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Volume 74,
Issue 1,
1993
Volume 74, Issue 1, 1993
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Cell-to-cell transmission of human immunodeficiency virus infection induces two distinct phases of viral RNA expression under separate regulatory control
More LessA cell clone persistently infected with human T cell-lymphotrophic virus type IIIB (H3B cells) contained mainly the multiply spliced (2 kb) and singly spliced (4∙3 kb) species of human immunodeficiency virus (HIV) RNA. When H3B cells were co-cultured with susceptible HUT78 cells, cell fusion occurred within 4 h of cell mixing and was accompanied by a marked increase of the unspliced full-length (9∙2 kb) HIV RNA. This first phase of viral RNA induction (4 to 12 h post-infection) was followed by a second phase of viral RNA synthesis from 24 h p.i. in which there were significant increases in all three species of HIV RNA. Reverse transcriptase (RT) inhibitors such as azidothymidine (AZT) at concentrations that abolished de novo HIV DNA synthesis, abolished the first phase but not the second phase of viral RNA synthesis in our model system. A comparable one-step cell-free virus infection showed a pattern of viral RNA synthesis similar to that of the cell-to-cell transmission of infection. However, viral RNA synthesis following cell-free virus infection was totally inhibited by RT inhibitors. The early phase (4 to 12 h) expression of 9∙2 kb HIV RNA is likely to use newly synthesized HIV DNA as template; during this phase, HIV RNA and DNA syntheses occur simultaneously, with each process being dependent on the other for maximal yield. During the later (24 to 48 h) phase, all three HIV RNA species may be transcribed at least in part from proviral DNA from the original donor cells. This later phase may privide one of the mechanisms for natural spread of virus to new cells and for enhanced viral gene expression in vivo, despite the presence of AZT.
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Importance of 3´ non-coding sequences for efficient retrovirus-mediated gene transfer in avian cells revealed by self-inactivating vectors
More LessAvian leukosis virus-derived vectors were constructed with an internal transcriptional promoter and various 3ʹ non-coding sequences. Deletions were introduced into the downstream U3 long terminal repeat (LTR) to obtain self-inactivation of LTR-mediated transcription after one round of replication. However, 3ʹ non-coding sequences appeared to determine not only self-inactivation of the vectors but also gene transfer efficiency. Further analysis revealed the influence of these sequences on both internal gene expression and RNA packaging. One construct permitted gene transfer while inactivating 5ʹ LTR-promoted transcription.
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Viable double vaccinia virus recombinants with the non-inducible phage T7 expression system
More LessDouble vaccinia virus recombinants expressing both the T7 RNA polymerase gene, controlled by a weak early poxvirus PF promoter, and the Escherichia coli β-galactosidase gene, controlled by the phage T7 promoter, have been obtained. The viability of the double recombinants depended on the T7 RNA polymerase expression level. If the T7 RNA polymerase gene was inserted into a recombinant already containing the β-galactosidase gene, the efficiency of formation of the double recombinants was significantly higher compared to that for the reverse insertion order. The negative effect of the phage T7 terminator on β-galactosidase expression in cells infected with the recombinant viruses has been shown. The dynamics and levels of β-galactosidase formation by different vaccinia virus recombinants have been studied.
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Insertional inactivation of a fowlpox virus homologue of the vaccinia virus F12L gene inhibits the release of enveloped virions
More LessInsertion of the Escherichia coli lacZ gene into a ClaI restriction enzyme site of a 5∙7 kb HindIII fragment of the fowlpox virus (FPV) genome resulted in the generation of stable recombinants. These recombinants produced plaques that were significantly smaller than those produced by parental FPV or by FPV recombinants containing the lacZ gene at other non-essential sites. Insertion of foreign DNA into the ClaI site disrupts a previously unidentified open reading frame (ORF) which potentially encodes a 74K polypeptide. The predicted amino acid sequence of this FPV ORF has 24% identity with the F12L ORF of vaccinia virus, the function of which is not currently known. Production of intracellular FPV was similar in cells infected with recombinant or parental viruses, but the number of infectious extracellular virions released into the medium by the recombinant was about 20% of that released by the parental virus. Likewise, the release of FPV particles, which were labelled in vivo with [3H]thymidine, was significantly lower in recombinant FPV-infected cells. These results suggest that the FPV homologue of the vaccinia virus F12L ORF is involved in the envelopment or release of infectious extracellular virions.
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Herpes simplex virus ICP0 and ICP4 immediate early proteins strongly enhance expression of a retrovirus harboured by a leptomeningeal cell line from a patient with multiple sclerosis
More LessA leptomeningeal cell line (LM7) harbouring an unknown retrovirus was recently isolated from the cerebrospinal fluid of a patient with multiple sclerosis. However, spontaneous expression of the LM7 retrovirus in this primary culture is quite low. We present results showing that in vitro infection of LM7 cells with herpes simplex virus type 1 (HSV-1), but not that of control cells, results in (i) potent stimulation of the specific reverse transcriptase (RT) activity detected in the culture supernatant and (ii) co-expression of both typical HSV-1 virions and abundant retrovirus-like particles. Transfection of LM7 cells with plasmids expressing HSV-1 immediate early (IE) ICP0 and ICP4 proteins produced a similar enhancement of RT activity in culture supernatants with retrovirus-like particles being identifiable by electron microscopy. These effects were not observed with a plasmid expressing ICP27 or with the parental plasmid in LM7 cells, nor with any of these four plasmids in control cells. These results show that HSV IE trans-activating proteins strongly enhance the expression of the latent retrovirus present in LM7 cells. The possible role in vivo of herpesviruses as ‘triggering’ cofactors in the retrovirus hypothesis for multiple sclerosis aetiology is also discussed.
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Identification of the cell surface receptor for bovine viral diarrhoea virus by using anti-idiotypic antibodies
More LessWe have produced and characterized polyclonal anti-idiotypic antibodies (anti-ids) that mimic the antigenic structures of gp53 from bovine viral diarrhoea virus (BVDV). In this study, the anti-ids were used to identify cell receptors for BVDV. The anti-ids bound specifically to bovine cells, as determined by flow cytometric analysis, and inhibitory binding assays showed that they bound to the cell surface receptors for BVDV. A cell surface protein with an M r of approximately 50K was immunoprecipitated by the anti-ids from MDBK cells; this was blocked by preincubation of cell lysate with BVDV. This indicates that the 50K protein might be a specific receptor for BVDV gp53. Thirteen BVDV strains were used to evaluate inhibition of anti-id binding to MDBK cells and inhibition of BVDV infection of anti-id-treated MDBK cell monolayers. Results demonstrated that both processes were inhibited to varying degrees depending on virus strain. The results suggested that multiple receptors for BVDV attachment may exist on MDBK cells, and that different virus strains do not have the same receptor.
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Characterization of African horsesickness virus serotype 4-induced polypeptides in Vero cells and their reactivity in Western immunoblotting
More LessThe structural and non-structural proteins induced by African horsesickness virus serotype 4 (AHSV-4) in infected Vero cells were analysed by SDS–PAGE. Twenty-two virus-induced polypeptides were detected in infected cells by comparison with the polypeptides of mock-infected cells, of which four major (VP2, VP3, VP5 and VP7) and three minor (VP1, VP4 and VP6) structural proteins and four non-structural proteins (P58, P48, P21 and P20) were shown to be virus-coded, as deduced from electrophoretic and antigenic studies of purified virions and infected cells. The proteins that elicit the major antibody responses both in vaccinated and naturally or experimentally infected horses were shown to be three structural proteins, VP2, VP5 and VP7, and the four major non-structural proteins, P58, P48, P21 and P20, as deduced by radioimmuno-precipitation and immunoblotting assays. The cross-reactivity between AHSV-4 and sera obtained from horses experimentally infected with seven other serotypes was also determined. The results showed that VP5, VP7, P48, P21 and P20 are conserved and can be used to diagnose the infection of any of these eight serotypes.
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Immunoreactivity and protective effects in mice of a recombinant dengue 2 Tonga virus NS1 protein produced in a baculovirus expression system
More LessThe double-stranded replicative form of dengue 2 virus (DEN-2) RNA (Tonga strain) was used as a substrate to produce DNA clones of the NS1–NS2A genes via reverse transcriptase synthesis of full length cDNA followed by polymerase chain reaction amplification of the NS1–NS2A region. Products were cloned into pTZ18R for sequencing and into baculovirus for expression studies. The deduced amino acid sequence of the NS1–NS2A was almost identical to that of the S1 attenuated strain of DEN-2 Puerto Rico 159, differing in only four amino acids. The NS1 protein expressed in insect cells [Spodoptera frugiperda (Sf-9)] from the baculovirus recombinant was indistinguishable from authentic NS1 of DEN-infected Aedes albopictus cells in glycosylation, dimerization, cellular presentation and antigenicity. Mice injected with the expressed protein developed NS1-specific complement-fixing antibodies and were partially protected against neurological residua after intracranial challenge. The protective effect was mouse strain- and gender-specific.
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Expression of Bombyx mori cytoplasmic polyhedrosis virus polyhedrin in insect cells by using a baculovirus expression vector, and its assembly into polyhedra
More LessA cDNA encoding the cytoplasmic polyhedrin of Bombyx mori cytoplasmic polyhedrosis virus (BmCPV) strain H was introduced into an improved baculovirus expression vector which can be utilized to express foreign genes in the Spodoptera frugiperda cell line IPLB-SF-21AE (Sf21 cells) and the B. mori cell line BmN. A recombinant virus produced large, cubic inclusion body-like structures in infected Sf21 and BmN cells. Western blot analysis showed that these structures were BmCPV polyhedra. This result suggested that the supramolecular assembly of BmCPV polyhedrin is responsible for its properties.
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Immunocytochemical characterization of p24, a baculovirus capsid-associated protein
More LessAn open reading frame (ORF 1) located upstream of the polyhedron envelope protein gene in the Orgyia pseudotsugata multinucleocapsid nuclear polyhedrosis virus (OpMNPV) genome was cloned in-frame into a trpE bacterial expression vector. The fusion protein produced by this construct was used for the preparation of a monospecific antiserum. Western blot analysis of extracts from OpMNPV-infected Lymantria dispar cells and Autographa californica NPV (AcMNPV)-infected Spodoptera frugiperda cells detected a 24K protein late in infection. This antiserum also reacted with a 24K protein in preparations of budded and polyhedra-derived virus from OpMNPV and AcMNPV. The 24K protein was not N-glycosylated. Immunoelectron microscopy confirmed that the OpMNPV p24 is associated with nucleocapsids of budded and polyhedra-derived virions.
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Sequencing and antigenic studies of a Norwegian virus isolated from encephalomyelitic sheep confirm the existence of louping ill virus outside Great Britain and Ireland
We have carried out an antigenic analysis and nucleotide sequence comparison of the envelope glycoprotein of recognized louping ill virus strains isolated from Scotland with that of a Norwegian virus known to cause encephalomyelitis in sheep. Monoclonal antibodies with defined specificity for the louping ill virus envelope glycoprotein failed to distinguish between the Norwegian virus and prototype louping ill virus in indirect immunofluorescence, haemagglutination inhibition and neutralization tests. Nucleotide sequencing of the envelope glycoprotein and alignment of the deduced amino acid sequence with other known sequences revealed that the Norwegian virus closely resembles (> 95% identity for nucleotide and > 98% identity for amino acid sequences) louping ill virus. Maximum variation in identities among four strains of louping ill virus were 4∙4% and 1∙8% respectively for nucleotide and amino acid alignments. We conclude that sheep encephalomyelitis in Norway is caused by louping ill virus. These results imply that other viruses present in Europe and known to cause encephalitis/encephalomyelitis of sheep could be caused by louping ill virus.
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Comparison of the binding of the human papillomavirus type 16 and cottontail rabbit papillomavirus E7 proteins to the retinoblastoma gene product
More LessBinding of the human papillomavirus type 16 (HPV-16) E7 oncoprotein to the retinoblastoma protein (pRb) is thought to be involved in the cellular transformation mediated by HPV-16. Here we show that the E7 protein of the cottontail rabbit papillomavirus (CRPV) binds to the same C-terminal portion of human pRb as HPV-16 E7, and that both the CRPV and HPV-16 E7 proteins bind specifically through similar domains to rabbit pRb. Furthermore, a single amino acid substitution which reduces the binding of HPV-16 E7 to human pRb also abolishes binding of CRPV E7 to both human and rabbit pRb. The biochemical similarities observed between the HPV-16 and CRPV E7 proteins suggest that they are functionally conserved. These results further validate the use of CRPV as an animal model for the study of HPV-mediated disease.
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Regulation of human papillomavirus type 16 (HPV-16) transcription by loci on the short arm of chromosome 11 is mediated by the TATAAAA motif of the HPV-16 promoter
More LessThe human papillomavirus type 16 (HPV-16) enhancer–promoter is virtually inactive in normal human diploid fibroblasts, but active in human fibroblasts with a deletion in the short arm of one chromosome 11 (del-11 cells). Since the HPV-16 enhancer with the simian virus 40 promoter is active in both cell types, the target for chromosome 11-regulated HPV-expression is likely to be located in the HPV-16 early promoter region (nucleotides 57 to 112). We show here that DNA–protein complexes formed with an HPV-16 promoter fragment are quantitatively different in del-11 cell and diploid cell extracts. This quantitative difference detected in band shift experiments disappeared upon mutation of the HPV-16 TATAAAA box to TATTTAT. This mutation also strongly reduced the activity of the HPV-16 enhancer–promoter in del-11 cells. These results indicate that TATA-binding proteins are involved in the chromosome 11-mediated regulation of HPV-16 gene expression.
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Distinct segments of the hamster polyomavirus regulatory region have differential effects on DNA replicatio
More LessThe replication of plasmids containing various fragments of the hamster polyomavirus (HaPV) DNA non-coding region was tested in a permissive hamster cell line. We first investigated the importance of some methodological parameters including the time course and the amount of transfecting plasmid DNA and have shown that these factors can greatly influence the relative amount of newly replicated DNA accumulated within the transfected cells. Taking these into account, quantitative comparisons could be made showing the effect of various parts of the regulatory sequence on the HaPV DNA replication.
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Host cell membrane proteins on human immunodeficiency virus type 1 after in vitro infection of H9 cells and blood mononuclear cells. An immuno-electron microscopic stud
Human immunodeficiency virus type 1 (HIV-1)-infected H9 and blood mononuclear cells (MNCs) were studied by immunogold electron microscopy for the presence of HIV-1 gag p24 protein, env gp41 and gp120 proteins, and host cell molecules CD4, CD11a, CD25, CD54, CD63, HLA class I and HLA-DR. Uninfected H9 cells and MNC membranes labelled for CD4, HLA class I and class II, and, at low density, CD11a and CD54; lysosomal structures in the cytoplasm labelled for CD63. The infected cell surface showed immunolabelling for HIV-1 proteins, as did budding particle-like structures. Immunogold labelling of the cell membrane for CD4 was almost non-existent. The level of immunolabelling for CD11a and CD54 on infected cells was greater than that on uninfected cells; this is presumably related to a state of activation during virus synthesis. Budding particle-like structures and free virions in the intercellular space were immunogold-labelled for all host cell markers investigated. This was confirmed by double immunogold labelling using combinations of HIV-1 gag p24 labelling and labelling for the respective host cell molecule. We conclude that virions generated in HIV-1-infected cells concentrate host-derived molecules on their envelope. Also molecules with a prime function in cellular adhesion concentrate on the virion.
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Molecular cloning and characterization of a Sendai virus internal deletion defective RN
More LessA small defective Sendai virus RNA was selectively amplified from a virus preparation obtained after serial undiluted passages in embryonated eggs. Preliminary characterization showed that this defective RNA was a true internal deletion defective RNA, containing the 5′ and 3′ ends of the non-defective viral genomic RNA. Cloning of this RNA after reverse transcription and polymerase chain reaction amplification was performed in such a way that an exact copy of the defective RNA could be obtained by transcription of the plasmid with T7 RNA polymerase. Sequence analysis of the plasmid allowed further characterization of the defective RNA. It was shown potentially to encode a C-terminally truncated nucleocapsid (NP) protein of 162 amino acids. This truncated NP protein was identified in cells naturally infected with the defective virus preparation. Moreover the protein produced was shown to correspond to the protein synthesized in vitro from the T7 polymerase transcript of the cloned defective genome.
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Antibody response to the M2 protein of influenza A virus expressed in insect cell
More LessA recombinant baculovirus expressing the M2 protein from influenza A/Ann Arbor/6/60 (H2N2) virus (AA60 virus) was constructed. The expressed M2 protein was recognized by a monoclonal antibody specific for the M2 protein and comigrated with the M2 protein from cells infected with AA60 virus on SDS–polyacrylamide gels. Immunofluorescence studies indicated that the expressed M2 protein was present on the surface of Spodoptera frugiperda (Sf9) cells infected with the recombinant baculovirus. Immunoassays using the expressed M2 protein were able to detect antibodies to the M2 protein in serum samples from humans and ferrets infected with influenza A viruses.
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The chimeric nature of the genome of pea enation mosaic virus: the independent replication of RNA 2
More LessThe genome of pea enation mosaic virus (PEMV) consists of two plus-sense RNAs, both of which are required for mechanical transmission. RNA 1 (5706 nucleotides) has strong sequence similarity with members of the luteovirus group, a similarity with members of the luteovirus group, a similarity that is also manifested in the symptomatology, cytopathology and vector transmission of this virus. RNA 2 (4253 nucleotides) is hypothesized to facilitate systemic invasion and mechanical transmission, attributes that distinguish PEMV from the phloem-limited luteoviruses. Sequence analysis of RNA 2 has demonstrated that PEMV is unique among multicomponent viruses in that it lacks 3′- and 5′-terminal homology between its genomic RNAs. Sequence analysis of RNA 2 has identified an open reading frame encoding a putative product of 65K that contains a series of polymerase-like motifs typical of viral RNA-dependent RNA polymerases. This protein sequence lacks homology with the polymerase encoded on RNA 1 of PEMV, instead being more closely affiliated with the polymerases of viruses related to the carmo- and tombusvirus groups. Inoculation of pea protoplasts with RNA transcripts derived from a full-length cDNA clone of RNA 2 has demonstrated that RNA 2 replicates autonomously in the absence of RNA 1, although comparable inoculation of whole plants failed to establish a systemic infection. There is no evidence that RNA 2 encodes structural proteins, suggesting that encapsidation functions are supplied in trans by RNA 1, comparable to the helper-dependent complexes occurring within the luteovirus group. These data suggest that the PEMV genome can be characterized as a symbiotic association of two taxonomically distinct viral RNAs cooperatively interacting in the establishment of a systemic virus infection.
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An analysis of the complete sequence of a sugarcane bacilliform virus genome infectious to banana and rice
More LessThe genome of sugarcane bacilliform virus (ScBV), a badnavirus, consists of a circular dsDNA. The complete sequence of a cloned infective ScBV genome is reported here. The genome is 7568 bp in size and possesses a number of features suggesting that ScBV is a pararetrovirus. A tRNAMet-binding site that may serve as a primer for minus-strand synthesis is present. The plus-strand of the ScBV genome contains three open reading frames (ORFs) which are capable of encoding proteins with calculated M r values of 22K, 13K and 215K. The 215K protein has regions with similarity to the RNA-binding domains, aspartic proteases and replicases of retroelements. In addition, the 215K protein also has a region with restricted similarity to the intercellular transport proteins of plant viruses. Comparisons with the other sequenced badnaviruses, Commelina yellow mottle (CoYMV) and rice tungro bacilliform (RTBV) viruses, indicate that the arrangement of the ORFs in these viruses is conserved. Located next to the putative RNA-binding domain is a cysteine-rich region that is unique to the badnaviruses. When the molecular relationships of a portion of the reverse transcriptases of plant pararetroviruses were determined, two badnaviruses, CoYMV and ScBV, form one distinct cluster, whereas three caulimoviruses, cauliflower mosaic virus, carnation etched ring virus and figwort mosaic virus, form a second cluster. The badnavirus RTBV and the caulimovirus soybean chlorotic mottle virus occupy intermediate positions between the clusters. When introduced by Agrobacterium-mediated inoculation, a construct containing 1.1 copies of the cloned ScBV genome is infectious to both rice and banana.
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Pseudorecombination between infectious cloned DNA components of tomato mottle and bean dwarf mosaic geminiviruses
A newly described whitefly-transmitted geminivirus infecting tomato plants in Florida induces yellow mottling symptoms on leaves, and stunted and distorted growth. The DNA-A and DNA-B components were cloned from extracts of field-infected tomato tissue; excised monomers or uncut tandem dimers of these clones were infectious when co-inoculated on to Nicotiana benthamiana by rub-inoculation. Tomato plants inoculated directly with the DNA-A and DNA-B dimers, or indirectly by sap or graft transmission from N. benthamiana plants previously infected with the dimers, developed symptoms similar to those observed in field-infected plants. This tomato geminivirus is different from previously characterized geminiviruses, and has been named tomato mottle geminivirus (ToMoV). DNA sequence comparisons revealed that ToMoV is closely related to bean dwarf mosaic geminivirus (BDMV) and abutilon mosaic geminivirus. Infectious pseudorecombinants were made by exchanging the cloned infectious DNA components of ToMoV and BDMV and inoculating N. benthamiana plants. The presence of the inoculated DNA components in systemically infected plants was confirmed by characterization of DNA-A and DNA-B fragments amplified by the polymerase chain reaction. This is the first report of pseudorecombination between two distinct geminiviruses. The implications of this finding in geminivirus evolution are discussed.
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