- Volume 77, Issue 12, 1996
Volume 77, Issue 12, 1996
- Review Article
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Variation on a theme of Creutzfeldt-Jakob disease: implications of new cases with a young age at onset
More LessCreutzfeldt-Jakob disease (CJD) belongs to a group of human and animal diseases, distinguished from each other by differences in their clinical and neuropathological presentation or aetiology, but known collectively as the prion diseases. Prion diseases are unique amongst transmissible diseases in that the transmissible ‘agent’ does not appear to contain any nucleic acid and the only protein known to be associated with infectivity is host-coded. Prion disease is endemic in certain species, notably humans and sheep. It has also appeared in epidemic form in humans: for example, amongst tribal peoples of Papua New Guinea, where the disease is known as kuru, and in Western societies as a consequence of iatrogenic misadventure. Epidemic prion disease also occurs in animals: for example, in cattle [as the current epidemic of BSE (bovine spongiform encephalopathy) in Britain (Wells & Wilesmith, 1995)] and in farmed mink (Marsh, 1992).
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- SGM Special Lecture
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Biological consequences of human immunodeficiency virus type 1 envelope polymorphism: does variation matter?
More LessHuman immunodeficiency virus type 1 (HIV-1) establishes persistent infections in humans, in most cases leading to the development of AIDS. HIV-1 infects CD4+ lymphocytes, monocytes and dendritic cells in the peripheral blood and lymphoid organs, and microglia in the central nervous system (Gartner et al., 1986; Koenig et al., 1986; Pope et al., 1994). This virus tropism correlates with expression of the cell surface antigen CD4, which has been shown to be the principal receptor interacting with the virus surface glycoprotein, gp 120 (Dalgleish et al., 1984; Klatzmann et al., 1984). However, cell surface expression of CD4 alone is not sufficient to confer susceptibility to infection by HIV-1. Recently, several members of the chemokine receptor family of G-protein coupled seven transmembrane spanning proteins were identified as additional coreceptors (Alkhatib et al., 1996; Choe et al., 1996; Deng et al., 1996; Doranz et al., 1996; Dragic et al., 1996; Feng et al., 1996).
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- Articles
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- Animal
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- RNA viruses
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A novel neutralization epitope on the ‘thumb’ subdomain of human immunodeficiency virus type 1 reverse transcriptase revealed by a monoclonal antibody
We have prepared a MAb, 7C4, which inhibits the RNA-dependent DNA polymerase activity of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT); this MAb has allowed identification of a previously unknown neutralizing epitope of RT. Analysis of the epitope and of the mechanism of polymerase inhibition revealed that 7C4 acts by interfering with the interaction between RT and the template-primer. 7C4 recognizes a discontinuous epitope on the two α-helices, αH and αI, that make up the ‘thumb’ subdomain of RT. The existing crystallographic model of HIV-1 RT suggests that the ‘thumb’ subdomain, together with the ‘fingers’ and ‘palm’, form a nucleic-acid-binding cleft in the 66 kDa subunit of RT and that αH is in contact with the primer strand of the template-primer. The extent of inhibition of enzyme activity produced by 7C4 correlates with the reported primer-length-dependency of template-primer binding to RT. Inhibition by 7C4 was competitive with respect to the template-primer and mixed with respect to the substrate. Binding of 7C4 to RT was prevented by preincubation of the enzyme with high concentrations of template-primer but not with substrate. Thus, the 7C4 epitope apparently exists on part of the template-primer binding site of the αH and αI regions of the ‘thumb’ subdomain. This neutralization epitope is a logical target for the development of new types of HIV-1 RT inhibitors.
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Two neutralizing anti-V3 monoclonal antibodies act by affecting different functions of human immunodeficiency virus type 1
Monoclonal antibody (MAb) ICR41.1i (rat IgG2a) is specific for a conformation-dependent epitope of human immunodeficiency virus type 1 (HIV-1) V3, and MAb F58 (mouse IgG1) recognizes the peptide IXXGPGR, at the tip of the V3 loop. Both MAbs neutralized HIV-1 strain IIIB in C8166 and HeLa-T4(CD4) cells. Neutralization by either MAb did not inhibit attachment of virus to target cells as determined by FACS analysis, ELISA or immuno-fluorescence, and such attachment was absolutely dependent on the availability of CD4 molecules. F58 inhibited virus-induced cell-cell fusion, and reduced internalization of virions in direct proportion to neutralization. In contrast, ICR41.1i had no effect on HIV-1-mediated cell fusion or on internalization of virus. It was concluded that MAb F58 neutralized infectivity by inhibiting fusion of the virus with the cell and internalization of the viral core, and that ICR41. 1i neutralized by inhibiting a post-fusion-internalization event. The possible mechanism by which a neutralizing antibody binds to the V3 loop and affects the function(s) of structures inside the virion is discussed. Lastly, post-attachment neutralization (PAN) was investigated. F58 mediated PAN at 21 °C and 35 °C. However, ICR41. 1i gave PAN at 21 °C but not at 35 °C, suggesting that a temperature-dependent event affecting the V3 loop had abrogated neutralization. Overall, it appears that antibodies to different epitopes within the V3 loop neutralize by affecting very different functions of the virus.
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In vitro cytocidal effects of human immunodeficiency virus type 1 Nef on unprimed human CD4+ T cells without MHC restriction
More LessWe have previously shown that the C-terminal region of human immunodeficiency virus type 1 (HIV-1) Nef antigen present on the outer surface of virus-infected cells has an affinity for uninfected T cells and that the Nef protein is responsible for T cell death. To exclude completely the possibility of MHC restriction of this cytotoxic activity, the in vitro cytotoxic potential of HIV-1 Nef against various CD4+ T cell lines as well as naive T lymphocytes was investigated using a baculovirus expression system. Insect cells expressing myristoylated Nef on their cell surface were shown to kill a proportion of CD4+ T cells within 8 h. However, N-terminal truncated and unmyristoylated Nef proteins were not present on the outer surface of insect cell membranes and failed to show any killing activity. Monoclonal antibodies against the C-terminal region of Nef inhibited cytolysis. Thus, we conclude that specific Nef-mediated cytolysis is induced by contact with unprimed CD4+ T lymphocytes without MHC restriction.
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CD8+ cells from asymptomatic human immunodeficiency virus-infected individuals suppress superinfection of their peripheral blood mononuclear cells
More LessMost human immunodeficiency virus (HIV)-infected individuals show evidence of infection by only one strain of the virus despite possible frequent contact with multiple strains. The reason(s) for the emergence of a dominant strain of virus in HIV-infected people and the mechanism(s) which prevent other strains from establishing an infection is not known. In the present study, we demonstrate that peripheral blood mononuclear cells (PBMC) of asymptomatic HIV-infected individuals can resist productive infection by HIV-1 and HIV-2 strains. Although the PBMC of these individuals are resistant to superinfection, their CD4+ cells are susceptible to infection. Moreover, two weeks after infection of their PBMC in culture, the superinfecting virus can be recovered from isolated CD4+ cells. When CD8+ cells from asymptomatic individuals are added to the superinfected CD4+ cells, replication of the exogenously introduced virus is inhibited. In contrast, PBMC from individuals who have progressed to disease (Progressors) do not resist superinfection and their CD8+ cells do not show the antiviral activity which controls productive HIV infection. These findings suggest that CD8+ cells suppressing HIV replication in infected individuals may be critical in preventing the establishment of infection by other strains of HIV by blocking virus replication.
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Effect of cyclosporin A on the replication cycle of human immunodeficiency virus type 1 derived from H9 and Molt-4 producer cells
More LessThe effect of cyclosporin A (CsA) on the replication of human immunodeficiency virus type 1 (HIV-1) was studied. CsA treatment inhibited virus production in chronically infected H9 and Molt-4 cells. CsA treatment of HeLaCD4-LTR/β-gal cells or extracellular viruses also inhibited infection (IC50 1 µg/ml). The intracellular CsA-binding molecule cyclophilin A was detected in HIV-1 derived from chronically infected H9 cells, but it was present at a substantially lower level in HIV-1 derived from chronically infected Molt-4 cells. The low level of cyclophilin A in viral particles derived from Molt-4 cells correlated well with their substantially lower infectivity as assayed on HeLaCD4-LTR/β-gal cells. CsA treatment of infected cells showed a dose-dependent reduction of cyclophilin A incorporation into virions; the amount of cyclophilin A incorporation was found to be dependent on the producer cell type.
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Rapid development of vaccine protection in macaques by live-attenuated simian immunodeficiency virus
Convincing data on experimental vaccines against AIDS have been obtained in the simian immuno-deficiency virus (SIV) macaque model by preinfection with a virus attenuated by a nef deletion. To investigate the efficacy of a nef deletion mutant of SIVmac32H called pC8 as a live-attenuated vaccine after shorter preinfection periods and to learn more about the nature of the immune protection induced, eight rhesus monkeys were infected intravenously with the pC8 virus. All monkeys became persistently infected, exhibiting low cell-associated viral loads, but strong cellular and, in terms of binding antibodies, strong humoral antiviral responses. Two of eight pC8-infected monkeys developed an immuno-deficiency and were not challenged. Sequence analysis of their nef revealed complete replenishment of the deletion. The other six monkeys, two preinfected for 42 weeks and four for 22 weeks, were challenged with pathogenic spleen-derived SIV. Complete protection was achieved in four vaccinees. Virus was consistently detected in two vaccinees from the 22-week-group challenge, however, they remained clinically healthy over a prolonged period. Protection from challenge virus infection or a delayed disease development seemed to be associated with a sustained SIV-specific T helper cell response after challenge. Thus, a sterilizing immunity against superinfection with pathogenic SIV can be induced even after a relatively short waiting period of 22 weeks. Nevertheless, such a vaccine raises severe safety concerns because of its potential to revert to virulence.
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Regulation of human endogenous retrovirus-K Gag expression in teratocarcinoma cell lines and human tumours
More LessHuman endogenous retrovirus-K (HERV-K) Gag protein is produced by both Tera 1 and PA-1 (ovarian teratocarcinoma) cells, but only Tera 1 cells release the protein in the form of particles. It was unclear how Gag production was regulated in these cell types. Although both Tera 1 and PA-1 cells express Gag, demethylation upon treatment with 5-azacytidine (5-AZC) or exposure to the chromatin-modifying agent n-butyrate resulted in an increase in Gag protein levels only in Tera 1 cells. Consistent with this cell type-specific over-expression of Gag in response to demethylation, exposure to 5-AZC caused undermethylation of the gag gene and adjacent 5′LTR only in Tera 1 but not PA-1 or Raji cells. Similarly and importantly, under-methylation of gag sequences and expression of Gag were also correlated in primary human testicular tumours. These results therefore suggest that endogenous retroviral elements are subject to regulation through the methylation of CpG dinucleotides.
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Jaagsiekte retrovirus establishes a disseminated infection of the lymphoid tissues of sheep affected by pulmonary adenomatosis
More LessJaagsiekte retrovirus (JSRV) is an exogenous type D-related retrovirus specifically associated with a contagious lung cancer of sheep (sheep pulmonary adenomatosis; SPA). Recently, epithelial tumour cells in the lungs of SPA-affected sheep were identified as major sites of JSRV replication by immunological techniques and RT-PCR amplification of part of JSRV gag. JSRV was not detected outside the lungs and their draining lymph nodes. However, low levels of JSRV expression in non-respiratory tissues could have been masked by co-amplification of endogenous JSRV-related sequences, which were differentiated from JSRV by the lack of a Scal restriction site in the PCR product. To further investigate the pathogenesis of SPA, an exogenous virus-specific hemi-nested PCR was developed utilizing primers in the U3 region of JSRV LTR, where major differences between endogenous and exogenous sequences exist. This technique was shown to be ⩾ 105-fold more sensitive than the previous gag PCR/Scal digestion method. Using this new assay the tissue distribution of JSRV in sheep with natural and experimentally induced SPA was analysed. Proviral DNA and JSRV transcripts were found in all tumours and lung secretions of SPA-affected sheep (n = 22) and in several lymphoid tissues. The mediastinal lymph nodes draining the lungs were consistently demonstrated to be infected by JSRV (10/10). JSRV transcripts were also detected in spleen (7/9), thymus (2/4), bone marrow (4/8) and peripheral blood mononuclear cells (3/7). Proviral DNA was also detected in these tissues although in a much lower proportion of cases. JSRV was not detected in 27 samples from unaffected control animals (n = 15).
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Sequence analysis and transcriptional activity of the LTR of OLV-CU1, a North American ovine lentivirus
More LessAlthough ovine lentiviruses have been described in the United States since the early part of this century, North American strains of sheep lentiviruses remain relatively uncharacterized at the molecular level. The LTR of a North American ovine lentivirus, OLV-CU1, was found to be closely related at the molecular and functional levels to visna virus, the Icelandic ovine lentivirus. Sequence analysis of the LTR revealed high identity to other ovine and caprine lentiviruses in key regulatory elements of the upstream promoter region (-25 to -115). However, the R region of the LTR was much less homologous. Transcriptional control of OLV-CU1 in transient transcriptional assays required a conserved putative AP-4 region and possibly an AP-1 like element in the upstream promoter region for moderate to high levels of transcription, much like visna virus. In contrast to visna virus, the down-stream region beyond the transcriptional start site was required for virus-specific transactivation.
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Trojan Horse macrophages: studies with the murine lactate dehydrogenase-elevating virus and implications for sexually transmitted virus infection
More LessPrevious studies have suggested that monocytes or macrophages may mediate internal virus spread. For the present study, the tissue distribution and infectious potential of dye-labelled and/or lactate dehydrogenase-elevating virus (LDV)-infected murine macrophages were determined. Murine peritoneal macrophages were labelled with the fluorescent carbocyanine tracking dye Dil, injected into mice, and the tissue distribution of Dil-labelled cells was determined by fluorescence analysis of frozen sections. Mice receiving intravenous (i.v.) or intraperitoneal injections of Dil-labelled macrophages displayed rapid and broad tissue distribution of the labelled cells. Intravaginal injection of Dil-labelled macrophages resulted in penetration into the placentas, but not the fetuses, of pregnant mice. When macrophages were LDV-infected and Dil-labelled prior to i.v. injection into pregnant mice, they homed to various tissues including the placenta, but were not found in fetuses. Intravaginal injection of LDV-infected macrophages resulted in systemic LDV infection, even though the free-virus dose was less than the minimum infectious dose by this route. Neither polyclonal nor monoclonal IgG anti-LDV antibodies protected mice from vaginal infection with cell-associated virus, and LDV-immune complexes were themselves infectious by the vaginal route. These results show that exogenous macrophages are widely distributed following parenteral injection, penetrate locally to placentas after intravaginal injection, and are capable of acting vaginally as relatively efficient virus infection-delivery vehicles. Thus, ‘Trojan Horse’ macrophages are potentially infectious vehicles both for internal virus spread and for animal-to-animal transmission.
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Evolutionary analysis of variants of hepatitis C virus found in South-East Asia: comparison with classifications based upon sequence similarity
Variants of hepatitis C virus (HCV) have been classified by nucleotide sequence comparisons in different regions of the genome. Many investigators have defined the ranges of sequence similarity values or evolutionary distances corresponding to divisions of HCV into types, subtypes and isolates. Using these criteria, novel variants of HCV from Vietnam, Thailand and Indonesia have been classified as types 7, 8, 9, 10 and 11, many of which can be further subdivided into between two to four subtypes. In this study, this distance-based method of virus classification was compared with phylogenetic analysis and statistical measures to establish the confidence of the groupings. Using bootstrap resampling of phylogenetic trees in several subgenomic regions (core, E1, NS5) and with complete genomic sequences, we found that one set of novel HCV variants (‘types 7, 8, 9 and 11’) consistently grouped together into a single clade that also contained type 6a, while ‘type 10a’ grouped with type 3. In contrast, no robust higher-order groupings were observed between any of the other five previously described HCV genotypes (types 1–5). In each subgenomic region, the distribution of pairwise distances between members of the type 6 clade were consistently bi-modal and therefore provided no justification for classification of these variants into the three proposed categories (type, subtype, isolate). Based on these results, we propose that a more useful classification would regard all these variants as subtypes of type 6 or type 3, even though the level of sequence diversity within the clade was greater than observed for other genotypes. Classification by phylogenetic relatedness rules out simple sequence similarity measurements as a method for assigning HCV genotypes, but provides a more appropriate description of the evolutionary and epidemiological history of a virus.
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Low pH-induced pore formation by spike proteins of enveloped viruses
More LessExposure of Aedes albopictus cells infected with Semliki Forest virus (SFV; Togaviridae) to mildly acidic pH (5.6) results in a dramatic increase in the host cell membrane permeability due to pore formation by the virus spike proteins. Identical results were obtained when the cells were infected with two other viruses, Sindbis virus (SIN, Togaviridae) and vesicular stomatitis virus (VSV, Rhabdoviridae). This permeability change could also be observed on isolated virions of SFV, SIN and VSV by measuring the influx of propidium iodide, a nucleic acid-specific fluorescent marker, into the virions. This influx was dependent on the presence of the ectodomains of the viral spikes and could be hampered by zinc ions. Furthermore, haemagglutinin, a membrane protein of influenza A virus (Orthomyxoviridae), expressed in Aedes cells induced a change in membrane permeability identical to that induced by the spike proteins of SFV, SIN and VSV when exposed to low pH. Thus acid-induced membrane permeability changes produced by spike proteins of three different virus families could be demonstrated in infected cells as well as in virions. Therefore, the low pH-induced pore formation by viral spike proteins seems to be more than an event specific for togaviruses and might well be an inherent property of enveloped viruses that use the endocytotic pathway to infect a cell.
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Mapping the neutralizing epitopes on the glycoprotein of infectious haematopoietic necrosis virus, a fish rhabdovirus
More LessTwelve neutralizing monoclonal antibodies (MAbs) against the fish rhabdovirus, infectious haematopoietic necrosis virus (IHNV), were used to select 20 MAb escape mutants. The nucleotide sequence of the entire glycoprotein (G) gene was determined for six mutants representing differing cross-neutralization patterns and each had a single nucleotide change leading to a single amino acid substitution within one of three regions of the protein. These data were used to design nested PCR primers to amplify portions of the G gene of the 14 remaining mutants. When the PCR products from these mutants were sequenced, they also had single nucleotide substitutions coding for amino acid substitutions at the same, or nearby, locations. Of the 20 mutants for which all or part of the glycoprotein gene was sequenced, two MAbs selected mutants with substitutions at amino acids 230–231 (antigenic site I) and the remaining MAbs selected mutants with substitutions at amino acids 272–276 (antigenic site II). Two MAbs that selected mutants mapping to amino acids 272–276, selected other mutants that mapped to amino acids 78–81, raising the possibility that this portion of the N terminus of the protein was part of a discontinuous epitope defining antigenic site II. CLUSTAL alignment of the glycoproteins of rabies virus, vesicular stomatitis virus and IHNV revealed similarities in the location of the neutralizing epitopes and a high degree of conservation among cysteine residues, indicating that the glycoproteins of three different genera of animal rhabdoviruses may share a similar three-dimensional structure in spite of extensive sequence divergence.
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The genome sequence of the virulent Kabete ‘O’ strain of rinderpest virus: comparison with the derived vaccine
More LessWe have compared the complete genome sequences of the vaccine strain of rinderpest virus and the virulent strain from which it was derived. Only 87 bases differed between the two genomes (0.55%). Possibly significant differences in amino acid sequence were found in the N, P, F, H and L proteins. A number of differences were also found in the leader region (3′ end of the genome), whilst the trailer region appears to be more conserved. In addition, the length of the genome was found in both cases to be 15882, an exact multiple of six, fulfilling predictions made earlier based on work with Sendai and measles viruses.
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Nucleotide sequence of the gene encoding the viral polymerase of avian pneumovirus
More LessWe report here the nucleotide sequence of the L gene of avian pneumovirus (APV). This is the second pneumovirus L gene and the second avian paramyxovirus L gene, following that of Newcastle disease virus, to be sequenced. The APV L gene is 6099 nucleotides long and encodes a single large ORF of 2004 amino acids. This makes the APV L protein the smallest to be described for any non-segmented, negative-strand RNA virus. The protein contains six linear non-contiguous domains, a putative ATP-binding site and four polymerase motifs previously described for the L proteins of negative-strand RNA viruses. Phylogenetic analysis of domain III of 14 different L proteins suggests the pneumo-viruses to be as distant in evolutionary terms from the other members of the Paramyxoviridae as are the Filoviridae.
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Persistent infection of mammalian cells by Rift Valley fever virus
More LessInfection of mammalian cells with Rift Valley fever virus (RVFV) leads generally to the production of virus and cell death. In this paper we examined the fate of Vero cells infected with three strains of RVFV and observed that, while a large proportion of cells exhibited a clear cytopathic effect (CPE), a small but significant fraction did not undergo a lytic infection but was able to proliferate and establish a persistent infection. Several independent RVFV persistently infected cell lines have been established and passaged for more than 1 year after infection with a virulent strain (ZH548) and two attenuated strains (C13 and MP12). Although the viruses used for the primary infection were plaque-purified, we do not know whether defective-interfering particles were responsible for the establishment of the persistent infection. The persistently infected cells became resistant to superinfection with RVFV but not with other viruses and shed low amounts of infectious, lytic and non-lytic virus during a limited number of passages. In all the passages tested, the three genomic segments or related products were synthesized as well as the structural nucleoprotein N and glycoproteins G1 and G2. Abnormal defective RNAs were detected, migrating faster or slower than their respective counterparts. The faster-migrating RNAs were internally deleted, some of them possessing only the very terminal part of the 5′ genomic end.
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Isolation and characterization of Tula virus, a distinct serotype in the genus Hantavirus, family Bunyaviridae
A Vero E6 cell culture isolate of Tula virus (TUL), a hantavirus first detected in European common voles (Microtus arvalis and M. rossiaemeridionalis) by RT-PCR was obtained after initial passaging of TUL-infected vole lung samples in laboratory-colonized M. arvalis. TUL was defined as a classical serotype by a cross-focus-reduction neutralization test (FRNT) and was also shown to be distinct from other hantaviruses by haemagglutination inhibition assay. The sequences of S, M and partial L genome segments of the isolate were determined: the S segment was 99.9% identical to the original rodent-derived sequence. Serological evidence for a previous TUL infection was obtained from the serum of a blood donor living near a TUL focus in Moravia, Czech Republic, showing at least a 16-fold higher FRNT titre to TUL as compared to Puumala or other hantaviruses.
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- DNA viruses
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Common localization of retention determinants in hepatitis B virus L protein from different strains
More LessHepatitis B virus L protein is retained intracellularly, and trans-inhibits secretion of the related S and M proteins, as particulate HBsAg, at high L/S-M ratios. Comparison of equivalent A and D strain mutants suggested that the retention mechanism does not vary with genotype. Contrary to an earlier suggestion, the N-terminal extension specific for A-C strains was found to be inactive as a retention signal. Intact L was more completely retained than any mutated protein. Retained mutants had either a critical PreS stretch, or N-terminal myristate. Also, mutants of the latter class did not completely inhibit particulate budding, and could, in minor amounts, reach the Golgi. We conclude that (i) the principal retention determinant can be traced to the same PreS segment in distinct strains and (ii) myristic acid does reinforce retention in wild-type L, while acting in part as an HBsAg membrane anchor in mutants lacking the internal determinant.
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Epstein—Barr virus binding to CD21, the virus receptor, activates resting B cells via an intracellular pathway that is linked to B cell infection
More LessEpstein—Barr virus (EBV) initiates infection of normal B lymphocytes by binding to CD21, a complement receptor. Since EBV, unlike most viruses, preferentially infects resting (non-activated) cells, the present studies were undertaken to evaluate the hypothesis that intracellular signalling pathway(s) triggered by EBV binding to CD21 activate the expression of certain cellular genes, as well as the initially expressed viral genes, and thus enable EBV to infect resting B cells. Experiments with non-transforming EBV, recombinant virus ligand and anti-CD21 MAbs show that EBV binding to CD21 on resting B cells increases CD23 mRNA levels independently of viral gene expression. A panel of five protein kinase C (PKC) and tyrosine kinase (PTK) inhibitors, all with different modes of action, exhibited a distinctive pattern of effects on the EBV induced induction of CD23 expression, ranging from nearly complete inhibition to no influence. The results suggest that distinct PKC isoforms and PTKs are involved in the signalling pathway(s) triggered by EBV binding to CD21. Significantly, the five inhibitors showed the same pattern of effects on the earliest stages of infection (EBNA-2 transcription) and B cell transformation (mitogenesis and colony formation). The identical pattern of effects of these PKC and PTK inhibitors with diverse mechanisms of action on the EBV induced increase in both CD23 and EBNA-2 mRNA levels strongly suggests that their transcription is mediated by an intracellular signalling pathway which shares, at least in part, common members.
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Intracellular localization and expression of the human cytomegalovirus matrix phosphoprotein pp71 (ppUL82): evidence for its translocation into the nucleus
A polyclonal antiserum, raised against a pp71 fusion protein, was prepared in order to investigate the biosynthesis and localization of the matrix protein pp71 of human cytomegalovirus (HCMV), the UL82 gene product, during the HCMV infectious cycle in human fibroblasts. Transcription of the pp71-specific bicistronic 4.0 kb mRNA and pp71 biosynthesis exhibited a biphasic pattern during one round of the HCMV infectious cycle, with a first peak at 12 h and a second at 72 h post-infection (p.i.). Cycloheximide treatment of infected human fibroblasts revealed that the presence of pp71 in total cell extracts prior to 3 h p.i. was due to the input virus inoculum. Transcription of the two specific pp71 mRNAs commenced 5–7 h p.i. as shown by Northern blot analysis of total cellular RNA. Western blot analysis of isolated nuclei and indirect immuno-fluorescence experiments indicated that pp71, like the major tegument protein pp65, is present in the nucleus shortly after infection as well as during the late phase of viral morphogenesis. Also, after transient transfection of UL82 into U373MG cells, pp71 was found to be present in the nucleus of the transfected cells. By immunogold labelling, pp71 was detected in the nucleoplasm in association with nucleocapsids in electron-dense nuclear skein structures at late stages of the infection cycle. These findings suggest functions of pp71 in viral maturation in addition to that as an early transactivator of viral gene transcription described recently.
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Detection of endogenous human cytomegalovirus in CD34+ bone marrow progenitors
More LessThe cellular sites and mechanisms of human cytomegalovirus (HCMV) latency are still poorly defined. Although evidence suggests that peripheral blood monocytes are one site of latency in the healthy carrier, it is unlikely that monocytes represent a site of primary HCMV infection. Consequently, we have analysed CD34+ bone marrow progenitors, precursors of monocytes, to determine whether they are a site of HCMV carriage in normal virus carriers. For the first time, we demonstrate the presence of endogenous HCMV within bone marrow progenitors in the absence of HCMV lytic gene expression. These findings are consistent with previous evidence showing that the permissiveness of myeloid cells for HCMV is critically dependent on the differentiation state of the cell.
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Human herpesvirus 7 infection of CD4++ T cells does not require expression of the OKT4 epitope
To evaluate the role of the OKT4 epitope in human herpesvirus 7 (HHV-7) infection, we studied the susceptibility to HHV-7 infection of CD4+ T cells isolated from two individuals with OKT4 epitope deficiency. HHV-7-infected OKT4−Leu3a+ T cells exhibited the characteristic cytopathic effect, reactivity with HHV-7-seropositive serum by immuno-fluorescence and down-modulation of surface CD4 in a manner similar to HHV-7-infected OKT4+Leu3a+ T cells. A semiquantitative PCR revealed that the amounts of HHV-7 replicated in OKT4+Leu3a+ T cells and OKT4− Leu3a+ T cells were not significantly different. Although it has been reported that OKT4 monoclonal antibody efficiently inhibits HHV-7 infection, the present study demonstrated that the interaction of HHV-7 with CD4+ T cells does not require participation of the epitope defined by OKT4 monoclonal antibody.
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The dUTPases from herpes simplex virus type 1 and mouse mammary tumour virus are less specific than the Escherichia coli enzyme
More LessThe enzyme dUTPase catalyses the hydrolysis of dUTP to dUMP and pyrophosphate, thereby suppressing incorporation of uracil into DNA and providing a pool of dUMP, the precursor of dTTP. Hydrolysis of other nucleotides similar in structure to dUTP would conceivably be physiologically detrimental and high specificity of the reaction seems to be necessary. In this work, we characterize the substrate specificity of the dUTPases from herpes simplex virus type 1 (HSV-1) and mouse mammary tumour virus (MMTV) in comparison to the Escherichia coli enzyme. We tested dCTP, dTTP, UTP and dUDP as substrates. Significantly higher reactivity was observed for the HSV-1 enzyme with dCTP and dTTP and for the MMTV enzyme with dTTP and UTP. The lower substrate specificity of the two virus enzymes compared with the bacterial enzyme is discussed in relation to the DNA precursor metabolism during virus replication.
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Similarity in genome organization between Molluscum contagiosum virus (MCV) and vaccinia virus (VV): identification of MCV homologues of the VV genes for protein kinase 2, structural protein VP8, RNA polymerase 35 kDa subunit and 3β-hydroxysteroid dehydrogenase
Molluscum contagiosum virus (MCV) and vaccinia virus (VV) are serologically unrelated poxviruses with a disparate genome composition (MCV, 66% G + C; VV, 33% G + C). Molecular studies of MCV have been hindered by the inability to propagate the virus in cells cultured in vitro. We sequenced 7765 bp of MCV DNA cloned from four widely spaced regions throughout the MCV genome and identified a total of 11 potential open reading frames (ORF), designated CX1-11. These include MCV homologues of the VV genes encoding protein kinase 2, structural protein VP8, RNA polymerase 35 kDa subunit and 3β-hydroxysteroid dehydrogenase. The position and orientation of the MCV ORFs was collinear to the VV genome, with the exception of the region around ORF CX11 which is inverted in the MCV genome.
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Non-replicating recombinant vaccinia virus encoding murine B-7 molecules elicits effective costimulation of naive CD4+ splenocytes in vitro
More LessUsing a series of new insertion/expression vectors, we constructed a set of recombinant vaccinia viruses (recVV) encoding the murine T cell costimulatory molecules mB7-1 or mB7-2, or both together in the same construct. On infection with replication incompetent and non-cytopathic recVV, several tumour cell lines expressed the respective molecules and bound to CTLA-4. The highest binding capacity was found when both mB7 molecules were co-expressed. Mouse B16.F10 melanoma cells expressing mB7-1 or mB7-2 provided effective costimulation for proliferation of resting CD4+ T cells in the presence of concanavalin A and plate-bound anti-T cell receptor antibodies, respectively. If mB7-1 and mB7-2 were delivered together on the same cell, the proliferative response of CD4+ T cells increased further. The costimulatory effect could be blocked with CTLA-4, the soluble ligand for B7 molecules. The possibility of engineering tumour cells using recVV holds implications for the future design of vaccination strategies.
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- Insect
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Spodoptera exigua multicapsid nucleopolyhedrovirus deletion mutants generated in cell culture lack virulence in vivo
The baculovirus Spodoptera exigua multicapsid nucleopolyhedrovirus (SeMNPV) has high potential for development as a bio-insecticide for control of the beet armyworm (S. exigua). It is highly infectious for S. exigua larvae and its host range is very narrow. A prerequisite for such application is the possibility of growing this virus in large quantities, e.g. in insect cell lines. It was observed, however, that polyhedra of SeMNPV plaque-purified in SeUCR1 cells did not cause larval mortality or morbidity when fed to S. exigua larvae. As this suggested a genetic alteration in in vitro produced SeMNPV, comparative restriction analysis of in vitro and in vivo produced SeMNPV DNA was performed. The restriction patterns of viral DNa from several different plaques always differed from that of the wild-type in the same way, suggesting that a large, single deletion had occurred in the in vitro produced viral genome. In order to localize this deletion more precisely a detailed physical map of the wild-type SeMNPV genome was constructed, using the restriction endonucleases XbaI, BamHI, BglII, PstI, SstI, HindIII and SpeI. In addition, the entire SeMNPV genome was cloned into a library containing five overlapping cosmids and a plasmid library. About 80 restriction sites were located and the orientation of the map was set according to the location of the polyhedrin and p 10 genes. The approximate size of the viral genome was 134 kbp. Based on this map it could be established that mutant SeMNPV, obtained by passage in cell culture, contained a single deletion of approximately 25 kbp between map units 12.9 and 32.3.
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The genes encoding the P39 and CG30 proteins of Bombyx mori nuclear polyhedrosis virus
More LessWe have cloned and analysed the transcriptional properties of two closely linked genes, p39 and cg30, of Bombyx mori nuclear polyhedrosis virus (BmNPV). These genes encode a structural polypeptide and a putative transcriptional regulator of the virus, respectively. The cg30 gene is transcribed prior to and after DNA replication from a site located within the ORF of the adjacent p39 gene. Its transcription product, a 1.3 kb mRNA, is polyadenylated at a site containing consensus eukaryotic polyadenylation signals and mapping 87 bp downstream of the translation termination codon for CG30. During the later stages of infection, two additional RNAs, 2.2 and 6.5 kb, are also transcribed through the cg30 gene. The 2.2 kb RNA, representing the mRNA that encodes P39, is initiated from three relatively closely spaced sites located upstream of the P39 ORF. The 6.5 kb RNA is apparently transcribed from the promoter sequences of another gene located further upstream of the p39 gene. The 2.2 and 6.5 kb transcripts have two polyadenylation sites. The first site is the same as the one used to generate the cg30 gene-specific transcripts. The second is located 4 bp downstream of the CG30 translation termination codon. Transient expression assays show that the p39 gene sequences immediately upstream of the CG30 ORF can direct expression of a reporter gene when the latter is co-transfected with the gene encoding the early baculovirus trans-activator IE1. Thus, these sequences behave as a delayed-early baculovirus gene promoter.
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Potyvirus transmission is not increased by pre-acquisition fasting of aphids reared on artificial diet
More LessAphids (Myzus persicae), fasted after removal from healthy rearing plants, transmitted tobacco etch potyvirus (TEV) more efficiently than unfasted aphids whether virus acquisition was from infected leaves or through membranes. There was no difference in uptake of 125I-labelled TEV by fasted or unfasted aphids as measured by liquid scintillation counting. When aphids acquired 125I-labelled TEV, label was retained in the stylets (as determined by autoradiographic light microscopy) by 51% of 272 fasted aphids, as against 7.8% of 258 unfasted aphids. There was a close correlation between virus transmission by aphids and virion retention in stylets. The effect of pre-acquisition fasting disappeared when aphids reared on an artificial diet were used in virus transmission tests. The transmission rates obtained with such aphids were similar to the rates with fasted aphids reared on healthy plants. Our results support the hypothesis that fasting eliminates plant component(s) which interfere with the retention of virions in the food canal of aphid stylets.
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Multiple viral determinants affect seed transmission of pea seedborne mosaic virus in Pisum sativum
More LessTwo pea seedborne mosaic potyvirus (PSbMV) isolates, P-1 DPD1 (P-1), which is highly seed-transmitted, and P-4 NY (P-4), which is rarely seed-transmitted, and chimeras between P-1 and P-4 were analysed to map the viral genetic determinants of seed transmission. Infectivity of chimeric viruses was evaluated by inoculating Pisum sativum with RNA transcribed in vitro from recombinant full-length cDNA clones. The chimeric viruses that were used demonstrated that a genomic segment encoding the 49 kDa protease and putative RNA polymerase was responsible for symptom induction. Attempts to determine transmission of the chimeric viruses in P. sativum cultivars known to transmit P-1 at high frequencies showed that seed transmission is a quantitative character influenced by multiple viral determinants. Seed transmission frequency did not correlate with accumulation of virus in vegetative tissue. The 5′ 2.5 kb of the 10 kb PSbMV genome had a major influence on the seed transmission frequency and was analysed further. This showed that, while the helper-component protease was a major determinant of seed transmission, the potyviral P1-protease exerted no measurable influence.
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Genome segment 5 of rice ragged stunt virus encodes avirion protein
More LessThe complete nucleotide sequence of the genome segment 5 (S5) of a Thai isolate of rice ragged stunt virus (RRSV) was determined. The 2682 nucleotide sequence contains a single long open reading frame capable of encoding a polypeptide with a molecular mass of ∼ 91 kDa. Polypeptides encoded by various truncated cDNAs of S5 were expressed using the pGEX fusion protein vector and the highest level of fusion protein was obtained from a construct encoding a hydrophilic region of S5 protein. Antibodies raised against this fusion protein recognized a minor polypeptide, with a molecular mass of ∼ 91 kDa, that was present in purified preparations of RRSV particles, infected insect vectors and infected rice plants. This indicates that RRSV S5 encodes a minor structural protein. Comparing the RRSV S5 sequence with sequences of other reoviruses did not reveal any significant sequence similarities.
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- Other Agents
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The effect of dry heat on the ME7 strain of mouse-passaged scrapie agent
More LessPartial survival of lyophilized scrapie agent has been reported previously following exposure to dry heat at 360 °C for 1 h, and led to speculation that scrapie-like agents might not be completely inactivated by incineration. However, it is known that dried infectivity is more difficult to inactivate by heat than that in hydrated samples. In this present study it was shown that the infectivity in macerates of mouse-brain infected with the ME7 strain of scrapie agent was not completely inactivated by exposure to dry heat at temperatures up to 180 °C for 1 h but the titre of surviving infectivity reduced progressively as the temperature was increased. No infectivity was recovered after a 1 h exposure at 200 °C. These data suggest that scrapie-like agents are unlikely to survive incineration.
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- Corrigenda
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