Infectious entry of equine herpesvirus-1 into host cells through different endocytic pathways

We investigated the mechanism by which equine herpesvirus-1 (EHV-1) enters primary cultured equine brain microvascular endothelial cells (EBMECs) and equine dermis (E. Derm) cells. EHV-1 colocalized with caveolin in EBMECs and the infection was greatly reduced by the expression of a dominant negative form of equine caveolin-1 (ecavY14F), suggesting that EHV-1 enters EBMECs via caveolar endocytosis. EHV-1 entry into E. Derm cells was significantly reduced by ATP depletion and treatments with lysosomotropic agents. Enveloped virions were detected from E. Derm cells by infectious virus recovery assay after viral internalization, suggesting that EHV-1 enters E. Derm cells via energy- and pH-dependent endocytosis. These results suggest that EHV-1 utilizes multiple endocytic pathways in different cell types to establish productive infection.     

EHV-1 glycoprotein D (EHV-1 gD) is required for virus entry and cell-cell fusion, and an EHV-1 gD deletion mutant induces a protective immune response in mice

Summary.  Insertional mutagenesis was used to construct an equine herpesvirus 1 (EHV-1) mutant in which the open reading frame for glycoprotein D was replaced by a lacZ cassette. This gD deletion mutant (ΔgD EHV-1) was unable to infect normally permissive RK cells in culture, but could be propagated in an EHV-1 gD-expressing cell line (RK/gD). Phenotypically complemented ΔgD EHV-1 was able to infect RK cells, but did not spread to form syncytial plaques as seen with wild type EHV-1 or with ΔgD EHV-1 infection of RK/gD cell cultures. Therefore EHV-1 gD is required for virus entry and for cell-cell fusion. The phenotypically complemented ΔgD EHV-1 had very low pathogenicity in a mouse model of EHV-1 respiratory disease, compared to a fully replication-competent EHV-1 reporter virus (lacZ62/63 EHV-1). Intranasal or intramuscular inoculation of mice with ΔgD EHV-1 induced protective immune responses that were similar to those elicited in mice inoculated with lacZ62/63 EHV-1 and greater than those following inoculation with UV-inactivated virus. Received January 14, 2000/Accepted April 27, 2000     

Host cell tropism of equine herpesviruses: glycoprotein D of EHV-1 enables EHV-4 to infect a non-permissive cell line

Summary Equine herpesviruses 1 and 4 (EHV-1 and EHV-4) cause equine respiratory disease worldwide. However, only EHV-1 is a cause of abortion and neurological disease, despite the two viruses having all 76 genes in common. In addition EHV-1 has a broader host range in cell culture than EHV-4, as exemplified by the rabbit kidney (RK) cell line that is permissive for EHV-1, but not for EHV-4. Here we describe that when EHV-4 produced in equine cells was inoculated onto RK cells expressing glycoprotein D of EHV-1 (RKgD1), infection developed as clusters of rounded cells, and this infectivity could be passaged in RKgD1 cells. The progeny virus could also infect single RK cells, consistent with EHV-4 acquiring EHV1 gD from the complementing cell line. No such infection was observed for EHV-4 in RK cells expressing EHV-1 glycoprotein C. The results are consistent with gD homologues being major determinants of host cell tropism and raise the possibility that gD may be a factor in the differential pathogenicity of EHV-1 and EHV-4.     

Level of major histocompatibility complex class I expression on endothelium in non-obese diabetic mice influences CD8 T cell adhesion and migration

An important prerequisite for development of insulitis and β-cell destruction in type 1 diabetes is successful transmigration of autoreactive T cells across the islet endothelium. Previous work suggests that antigen presentation to T cells by endothelium, which requires endothelial cell expression of major histocompatibility complex (MHC) molecules, promotes tissue-specific T cell migration. We therefore tested the hypothesis that the level of endothelial MHC class I molecule expression in diabetes-prone mice directly influences autoreactive CD8 T cell migration. We investigated the immune phenotype of endothelial cells, focusing on endothelial MHC class I molecule expression in a range of different tissues and mouse strains, including non-obese diabetic (NOD) mice. In addition, we examined whether the level of expression of MHC class I molecules influences autoantigen-driven CD8 T cell transmigration. Using endothelial cell lines that expressed ‘high’ (NOD mouse), medium (NOD × C3H/HeJ F₁ generation mice) and no (C3H/HeJ) H-2K^d, we demonstrated in vitro that MHC levels have a profound effect on the activation, adhesion and transmigration of pathogenic, islet autoreactive CD8 T cells. The expression level of MHC class I molecules on endothelial tissues has a direct impact upon the efficiency of migration of autoreactive T cells. The immune phenotype of microvascular endothelium in NOD mice may be an additional contributory factor in disease predisposition or development, and similar phenotypes should be sought in human type 1 diabetes.     

Oncogenic transformation of primary hamster embryo cells by equine herpesvirus type 3

Infection of nonpermissive primary hamster embryo cells with equine herpesvirus type 3 (EHV-3; multiplicity of infection = 10 pfu/cell) resulted in an abortive infection and the development of several hundred foci of rapidly growing cells. Five of these foci were chosen at random for the establishment of transformed cell lines, designated EVD-1 (equine venereal disease) through 5. These transformed cell lines exhibited altered biological properties typical of transformed cells, including immortality, growth to high saturation density, colony formation in soft agar, reduced serum requirements, aneuploid karyotype, and oncogenicity in syngeneic animals. Subsequently, five corresponding tumor cell lines (EVD-1T through 5T) with similar biological properties were established. All EHV-3 transformed and tumor cell lines have been shown to express EHV-3-specific proteins by indirect immunofluorescence assays employing rabbit antisera to EHV-3 infected equine cells. None of the transformed cell lines were found to release infectious virus by infectious center or cocultivation assay or to contain viral particles by electron microscopy.     

Dendritic cells internalise and re-present conformationally intact soluble MHC class I alloantigen for generation of alloantibody

Following organ transplantation soluble MHC class I is released from the graft and may contribute to alloimmunity. We determined in a well-established rat model whether DC are able to internalise soluble MHC class I alloantigen and then re-present intact alloantigen to B cells and T cells for generation of an alloantibody or CD8 T cell response. PVG.RT1(u) BM-derived DC internalised (via an active process) and retained intact a recombinant soluble form of RT1-A(a) (sRT1-A(a)). When PVG.RT1(u) rats were immunised with sRT1-A(a)-pulsed syngeneic DC, they developed a strong anti-sRT1-A(a) alloantibody response and showed accelerated rejection of RT1-A(a)-disparate PVG.R8 heart grafts. Alloantibody production and accelerated heart graft rejection were both dependent on immunisation with viable sRT1-A(a)-pulsed DC. The alloantibody response to sRT1-A(a)-pulsed DC was directed exclusively against conformational epitopes expressed by sRT1-A(a) and not epitopes expressed, for example, by non-conformational sRT1-A(a) heavy chain. Immunisation with sRT1-A(a)-pulsed syngeneic DC did not stimulate a CD8 T cell response. Our findings suggest a novel alloantigen recognition pathway whereby soluble MHC class I alloantigen released from an allograft may be taken up by recipient DC and presented in an intact unprocessed form to B cells for the generation of an alloantibody response.     

A comparison of the antigen-presenting capabilities of class II MHC-expressing human lung epithelial and endothelial cells.

Human lung alveolar epithelial cells constitutively express class II major histocompatibility complex (MHC). Human lung microvascular endothelial and small airway epithelial cells can be induced to express class II MHC by stimulation with the pro-inflammatory cytokine interferon-gamma. The levels of class II MHC on lung epithelial and endothelial cells were comparable to those seen on an Epstein-Barr virus (EBV)-transformed B-cell line. However, the costimulatory molecules B7-1 and B7-2 were not expressed. The ability of the class II MHC expressing human lung parenchymal cells to present alloantigen to CD4+ T lymphocytes was investigated. Freshly isolated human alveolar epithelial cells (type II pneumocytes) and monolayers of interferon-gamma-stimulated small airway epithelial and lung microvascular endothelial cells were co-cultured with allogeneic CD4+ T lymphocytes and proliferation determined by [3H]thymidine incorporation. A clear difference was observed between effects of the epithelial and endothelial cells on CD4+ T-lymphocyte activation. Alveolar and small airway epithelial cells failed to stimulate the proliferation of allogeneic CD4+ T lymphocytes whereas lung microvascular endothelial cells did stimulate proliferation. This difference could not be explained by the levels of class II MHC or the lack of B7-1 and B7-2 solely. Microvascular endothelial cells, and not alveolar or small airway epithelial cells, possess B7-independent costimulatory pathways.     

Expression and characterization of equine herpesvirus 1 glycoprotein D in mammalian cell lines

Summary Equine herpesvirus 1 glycoprotein D (EHV-1 gD) expressed constitutively in mammalian cell lines had similar electrophoretic mobility to gD produced in EHV-1 infected cells but lacked a possibly complexed higher molecular weight form seen in the latter. Recombinant gD was N-terminally cleaved at the same site as gD in EHV-1 infected cells and expression was associated with enhanced levels of cell-cell fusion, indicating a role for EHV-1 gD in cell-to-cell transmission of virus.     

TNF Impairs In Vivo and In Vitro Natural Killer (NK) Susceptibility of B16 Melanoma Cells

Tumour necrosis factor alpha (TNF) is a multipotent cytokine which affects many biological properties of both normal and neoplastic cells. Here we show that treatment with TNF reduces B16-A melanoma cell susceptibility to normal and in vivo- and in vitro-activated NK cell-mediated killing. This resistance is associated with an enhancement of B16-A metastatic potential in normal syngeneic mice, but not in anti-asialo GM1-treated animals, further supporting the NK dependence of TNF-induced enhancement of metastatic ability. A significant increase of MHC class I expression on B16-A murine melanoma cells is observed after TNF treatment. In all these effects TNF interacts positively with interferon gamma (IFN gamma). Taken together, these results indicate that TNF treatment negatively affects the susceptibility of B16-A murine melanoma to NK effectors in vivo and in vitro. This decreased susceptibility may be related, at least in part, to enhanced expression of MHC class I antigens on tumour cells.     

Autologous cytotoxicity of natural killer cells derived from HIV-infected patients

NK cells recognize target cells with reduced expression of MHC class I molecules. Human immunodeficiency virus (HIV) infection decreases MHC class I on the cell membrane. The aim of this study was to directly evaluate the role and conditions of NK cell effects in HIV seropositive patients ex vivo. Autologous HIV-infected CD4+ T cells were exposed to NK cells recognition. We discovered an increased lysis of the target cells after infection with human immunodeficiency virus-1 (HIV-1). The expression of the HIV-1 nef gene or the combined expression of nef and tat confers NK susceptibility to autologous CD4+ targets. Downregulation of MHC class I but not HLA-C or CD4 correlated with increased recognition by NK cells. The specific recognition is correlated with downregulation of MHC class I molecules on the infected target cells.     

含I-A~dα和β链cDNA的三顺反子逆转录病毒载体构建及真核表达

为了协同表达MHCII类分子的两个链α和 β ,利用脑心肌炎病毒和脊髓灰质炎病毒的内核糖体进入位点 ,构建了含MHCII类分子α和 β链及选择标记新霉素磷酸转移酶基因的三顺反子逆转录病毒载体。经包装细胞包装成重组逆转录病毒后 ,感染NIH3T3、MM45T Li、COS7细胞 ,经PCR、RT PCR、Southern印迹、Northern印迹及流式细胞术在多水平上证实了α链和 β链的基因表达和MHCII类分子的正确组装。     

Early viral replication in the brain of SIV-infected rhesus monkeys.

To investigate the mechanism of simian immunodeficiency virus (SIV) entry into the central nervous system (CNS) and the initial events leading to neuropathogenesis, SIV replication was studied by in situ hybridization in the CNS of 5 Rhesus macaques at 7 days, 1, 2, and 3 months after SIV intravenous inoculation. CNS infection was found to be a frequent and early event, as SIV was detected in the CNS of all the animals studied and as early as 7 days postinoculation. At the earliest stage, the infection localized mainly to perivascular cells. Using combined immunohistochemistry and in situ hybridization, infected cells were shown to express the CD68 marker, suggesting that infected mononuclear phagocytes crossing the blood-brain barrier represent the main source of virus in the CNS. Early viral replication coincided with neuropathologic changes, consisting in gliosis, perivascular infiltrates and rare glial nodules. Immunophenotyping of brain tissue showed that increased macrophage infiltration, microglial reactivity and MHC class II induction occurred within the first week of infection, indicating a possible immunopathologic mechanism in early CNS pathogenesis.     

Heat-inactivated frog virus 3 selectively inhibits equine herpesvirus type 1 translation in a temporal class-dependent manner

Superinfection of equine herpesvirus type 1 (EHV-1)-infected rabbit kidney cells with heat-inactivated frog virus 3 (delta FV3) differentially blocked EHV-1 protein synthesis. The extent of inhibition varied with the specific EHV-1 message, but in general late protein synthesis was inhibited more than early and immediate early translation. Since FV3 has been shown to block heterologous RNA and protein synthesis, it was necessary to determine whether the observed reduction in herpesvirus protein synthesis was primarily due to a block in translation or to an earlier inhibition of EHV-1 mRNA synthesis. To distinguish between these alternatives, replicate cultures of EHV-1 infected cells were either superinfected with delta FV3 or treated with 10 micrograms/ml actinomycin D at 6 hr after infection, and EHV-1 protein synthesis monitored 3 hr later. We found that addition of actinomycin D to EHV-1 infected cultures had only a slight effect on EHV-1 translation, whereas superinfection with delta FV3 markedly reduced EHV-1 protein synthesis. This result suggested that the observed decline in EHV-1 protein synthesis was not due to the inhibition of herpesvirus mRNA synthesis. In addition, we showed that RNA extracted from delta FV3-superinfected cells directed the synthesis of full-size EHV-1 proteins in vitro indicating that shut-off was not caused by the degradation of EHV-1 mRNAs. Taken together these results show that delta FV3 selectively inhibited EHV-1 protein synthesis and are consistent with earlier observations which suggest that translational shut-off occurs at initiation.     

Allorecognition of isolated, denatured chains of class I and class II major histocompatibility complex molecules. Evidence for an important role for indirect allorecognition in transplantation.

Classical RT1-A class I and RT1-B class II major histocompatibility complex (MHC) molecules were purified from DA (RT1avl) spleens, and the individual chains separated and purified by preparative polyacrylamide gel electrophoresis in sodium dodecyl sulfate. LEW (RT1l) rats were immunized with the pure class I heavy chain, the RT1-B alpha chain and the RT1-B beta chain with the aim of priming to indirect allorecognition (i.e. after processing and presentation of DA MHC chains on LEW antigen-presenting cells) in the absence of any priming to direct allorecognition (i.e. to whole, undenatured, dimeric DA MHC molecules). LEW rats immunized with each of the three DA MHC chains produced alloantibodies to these chains, suggesting that indirect allorecognition did occur, because of the requirement for cognate recognition of B cells by T helper cells. This also demonstrated polymorphism of all three chains between the DA and LEW strains. The antibodies to the isolated, denatured MHC chains did not react to the whole MHC molecules on DA cells, with the possible exception of very weak reactions in some class I heavy chain-immunized rats. DA skin grafts placed on LEW recipients immunized with each of the DA MHC chains were rejected in an accelerated fashion. Following DA skin grafting, there was an accelerated production of antibodies to whole, undenatured class I MHC molecules, even in the LEW rats preimmunized with RT1-B alpha and RT1-B beta chains. These data suggest that indirect allorecognition can play an important role in the effector mechanisms of allograft rejection, and demonstrate T helper priming as one possible mechanism whereby this might be effective.     

Evidence for involvement of equine herpesvirus 1 glycoprotein B in cell-cell fusion

Summary Monoclonal antibodies specific for equine herpesvirus 1 (EHV-1) glycoproteins (gB, gD, gp2 and a cleaved translation product of gene 71) were tested for ability to inhibit cell-cell fusion as measured by syncytium formation in EHV-1 infected cell cultures. Syncytium formation was inhibited by a complement-dependent neutralising antibody (7B10) which recognised the large subunit of EHV-1 gB. This indicated that EHV-1 gB, in common with gB homologues of herpes simplex virus and other herpesviruses, plays a role in the cell-cell fusion process.