions to subvert innate host antiviral responses through escape of IFIT-mediated suppression, and suggest an evolutionary explanation for 2'-O methylation of cellular mRNA: to distinguish self from non-self RNA. Differential methylation of cytoplasmic RNA probably serves as an example for pattern recognition and restriction of propagation of foreign viral RNA in host cells.