- Volume 80, Issue 10, 1999
Volume 80, Issue 10, 1999
- Review Article
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- Animal: RNA Viruses
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Ecology and evolution of rabies virus in Europe
The evolution of rabies viruses of predominantly European origin was studied by comparing nucleotide sequences of the nucleoprotein and glycoprotein genes, and by typing isolates using RFLP. Phylogenetic analysis of the gene sequence data revealed a number of distinct groups, each associated with a particular geographical area. Such a pattern suggests that rabies virus has spread westwards and southwards across Europe during this century, but that physical barriers such as the Vistula river in Poland have enabled localized evolution. During this dispersal process, two species jumps took place – one into red foxes and another into raccoon dogs, although it is unclear whether virus strains are preferentially adapted to particular animal species or whether ecological forces explain the occurrence of the phylogenetic groups.
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Protection and antibody responses in different strains of mouse immunized with plasmid DNAs encoding influenza virus haemagglutinin, neuraminidase and nucleoprotein
Protection against influenza virus infection and antibody responses in mice vaccinated with plasmid DNAs encoding haemagglutinin (HA), neuraminidase (NA) and nucleoprotein (NP) were compared among BALB/c (H-2d), B10 (H-2b) and C3H (H-2k ) mice. Mice were inoculated with each DNA construct twice, 3 weeks apart, at a dose of 1 μg per mouse by particle-mediated DNA transfer (gene gun) to the epidermis. They were challenged with a lethal dose of the homologous virus 7 days after the second vaccination. NA-DNA provided significant protection in all strains of mouse, whereas HA-DNA afforded significant protection only in BALB/c mice. The serum antibody titres against NA or HA molecules in BALB/c, C3H and B10 mice were high, intermediate and low, respectively. NP-DNA failed to provide protection in any strain of mouse, and elicited low titres of anti-NP antibodies. These results suggest that NA-DNA can be used as a vaccine component to provide effective protection against influenza virus infection in various strains of mouse.
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Interaction of influenza virus polymerase with viral RNA in the ‘corkscrew’ conformation
More LessThe influenza virus RNA (vRNA) promoter structure is known to consist of the 5′- and 3′-terminal sequences of the RNA, within very narrow boundaries of 16 and 15 nucleotides, respectively. A complete set of single nucleotide substitutions led to the previously proposed model of a binary hooked or ‘corkscrew’ conformation for the vRNA promoter when it interacts with the viral polymerase. This functional structure is confirmed here with a complete set of complementary double substitutions, of both the regular A:U and G:C type and also the G:U type of base-pair exchanges. The proposed structure consists of a six base-pair RNA rod in the distal element in conjunction with two stem–loop structures of two short-range base- pairs (positions 2–9; 3–8). These support an exposed tetranucleotide loop within each branch of the proximal element, in an overall oblique organization due to a central unpaired A residue at position 10 in the 5′ sequence. Long-range base-pairing between the entire 5′ and 3′ branches, as required for an unmodified ‘panhandle’ model, has been excluded for the proximal element, while it is known to represent the mode of interaction within the distal element. A large number of short-range base-pair exchanges in the proximal element constitute promoter-up mutations, which show activities several times above that of the wild- type in reporter gene assays. The unique overall conformation and rather few invariant nucleotides appear to be the core elements in vRNA recognition by polymerase and also in viral ribonucleoprotein packaging, to allow discrimination against the background of other RNA molecules in the cell.
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The BM2 protein of influenza B virus is synthesized in the late phase of infection and incorporated into virions as a subviral component
More LessThe influenza B virus genome RNA segment 7 encodes the M1 and BM2 proteins. The BM2 protein is synthesized by a coupled translational termination–reinitiation mechanism at the overlapping stop–start pentanucleotide in a bicistronic mRNA transcribed from RNA segment 7. However, features and functions of this protein remain unclear. In this study the BM2 protein was characterized by using an antiserum raised to the BM2 protein of influenza virus strain B/Yamagata/1/73. In cells infected with B/Yamagata virus the αBM2 antibody specifically detected the BM2 protein with a molecular mass of 12 kDa and also a polypeptide with a molecular mass of 17 kDa. When infected cells were labelled with 32Pi and immunoprecipitated with the αBM2 antibody, the 32 P-labelled 17 kDa polypeptide was specifically precipitated. In the presence of casein kinase inhibitor CKI-7 the synthesis of the 17 kDa and BM2 proteins was completely suppressed, although other viral proteins, except for the polymerase protein, were synthesized normally. These results suggest that the 17 kDa species is a phosphorylated form of the BM2 protein. These species were substantially synthesized in the late phase of infection and localized in the cytoplasm throughout infection. Moreover, they were transported to the plasma membrane and thereafter were incorporated into virions. These results therefore suggest that the BM2 and the 17 kDa proteins are necessary for the life-cycle of influenza B virus.
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The RNA-dependent RNA polymerases of different members of the family Flaviviridae exhibit similar properties in vitro
More LessThe virus-encoded RNA-dependent RNA polymerase (RdRp), which is required for replication of the positive-strand RNA genome, is a key enzyme of members of the virus family Flaviviridae. By using heterologously expressed proteins, we demonstrate that the 77 kDa NS5B protein of two pestiviruses, bovine viral diarrhoea virus and classical swine fever virus, and the 100 kDa NS5 protein of the West Nile flavivirus possess RdRp activity in vitro. As originally shown for the RdRp of hepatitis C virus, RNA synthesis catalysed by the pestivirus and flavivirus enzymes is strictly primer- dependent in vitro. Accordingly, initiation of RNA polymerization on homopolymeric RNAs and heteropolymeric templates, the latter with a blocked 3′-hydroxyl group, was found to be dependent on the presence of complementary oligonucleotide primer molecules. On unblocked heteropolymeric templates, including authentic viral RNAs, the RdRps were shown to initiate RNA synthesis via intramolecular priming at the 3′-hydroxyl group of the template and ‘copy-back’ transcription, thus yielding RNase- resistant hairpin molecules. Taken together, the RdRps of different members of the Flaviviridae were demonstrated to exhibit a common reactivity profile in vitro, typical of nucleic acid- polymerizing enzymes.
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Involvement of β2-microglobulin and integrin αvβ3 molecules in the coxsackievirus A9 infectious cycle
It is becoming apparent that many viruses employ more than one cell surface molecule for their attachment and cell entry. In this study, we have tested the role of integrin αvβ3 and MHC class I molecules in the coxsackievirus A9 (CAV-9) infectious cycle. Binding experiments utilizing CHO cells transfected and expressing human integrin αvβ3, revealed that CAV- 9 particles were able to bind to cells, but did not initiate a productive cell infection. Antibodies specific for integrin αvβ3 molecules significantly reduced CAV-9 infection in susceptible cell lines. Moreover, MAbs specific for β2- microglobulin (β2-m) and MHC class I molecules completely inhibited CAV-9 infection. To assess the effect of these antibodies on virus binding, we analysed CAV-9 binding by flow cytometry in the presence of β2-m- or integrin α vβ3-specific antibodies. The results showed a reduction in CAV-9 binding in the presence of integrin αvβ3- specific antibodies while there was no reduction in the presence of β2-m-specific MAb. Taken together, these data suggest that integrin αvβ3 is required for CAV-9 attachment but is not sufficient for cell entry, while β2 -m, although not directly involved in CAV-9 binding, plays a post- attachment role in the CAV-9 infectious process, possibly being involved in virus entry.
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Two determinants in the capsid of a persistent type 3 poliovirus exert different effects on mutant virus uncoating
More LessMutant polioviruses (PV) have been previously found to be capable of establishing persistent infections in HEp-2c cells. Together, two amino acid substitutions in the viral capsid of a type 3 poliovirus (PV-3), at positions VP213 and VP1290, are sufficient to confer the persistent phenotype to a normally lytic virus. When susceptible cells are infected, the double mutant T7L+2L 131N290 undergoes unique conformational changes in the capsid, modifying its sedimentation coefficient from 160S to 147S. In the present study, we have further investigated mutant PV decapsidation and, in particular, the effect of each determinant independently. Our results indicate that the novel 147S form was also generated by a mutant carrying only the determinant 1N290. This form was not produced as a result of inherent capsid instability and it was generated only upon specific PV–host cell interactions. The second viral determinant, 2L13, also modified receptor-induced conformational changes, although differently from 1N290.
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Processing and intracellular location of human astrovirusnon-structural proteins
More LessHuman astrovirus (HAst) non-structural polyproteins are encoded in two open reading frames linked in expression by a ribosomal frameshifting event. The first of these (ORF 1a) specifies the serine protease, whilst the second (ORF 1b) encodes the virus RNA-dependent RNA polymerase. The ORF 1a product contains an unusual motif for small RNA viruses which could potentially direct proteins to the cell nucleus. We have expressed part of ORF 1a containing this motif and the whole of ORF 1b separately in recombinant baculovirus and raised specific antisera to each. We now report that expressed proteins from ORF 1a accumulate in the nucleus of both baculovirus-infected insect cells and HAst-infected CaCo-2 cells. In contrast the products of ORF 1b remain predominantly cytoplasmic.
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Isolation and phylogeny of endogenous retrovirus sequences belonging to the HERV-W family in primates
More LessAn investigation was undertaken of primate pol gene sequences from a novel endogenous retrovirus family, ERV-W, related to a new human endogenous retrovirus family (HERV-W) that includes multiple sclerosis-associated retrovirus (MSRV) sequences identified in particles recovered from monocyte cultures from patients with multiple sclerosis. The pol gene sequences of the ERV-W family were detected in hominoids and Old World monkeys, but not in New World monkeys, whereas ERV-W long terminal repeat-like elements were detected in all primates (hominoids, Old World monkeys and New World monkeys). Thirty-two pol gene sequences from hominoids and Old World monkeys showed a high degree of sequence identity to MSRV and other HERV-W sequences. Phylogenetic analysis indicated close relationships of pol gene sequences across primate species. The analysis suggests that the ERV-W family has evolved independently but in constrained patterns (‘parallel evolution’) in different primate species, including man. The ratio of synonymous to non- synonymous substitutions indicated that negative selective pressure is acting on CHW1-1 from chimpanzee, HBW6-6 from baboon and HWX5 from man, sequences that have no disruption by point mutation or insertions/deletions. Therefore, these pol gene sequences could be associated with an active provirus in primates. The findings indicate that the ERV-W family has continued to evolve in the course of the primate radiation and may include members with a capacity to influence gene function and possibly cause disease.
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Replication-deficient recombinant adenoviruses expressing the human immunodeficiency virus Env antigen can induce both humoral and CTL immune responses in mice
An effective vaccine against infection with human immunodeficiency virus type 1 (HIV-1) is thought likely to require both a humoral and a CTL immune response. A non-replicating adenovirus vector system has been developed that can induce both a humoral and CTL response to HIV-1 envelope in mice. It is demonstrated that the stimulatory tat/rev 5′ splice-donor site sequence is required for efficient expression of HIV-1 env by this adenovirus vector system. rev can be provided bicistronically or in trans to result in good expression of env in vitro. A humoral immune response was detected after two immunizations with a bicistronic recombinant adenovirus (RAd142). The response was dose dependent, 5×107 p.f.u. inducing a response in some, but not all, animals and 1×108 p.f.u. giving a consistent antibody response. However, CTLs were induced by the lower dose of virus and after only one immunization with the higher dose. A positive CTL response was also seen consistently when the two monocistronic adenoviruses (RAd501 expressing env and RAd46 expressing rev) were given together, although two immunizations were required to give approximately the same level of response as seen with the bicistronic virus. RAd501 on its own also gave a low CTL response when two immunizations were given. It is suggested that a lower level of env expression is required to produce a CTL response than a humoral response and that this non- replicating adenovirus vector is a good system for inducing CTL.
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Interaction of YB-1 with human immunodeficiency virus type 1 Tat and TAR RNA modulates viral promoter activity
More LessTranscriptional regulation of the human immunodeficiency virus type 1 (HIV-1) genome is mediated by viral and cellular factors. TAR, an unusual RNA regulatory element with a stem–bulge–loop structure at the 5′ ends of all nascent viral transcripts is critical for HIV-1 transcription. TAR is the target for Tat, a viral transcription factor encoded early in the HIV-1 life-cycle and essential for gene expression. Evidence demonstrating the interaction of a cellular ssDNA/RNA binding protein, YB-1, with TAR through a region which is important for Tat interaction is presented. Interestingly, results from protein–protein interaction studies revealed that YB-1 can also form a complex with Tat. Results from mapping experiments suggest that while the region spanning aa 125–203 within YB-1 is essential for its association with TAR, a truncated YB-1 spanning aa 1–125 can weakly bind to Tat. Functionally, overexpression of full-length YB-1 enhanced Tat-induced activation of the HIV-1 minimal promoter containing TAR sequences, whereas mutant YB-1 with no ability to bind to Tat and TAR failed to affect Tat-mediated activation. Expression of mutant YB-1(1–125), which binds to Tat but not RNA, decreased Tat- mediated enhancement of virus transcription. These observations suggest that while full-length YB-1 may function as a facilitator and, by interaction with both Tat and TAR, increase the level of Tat:TAR association, mutant YB-1 with no TAR binding activity, by complexing with Tat, may prevent Tat interaction with TAR. The importance of these findings in light of the proposed mechanism of Tat function is discussed.
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Envelope gene sequences encoding variable regions 3 and 4 are involved in macrophage tropism of feline immunodeficiency virus
The envelope is of cardinal importance for the entry of feline immunodeficiency virus (FIV) into its host cells, which consist of cells of the immune system including macrophages. To characterize the envelope glycoprotein determinants involved in macrophage tropism, chimeric infectious molecular clones were constructed containing envelope gene sequences from isolates that had been propagated in peripheral blood mononuclear cells (PBMC). The progeny virus was examined for growth in PBMC and bone marrow-derived macrophages and viruses with different replication kinetics in macrophages were selected. Envelope-chimeric viruses revealed that nucleotide sequences encoding variable regions 3 and 4 of the surface glycoprotein, SU, are involved in macrophage tropism of FIV. To assess the biological importance of this finding, the phenotypes of envelope proteins of viruses derived from bone marrow, brain, lymph node and PBMC of an experimentally FIV-infected, healthy cat were examined. Since selection during propagation had to be avoided, provirus envelope gene sequences were amplified directly and cloned into an infectious molecular clone of FIV strain Petaluma. The viruses obtained were examined for their replication properties. Of 15 clones tested, 13 clones replicated both in PBMC and macrophages, two (brain-derived clones) replicated in PBMC only and none replicated in Crandell feline kidney cells or astrocytes. These results indicate that dual tropism for PBMC and macrophages is a common feature of FIV variants present in vivo.
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- Animal: DNA Viruses
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Hepatitis B viral core proteins with an N-terminal extension can assemble into core-like particles but cannot be enveloped
More LessThe structure of hepatitis B virus (HBV) nucleocapsids has been revealed in great detail by cryoelectron microscopy. How nucleocapsids interact with surface antigens to form enveloped virions remains unknown. In this study, core mutants with N-terminal additions were created to address two questions: (1) can these mutant core proteins still form nucleocapsids and (2) if so, can the mutant nucleocapsids interact with surface antigens to form virion-like particles. One plasmid encoding an extra stretch of 23 aa, including six histidine residues, fused to the N terminus of the core protein (designated HisC183) was expressed in Escherichia coli and detected by Western blot. CsCl gradient and electron microscopy analyses indicated that HisC183 could self-assemble into nucleocapsids. When HisC183 or another similar N-terminal fusion core protein (designated FlagC183) was co-expressed with a core-negative plasmid in human hepatoma cells, both mutant core proteins self-assembled into nucleocapsids. These particles also retained kinase activity. Using an endogenous polymerase assay, a fill-in HBV DNA labelled with isotope was obtained from intracellular nucleocapsids formed by mutant cores. In contrast, no such signal was detected from the transfection medium, which was consistent with PCR and Southern blot analyses. Results indicate that core mutants with N-terminal extensions can form nucleocapsids, but are blocked during the envelopment process and cannot form secreted virions. The mutant nucleocapsids generated from this work should facilitate further study on how nucleocapsids interact with surface antigens.
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Hepatitis B virus maturation is affected by the incorporation of core proteins having a C-terminal substitution of arginine or lysine stretches
More LessAssembly of replication-competent hepadnavirus nucleocapsids requires interaction of core protein, polymerase and encapsidation signal (ϵ) with viral pregenomic RNA. The N-terminal portion (aa 1–149) of the core protein is able to self-assemble into nucleocapsids, whereas the C-terminal portion (aa 150–183) is known to interact with pregenomic RNA. In this study, two hepatitis B virus (HBV) core mutants (C144Arg and C144Lys) in which the C-terminal SPRRR (Ser-Pro-Arg-Arg-Arg) motif was replaced by a stretch of arginine or lysine residues were generated to test their role in pregenome encapsidation and virus maturation. Mutant or wild-type core-expression plasmids were co-transfected with a core-negative plasmid into human hepatoma HuH-7 cells to compare trans-complementation efficiency for virus replication. Both low- and high-density capsids were present in the cytoplasm and culture medium of HuH-7 cells in all transfections. Nucleocapsids formed by C144Arg and C144Lys, however, lost the endogenous polymerase activity to repair HBV DNA. Furthermore, in co-transfection of pHBVC144Arg or pHBVC144Lys with a plasmid which produces replication-competent nucleocapsids, the HBV DNA repairing signal was reduced 40- to 80-fold. This is probably due to formation of mosaic particles of wild-type and mutant cores. Results indicated that the SPRRR motif at the core protein C terminus is important for HBV DNA replication and maturation. Additionally, triple-plasmid transfection experiments showed that nucleocapsids containing various amounts of C144Arg and wild-type core proteins exhibited a bias in selecting a shorter pregenome for encapsidation and DNA replication. It is therefore suggested that unknown factors are also involved in HBV pregenome packaging.
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A novel negative cis-regulatory element on the hepatitis B virus S-(+)-strand
More LessHepatitis B virus (HBV) has a double-stranded DNA genome. The minus-strand contains coding regions for all known HBV proteins and most of the cis-regulatory elements. Little is known about transcription from the S-(+)-strand and its regulation. Thus, the presence of regulatory elements located on the S-(+)-strand was investigated by inserting nt 1038–1783 of HBV in both orientations between the human cytomegalovirus (HCMV) promoter and a luciferase gene. Transfection experiments revealed that the plasmid containing this HBV DNA fragment in an orientation allowing expression from the S-(+)-strand (antisense) led to inhibition of luciferase gene expression compared to the plasmid containing this sequence in an orientation that allows gene expression from the L-(−)-strand (sense). Deletion analyses delimit the sequence essential for the inhibitory effect to a 150 bp region that also carries part of the enhancerII/core promoter complex. However, the possible influence of this regulatory element has been excluded in various experiments. The repressing HBV sequence acts in an orientation- and position-dependent manner; no inhibition was observed when this DNA element was inserted upstream of the HCMV promoter or downstream of the luciferase gene. Northern blot analyses revealed reduced luciferase mRNA steady-state levels in cells transfected with constructs containing the essential HBV sequence in antisense orientation compared to plasmids containing this sequence in sense orientation. Since nuclear run-on experiments showed similar transcription initiation rates with these plasmids, the diminished luciferase mRNA steady-state levels must be due to altered stabilities, suggesting that nt 1783–1638 of HBV encode an RNA-destabilizing element.
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Hepatitis B virus genomes from long-term immunosuppressed virus carriers are modified by specific mutations in several regions
More LessThere is increasing evidence that hepatitis B virus (HBV) infection of an immunosuppressed host is associated with the appearance of virus mutants. To characterize the virus circulating in patients in detail, eleven full-length HBV genomes, isolated from the serum of five highly viraemic renal transplant recipients with liver disease, were cloned and sequenced. The genomes contained deletions in the C gene, deletions in the pre-S1/2 region frequently removing the pre-S2 initiation codon, premature termination codons in the pre-S1 or S region, and/or deletions/insertions in the X gene/core promoter. The mutations occurred at different positions and in various combinations; even mutant genomes circulating within a patient differed strikingly. It is concluded that long-term immunosuppression is associated with the occurrence of heterogeneous populations of partially defective HBV characterized by a specific mutation pattern. Efficient intracellular trans-complementation probably enables high virus replication in vivo.
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An African swine fever virus ORF with similarity to C-type lectins is non-essential for growth in swine macrophages in vitro and for virus virulence in domestic swine
An African swine fever virus (ASFV) ORF, 8CR, with similarity to the C-type lectin family of adhesion proteins has been described in the pathogenic isolate Malawi Lil-20/1. The similarity of 8CR to cellular and poxvirus genes associated with cell adhesion, cell recognition and virus infectivity suggested that 8CR may be of significance to ASFV–host cell interactions. Sequence analysis of the 8CR ORF from additional pathogenic ASFV isolates demonstrated conservation among isolates from both pig and tick sources. Northern blot analysis demonstrated 8CR mRNA transcription late in the virus replication cycle. A Malawi Lil-20/1 8CR deletion mutant (Δ8CR) was constructed to analyse 8CR function further. The growth characteristics in vitro of Δ8CR in porcine macrophage cell cultures were identical to those observed for parental virus. In domestic swine, Δ8CR exhibited an unaltered parental Malawi Lil- 20/1 disease and virulence phenotype. Thus, although well conserved among pathogenic ASFV field isolates, 8CR is non-essential for growth in porcine macrophages in vitro and for virus virulence in domestic swine.
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Mapping T and B lymphocyte epitopes of bovine herpesvirus-1 glycoprotein B
More LessGlycoprotein B (gB) is a major envelope protein of bovine herpesvirus-1 (BHV-1). As a subunit vaccine, the extracellular domain of recombinant gB induces neutralizing antibody and T cell responses that engender protection against virus challenge. Here, lymphocytes from animals of different parentage were analysed for T cell proliferation to the gB extracellular domain for immune recognition. Four truncated overlapping gB gene segments encoding 742 amino acids were expressed from a baculovirus vector to identify antigenic regions. One immunodominant region (amino acids 254–532) was recognized by T cells from immune individuals of different parentage. Serial synthetic peptides spanning this region localized the T cell (amino acids 319–340 and 415–436) and B cell (amino acids 331–352, 475–496 and 487–508) epitopes. Elucidation of gB epitopes indicates the diverse and distinctive recognition by T cells and antibodies of this envelope glycoprotein by cattle, the natural host of BHV-1.
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Temporal mapping of transcripts in human herpesvirus-7
Transcription of human herpesvirus-7 (HHV-7) in cultures of productively infected T-cells was studied. Transcription of HHV-7 was regulated by the typical herpesvirus cascade in which α, β and γ genes are sequentially transcribed. Transcripts of U10, U14, U18, U31, U39, U41, U42, U53, U73 and U89/90 were detected 3 h after infection and were not inhibited by the absence of protein synthesis and therefore were α functions. U19 and U18/20 were β genes; their transcription was inhibited by cycloheximide but not by phosphonoacetate, an inhibitor of DNA synthesis. U60/66 and U98/100 were γ genes since their spliced transcripts were not detected in cells treated with phosphonoacetate. HHV-7 transcription was regulated by complex mechanisms, which involve the temporal coordinated activation of specific viral promoters and post-transcriptional processing. Splice mechanisms were also temporally regulated. Transcription of U89/90 pre-mRNA and splice took place simultaneously in the immediate-early phase. On the other hand, U16/17 pre-mRNA was synthesized with typical α kinetics, but the spliced product was regulated as a β function. Likewise, the primary transcripts of U60/66 and U98/100 were α and β, respectively, but both spliced products were synthesized in the late phase of virus replication. Finally, HHV-7 supported a bona fide latent infection in the adult population, since viral transcripts were not detected in peripheral blood mononuclear cells of healthy donors infected with HHV-7.
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The U28 ORF of human herpesvirus-7 does not encode a functional ribonucleotide reductase R1 subunit
More LessHerpesvirus ribonucleotide reductases, essential for the de novo synthesis of viral DNA, are composed of two non-identical subunits, termed R1 and R2. The U28 ORF from human herpesvirus-7 has been classified, by sequence comparisons, as a homologue of the R1 subunit from ribonucleotide reductase but no R2 ORF is present. Detailed analysis of the U28 amino acid sequence indicated that a number of essential R1 catalytic residues are absent. Cloning and expression of the U28 protein in E. coli and its subsequent characterization in subunit interaction and enzyme activity assays confirmed that it is not a functional equivalent of a herpesvirus R1. In the absence of the R2 gene, we propose that the R1 ORF has evolved a distinct, as yet unidentified, function not only in human herpesvirus-7 but also in other human betaherpesviruses.
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The rat cytomegalovirus R32 gene encodes a virion-associated protein that elicits a strong humoral immune response in infected rats
More LessA gene of rat cytomegalovirus (RCMV), designated R32, has been identified that encodes a homologue of the human cytomegalovirus (HCMV) pp150 (ppUL32) major tegument phosphoprotein. The R32 ORF has the capacity to encode a 667 amino acid polypeptide (pR32) with a calculated molecular mass of 73 kDa. The predicted amino acid sequence of pR32 shows similarity to that of polypeptides predicted to be encoded by the HCMV UL32, murine cytomegalovirus M32 and human herpesvirus types 6 and 7 U11 genes. The R32 gene is transcribed as a 2·5 kb mRNA during the late phase of RCMV infection in rat embryo fibroblasts in vitro. To study expression of the pR32 protein in vitro and in vivo, a rabbit polyclonal antiserum was raised against a recombinant protein that comprised amino acids 252–522 of pR32. By using this antiserum, pR32 could be detected predominantly in the cytoplasm of RCMV-infected fibroblasts at 24 and 48 h post-infection in vitro. The pR32 protein was also detected within virions isolated from the culture medium of RCMV- infected cells. Expression of pR32 in vivo was observed within the cytoplasm of salivary gland epithelial cells of RCMV-infected rats. In addition, recombinant pR32 was found to react with sera from rats that were previously infected with RCMV, whereas reactivity was not seen with sera from mock-infected rats. Together, these findings indicate that RCMV pR32 represents the homologue of HCMV ppUL32, both in primary structure and in function.
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Kinetic and phenotypic changes in murine lymphocytes infected with murine gammaherpesvirus-68 in vitro
More LessPrimary infection with murine gammaherpesvirus-68 (MHV-68), as with other members of the gammaherpesvirus subfamily, is characterized by a lymphoproliferative phase. MHV-68 causes acute splenomegaly and an infectious mononucleosis-like syndrome in which there is expansion of the CD8+ T cell subset. In long-term infections, MHV-68 is associated with lymphoma development. In order to elucidate the mechanisms underlying the proliferative processes, the events following infection of murine splenocytes or purified murine B lymphocytes in vitro have been examined. MHV-68 infection prolonged the viability of murine splenocytes and stimulated cellular proliferation. Unlike Epstein–Barr virus and herpesvirus saimiri, MHV-68 did not cause growth transformation. Growth transformation did not occur even when cells with a predisposition to transformation were infected or when culture conditions were selected to enhance the viability of the cells. Following MHV-68 infection, the latency-associated viral tRNAs were transcribed. However, transcription of the other known latency- associated gene, M2, was not observed. In addition, there was no evidence of productive virus replication either by staining with antibodies specific for late virus antigens or by in situ hybridization for early and late mRNAs. In contrast to Epstein–Barr virus- and herpesvirus saimiri-infected lymphocytes, where episomal genomes are seen, Gardella gel analysis indicated that the primary lymphocytes infected by MHV-68 in vitro contained only linear virus DNA. This DNA was nuclease sensitive, indicating that, while MHV-68 was efficiently uncoated, its circularization in vitro was extremely inefficient. These results are discussed in terms of the host–virus interaction.
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The murine gammaherpesvirus-68 M11 protein inhibits Fas- and TNF- induced apoptosis
More LessThe murine gammaherpesvirus-68 (MHV-68) M11 gene encodes a protein predicted to have limited homology to the bcl-2 family of proteins. Unlike most of the other viral bcl-2 homologues, which have both BH1 and BH2 domains conserved with respect to bcl-2, the M11 protein has a BH1 domain, but apparently lacks a BH2 domain. Transfection of HeLa cells with an epitope-tagged MHV-68 M11 construct showed that the protein is predominantly located in the cytoplasm of cells. In HeLa cells, M11 inhibited apoptosis induced by anti-Fas antibody and by TNF-α. Thus, despite its limited conservation with respect to other bcl-2 family members, the MHV-68 M11 protein is a potent inhibitor of apoptosis.
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Analysis of Epstein–Barr virus (EBV) nuclear antigen 1 subtypes in EBV-associated lymphomas from Brazil and the United Kingdom
EBNA-1 is the only viral protein consistently expressed in all cells latently infected by Epstein–Barr virus (EBV). There is a high frequency of sequence variation within functionally important domains of EBNA-1, with five subtypes identified. Individuals may be infected with multiple EBV strains (classified according to EBNA-1 subtype), but Burkitt’s lymphoma (BL) tumours carry a single subtype and exhibit some subtype preference. Subtype variation has also been related to geographical location. In the present study EBNA-1 polymorphisms were examined in a series of haematological malignancies from two distinct geographical regions, Brazil and the United Kingdom. Nucleotide sequence analysis of the carboxy-terminal region of EBNA-1 in 34 cases revealed six distinct sequences, some of which are novel. A new subtype, named V-Ala, was identified. EBNA-1 subtype in tumours differed markedly according to geographical location. In contrast to previous studies, we found evidence of EBNA-1 sequence variation within individual BL tumour samples.
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Characterization of the Epstein–Barr virus BALF2 promoter
More LessBALF2, which encodes the major DNA-binding protein of Epstein–Barr virus (EBV), is expressed during the early stage of the lytic cycle. The location of the BALF2 promoter was identified by primer extension, which indicated that the transcription start is located at nucleotide 164,782 of the EBV genome. Transfection analyses revealed that, similar to other EBV early promoters, the BALF2 promoter is activated by the EBV-encoded transcription factors Rta and Zta. The promoter is also synergistically activated if both transcription factors are present in B lymphocytes and in epithelial cells. Deletion analysis and electrophoretic mobility-shift assay revealed that the region between nucleotides −134 and −64 contains Zta- response elements and the region between nucleotides −287 and −254 contains Rta-response elements. This study demonstrates the importance of Rta and Zta in regulating the transcription of EBV early genes.
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A model for vaccinia virus pathogenesis and immunity based on intradermal injection of mouse ear pinnae
More LessVaccinia virus (VV) proteins that interfere with the host response to infection are of interest because they provide insight into virus–host relationships and may affect the safety and immunogenicity of recombinant VV (rVV) vaccines. Such vaccines need assessment in animal models and with this aim a model of VV infection based on intradermal injection of BALB/c ear pinnae was developed and characterized. In this model, the outcome of infection is affected by the dose of virus inoculated but virus spread is minimal and the mice suffer no signs of systemic illness. Cellular and humoral immune responses to these infections were measured readily and were independent of virus dose over a 100-fold range. Thus the model seems suitable for the analysis of the safety and immunogenicity of VV mutants lacking specific immunomodulatory proteins or bearing foreign antigens.
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- Insect
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The nucleopolyhedroviruses of Rachiplusia ou and Anagrapha falcifera are isolates of the same virus
More LessThe 7·8 kb EcoRI-G fragment of Rachiplusia ou multicapsid nucleopolyhedrovirus (RoMNPV), containing the polyhedrin gene, was cloned and sequenced. The sequence of the fragment was 92·3% identical to the sequence of the corresponding region in the Autographa californica (Ac)MNPV genome. A comparison of the EcoRI-G sequence with other MNPV sequences revealed that RoMNPV was most closely related to AcMNPV. However, the predicted amino acid sequence of RoMNPV polyhedrin shared more sequence identity with the polyhedrin of Orygia pseudotsugata MNPV. In addition, the RoMNPV sequence was almost completely identical (99·9%) to a previously published 6·3 kb sequence of Anagrapha falcifera MNPV (AfMNPV). The Eco RI and HindIII restriction fragment profiles of RoMNPV and AfMNPV also were nearly identical, with an additional EcoRI band detected in RoMNPV DNA. Bioassays of these viruses with three different hosts (the European corn borer, Ostrinia nubilalis H übner, the corn earworm, Helicoverpa zea Boddie, and the tobacco budworm, Heliothis virescens Fabricius) failed to detect any differences in the biological activities of RoMNPV and AfMNPV. These results indicate that RoMNPV and AfMNPV are different isolates of the same virus. The taxonomic relationship of Ro/AfMNPV and AcMNPV is discussed.
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- Plant
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Role of the beet western yellows virus readthrough protein in virus movement in Nicotiana clevelandii
More LessLuteoviruses such as beet western yellows polerovirus (BWYV) are confined to and multiply within the phloem compartment of their hosts. The readthrough domain (RTD) of the minor BWYV capsid protein P74 is required for efficient virus accumulation in Nicotiana clevelandii. Experiments were carried out to determine if the low virus titres observed following agro-inoculation of whole plants with certain RTD mutants are due to a defect in virus multiplication in the nucleate cells of the phloem compartment or to inefficient virus movement to new infection sites. Immuno-localization of wild-type and an RTD-null mutant virus in thin sections of petioles and in phloem cells of leaf lamina, as well as electron microscopy observations, were all consistent with the conclusion that the RTD is not essential for efficient virus multiplication in the nucleate phloem cells but intervenes in virus movement to increase the rate at which new infection foci are established and expand.
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Complete sequence of RNA 1 and the presence of tRNA-like structures in all RNAs of Potato mop-top virus, genus Pomovirus
More LessThe complete nucleotide sequence (6043 nt) of RNA 1 from Potato mop-top virus (PMTV-Sw), the type member of the genus Pomovirus, was determined. The first (5′-terminal) open reading frame (ORF 1) encodes a predicted protein of 148 kDa. ORF 2 extends through the opal stop codon of ORF 1 producing a predicted readthrough protein of 206 kDa which resembles the RNA-dependent RNA polymerases (RdRp) of other fungal-transmitted viruses. It includes a methyltransferase, a helicase and a GDD RdRp motif, respectively. Phylogenetic analyses of RdRps indicated that PMTV is most closely related to Beet soil-borne virus (genusPomovirus), Broad bean necrosis virus (genus Pomovirus) and Soil-borne wheat mosaic virus (genus Furovirus), and is more distantly related to the other viruses of the former furovirus group. The 5′ and 3′ termini of RNA 1 in PMTV contained untranslated regions (UTR) of 114 nt and 489 nt, respectively. The 3′-UTR of RNA 1 contained a tRNA-like structure, which has previously been reported in the 3′-UTR of RNA 2 but not RNA 3. However, in this study, the tRNA-like structure was also found in the 3′-UTR of RNA 3, which confirms its presence in the 3′-UTRs of all three RNAs of PMTV.
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Resistance of Capsicum annuum ‘Avelar’ to pepper mottle potyvirus and alleviation of this resistance by co-infection with cucumber mosaic cucumovirus are associated with virus movement
More LessCapsicum annuum cv. Avelar plants resist systemic infection by the Florida isolate of pepper mottle potyvirus (PepMoV-FL). Immuno-tissue blot analysis for detection of PepMoV-FL infection in selected stem segments revealed that virus moved down the stem in external phloem, and, over time, accumulated to detectable levels throughout stem sections (appearing to accumulate in external and internal phloem) taken from below the inoculated leaf. At 21 days post-inoculation, PepMoV-FL was detected in stem segments one or two internodes above the inoculated leaf; however, no virus was observed in internal phloem in stem segments beyond these internodes. In contrast to these observations, PepMoV-FL was detected in the internal phloem of all internodes of the stem located above the inoculated leaf, with subsequent movement into non-inoculated leaves, in Avelar plants co-infected with PepMoV-FL and cucumber mosaic cucumovirus (CMV-KM). No apparent enhancement of PepMoV-FL accumulation occurred in protoplasts inoculated with PepMoV-FL alone versus a mixed inoculum of PepMoV-FL and CMV-KM. These findings confirm earlier observations that potyvirus movement up the stem of Capsicum species occurs via internal phloem. It is also shown that PepMoV-FL does not accumulate to detectable levels in internal phloem in the stem of Avelar plants, thereby limiting its movement to within the inoculated leaf and lower portions of the stem; however, co-infection of Avelar plants with CMV-KM alleviates this restricted movement, allowing PepMoV-FL to invade young tissues systemically.
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- Other Agents
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Oral transmission and early lymphoid tropism of chronic wasting disease PrPres in mule deer fawns (Odocoileus hemionus )
Mule deer fawns (Odocoileus hemionus) were inoculated orally with a brain homogenate prepared from mule deer with naturally occurring chronic wasting disease (CWD), a prion-induced transmissible spongiform encephalopathy. Fawns were necropsied and examined for PrP res, the abnormal prion protein isoform, at 10, 42, 53, 77, 78 and 80 days post-inoculation (p.i.) using an immunohistochemistry assay modified to enhance sensitivity. PrPres was detected in alimentary-tract-associated lymphoid tissues (one or more of the following: retropharyngeal lymph node, tonsil, Peyer’s patch and ileocaecal lymph node) as early as 42 days p.i. and in all fawns examined thereafter (53 to 80 days p.i.). No PrPres staining was detected in lymphoid tissue of three control fawns receiving a control brain inoculum, nor was PrPres detectable in neural tissue of any fawn. PrPres-specific staining was markedly enhanced by sequential tissue treatment with formic acid, proteinase K and hydrated autoclaving prior to immunohistochemical staining with monoclonal antibody F89/160.1.5. These results indicate that CWD PrP res can be detected in lymphoid tissues draining the alimentary tract within a few weeks after oral exposure to infectious prions and may reflect the initial pathway of CWD infection in deer. The rapid infection of deer fawns following exposure by the most plausible natural route is consistent with the efficient horizontal transmission of CWD in nature and enables accelerated studies of transmission and pathogenesis in the native species.
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PrP genotypes of captive and free-ranging Rocky Mountain elk (Cervus elaphus nelsoni) with chronic wasting disease
The PrP gene encodes the putative causative agent of the transmissible spongiform encephalopathies (TSEs), a heterogeneous group of fatal, neurodegenerative disorders including human Creutzfeldt–Jakob disease, bovine spongiform encephalopathy, ovine scrapie and chronic wasting disease (CWD) of North American deer and elk. Polymorphisms in the PrP gene are associated with variations in relative susceptibility, pathological lesion patterns, incubation times and clinical course of TSEs of humans, mice and sheep. Sequence analysis of the PrP gene from Rocky Mountain elk showed only one amino acid change (Met to Leu at cervid codon 132). Homozygosity for Met at the corresponding polymorphic site (Met to Val) in humans (human codon 129) predisposes exposed individuals to some forms of Creutzfeldt–Jakob disease. In this study, Rocky Mountain elk homozygous for PrP codon 132 Met were over-represented in both free- ranging and farm-raised CWD-affected elk when compared to unaffected control groups.
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Volumes and issues
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Volume 105 (2024)
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