Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In several vertebrate species, Borna disease virus (BDV), the prototype of a new group of animal viruses, causes central nervous system disease accompanied by diverse behavioral abnormalities. Seroepidemiological data indicate that BDV may contribute to the pathophysiology of certain human mental disorders. This hypothesis is further supported by the detection of both BDV antigens and BDV RNA in peripheral blood mononuclear cells (PBMCs) of patients with psychiatric disorders and the isolation of BDV from such PBMCs. Here we describe serological and molecular epidemiological studies on psychiatric patients and healthy individuals from the area of Homburg, Germany. Using a novel Western blot (immunoblot) assay, we found a BDV seroprevalence of 9.6% among 416 neuropsychiatric patients, which is significantly higher than the 1.4% found among 203 healthy control individuals. Human sera displayed a prominent immunoreactivity against the virus nucleoprotein, the p40 antigen. Reverse transcriptase-mediated PCR analysis of RNA extracted from PBMCs of a subset of 26 of the neuropsychiatric patients revealed that 50% were BDV RNA positive. Three of the 13 BDV RNA-positive patients also had BDV-positive serology, whereas one patient with serum antibodies to BDV p40 antigen did not harbor detectable BDV RNA in PBMCs. BDV p40 and p24 sequences derived from human PBMCs exhibited both a high degree of inter- and intrapatient conservation and a close genetic relationship to animal-derived BDV sequences.
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PMID:Detection of Borna disease virus (BDV) antibodies and BDV RNA in psychiatric patients: evidence for high sequence conservation of human blood-derived BDV RNA. 889 92

Borna disease virus (BDV) is a neurotropic nonsegmented negative-strand RNA virus with limited homology to rhabdoviruses and paramyxoviruses. A distinguishing feature of BDV is that it replicates in the nucleus of infected cells. Strand-specific probes used for in situ hybridization of infected rat brain showed that there was differential localization of positive- and negative-strand RNAs within the nucleus of neurons. Within nuclei, sense-strand RNAs were preferentially localized within nucleolar regions while genomic-sense RNAs were found in both nucleolar and nonnucleolar regions. These results suggested a role for the nucleolus in BDV replication. Nucleoli isolated from persistently infected neuroblastoma cells contained both genomic and antigenomic BDV RNA species as well as an enrichment of the 39/38-kDa and gp18 BDV proteins. Since the nucleolus is the site of rRNA transcription, we examined BDV transcription in the presence of inhibitors of RNA polymerase I. Inhibition of RNA polymerase I did not affect levels of BDV transcription.
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PMID:The nucleolus is the site of Borna disease virus RNA transcription and replication. 969 79

Borna disease virus (BDV) is a neurotropic enveloped virus with a nonsegmented, single-, negative-stranded RNA genome. This virus induced encephalitis in experimentally infected adult rats, but in newborn rats BDV established a persistent, tolerant infection with no apparent clinical signs. Here, we report evidence that newborn Mongolian gerbils (Meriones unguiculatus) are more susceptible to experimental intracranial inoculation of horse-derived BDV in persistently infected MDCK cells, compared with similar inoculation in newborn rats. All inoculated newborn gerbils, but not rats, died 30 days after infection. Reverse transcriptase-polymerase chain reaction amplified BDV-specific sequences in several regions including the brain. Histopathological analysis revealed apparent inflammatory reactions in the brains of inoculated gerbils but not rats, although similar levels of BDV RNA were detected in both gerbil and rat brains. BDV-specific antigen and RNA were identified predominantly in neurons in the brains by immunohistochemistry with antibodies to BDV and in situ hybridization with BDV-specific riboprobes, respectively. BDV in the gerbil brain was easily rescued by co-cultivation of the brain homogenate with human oligodendroglioma cells. Thus, gerbils seem to be a useful animal model for studying BDV-induced pathogenesis in the brain.
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PMID:High susceptibility of Mongolian gerbil (Meriones unguiculatus) to Borna disease virus. 1007 27

The transcriptional mechanism of Borna disease virus (BDV) has been poorly understood. We have analyzed transcription of the virus upon various stimuli in Madin-Darby canine kidney cells which were persistently infected by BDV (MDCK/BDV). Treatment with actinomycin D (ActD) increased the level of BDV RNA, shifting the size of RNA from 1.9 kb to 2.3 kb beginning 5 hr after the treatment. To understand the mechanism of this unique modulation of BDV RNA, we conducted several experiments. The RNA increase occurred at the stage in which synthesis of cellular intrinsic mRNA was intact, suggesting BDV does not compete with cellular transcriptional machinery for intrinsic RNA polymerase II. The BDV transcription was also enhanced by cycloheximide treatment, indicating that newly synthesized viral or cellular proteins are not necessary for viral transcription. However, a shift in the RNA size was not observed for cycloheximide-induced BDV RNA. The increase in viral transcription persisted during the cellular apoptotic process consequent to p53 gene accumulation beginning 1 hr after ActD treatment. Caspase inhibitors Z-VAD and DEVD-CHO repressed the apoptotic process but failed to block the increase in BDV transcription. In addition, adenovirus-mediated transduction of wild-type p53 did not alter the BDV transcription, indicating that the increase in BDV transcription was independent of the p53-mediated apoptotic process. Other various stimuli that evoke cellular signal transductions failed to alter BDV transcription. Agents inhibitory to topoisomerase except adriamycin failed to enhance BDV transcription, indicating that the increase in BDV transcription is not mediated by an inhibitory action to the topoisomerase II of ActD. Adriamycin showed an increase and size-shift of BDV RNA similar to ActD. These results suggest that intercalation of the viral genome itself with ActD is related to the stabilization of viral RNA and alteration of RNA size rather than secondary host cell changes.
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PMID:The mechanism of actinomycin D-mediated increase of Borna disease virus (BDV) RNA in cells persistently infected by BDV. 1098 33

Borna disease virus (BDV) has been suggested to play a role in the etiology of schizophrenia. We tested the hypothesis that markers of BDV infection are more frequent in Surinamese immigrants to the Netherlands, diagnosed with schizophrenia, than in Dutch-born healthy subjects. For reasons that are poorly understood there is an increased incidence of schizophrenia in this immigrant group. Blood was obtained from 29 male schizophrenic patients (DSM-IV criteria) and from 26 healthy males. For detection of anti-BDV antibodies an indirect immunofluorescence assay (IFA) was performed. A nested, reverse-transcriptase-PCR, using primers specific for the p24 and p40 BDV genes, was used to determine BDV-RNA in peripheral blood mononuclear cells. Contrary to our expectations, the frequencies of BDV markers in the group of healthy subjects, as determined by IFA and both PCRs, exceeded that in the group of patients. The results do not support an association between markers of BDV infection in blood and schizophrenia. It is unlikely that the high incidence of schizophrenia in Surinamese immigrants is caused by BDV, but the small number of subjects examined do not warrant definitive conclusions.
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PMID:Borna disease virus and schizophrenia in Surinamese immigrants to the Netherlands. 1113 37

Borna disease virus (BDV) is an enveloped virus. Its non-segmented, negative-stranded RNA genome has the coding capability for six main polypeptides and has an organization characteristic of members of the order Mononegavirales. However, based on its unique genetics and biological features, BDV is considered to be the prototypic member of a new virus family, Bornaviridae. Here, the establishment of a reverse genetics system for BDV is described. Intracellular synthesis of a BDV RNA analogue or minigenome (MG) from a plasmid was driven by RNA polymerase I. Co-transfection with plasmids expressing the BDV polymerase (L), nucleoprotein (N) and phosphoprotein (P) under the control of RNA polymerase II allowed for BDV MG replication and expression. This process depended on a delicate N:P ratio, whereas the L:P ratio was less critical. Two isoforms of N, Np40 and Np38, are present in BDV-infected cells but only Np40 was strictly required for virus polymerase activity. BDV p10 polypeptide encoded by the P gene exhibited a strong inhibitory effect on BDV MG expression.
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PMID:A reverse genetics system for Borna disease virus. 1457 15

The active polymerase complex of Borna disease virus is composed of the viral proteins N, P, and L. The viral X (negative regulatory factor) protein acts as a regulator of polymerase activity. Interactions of P with N and X were previously studied, but interactions with L were poorly defined. Using a mammalian two-hybrid system, we observed that L specifically interacts with P but not with N, X, or itself. Mapping of the L-binding domain in the P molecule revealed that it overlaps with two adjacent domains required for multimerization and interaction with N. Competition experiments showed that the interaction between L and P was inefficient when N was present, indicating that L may preferentially interact with free P in infected cells. Interestingly, a multimerization-defective P mutant maintained the ability to interact with L, N, and X but failed to support reporter gene expression from an artificial Borna disease virus minigenome. Furthermore, dominant negative effects on minigenome activity were only observed when P mutants with an intact multimerization domain were used, suggesting that P multimers, rather than monomers, exhibit biological activity. P mutants lacking functional interaction domains for L or N still formed complexes with these viral proteins when wild-type P was available as a bridging molecule, indicating that P multimers have the potential to act as scaffolds on which the RNA polymerase complex is assembled.
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PMID:Overlap of interaction domains indicates a central role of the P protein in assembly and regulation of the Borna disease virus polymerase complex. 1550 69

Genome and antigenome synthesis of negative-strand RNA viruses is initiated at promoters located in inverted terminal repeats (ITR). The ITR of Borna disease virus (BDV), a persisting neurotropic virus with a nuclear replication phase, are exceptional in that they appear to be noncomplete. Our analysis showed that the vast majority of genomic and antigenomic RNA molecules of BDV lack four 5'-terminal nucleotides required for perfect complementarity with the 3' ITR. By using a previously undescribed reverse genetics system, we investigated whether the structure of the ITR would affect virus propagation. BDV rescued from cDNA encoding complete ITR (rBDVc) showed wild-type virulence, whereas virus rescued from cDNA encoding a viral genome with noncomplete ITR (rBDVnc) was strongly attenuated. Both recombinant viruses expressed similar RNA and protein levels in persistently infected cells. However, rBDVnc particles were less infectious, indicating that complete ITR are required for high viral replicase but not transcriptase activity. Interestingly, genomic RNA from purified rBDVc particles lacked 5'-terminal nucleotides like authentic BDV, strongly suggesting programmed genome truncation. By specifically trimming its genome at the 5' terminus, BDV seems to limit viral genome amplification, which may favor noncytolytic viral persistence.
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PMID:Genome trimming: a unique strategy for replication control employed by Borna disease virus. 1572 64

Borna disease virus (BDV) is an enveloped virus with a non-segmented, negative-strand RNA genome that has an organization characteristic of Mononegavirales. However, based on its unique genetics and biological features BDV is considered to be the prototypic member of a new virus family, Bornaviridae. Here, the use of a reverse genetic approach to identify the viral proteins required for packaging of BDV RNA analogues (MG) into infectious virus-like particles (VLPs) was described. Plasmids encoding individual BDV proteins under the control of a RNA polymerase II promoter were co-transfected with a plasmid that allows for intracellular synthesis of a BDV MG mediated by the cellular RNA polymerase I. Clarified lysates from transfected cells were passaged onto fresh cells that were previously transfected with plasmids expressing the minimal BDV trans-acting factors L, N and P required for RNA synthesis mediated by the BDV polymerase. Reconstitution of BDV MG-specific packaging and passage of infectious VLP was monitored by expression of the chloramphenicol acetyl transferase reporter gene present in the BDV MG. BDV M and G, in addition to L, N and P, were sufficient for the passage of chloramphenicol acetyl transferase activity, which could be blocked by BDV neutralizing antibodies to G, indicating that VLP infectivity was fully mediated by BDV G. Passage of BDV MG was abrogated by omission of either M or G.
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PMID:Identification of the Borna disease virus (BDV) proteins required for the formation of BDV-like particles. 1595 67

Borna disease virus (BDV) is a noncytolytic, neurotropic RNA virus that replicates and transcribes in the nucleus of infected cells. Therefore, efficient synthesis of BDV RNA in the nucleus is critical for the development of a reverse genetics system for this virus. Here, we report the development of such a system using the RNA polymerase II (Pol II) promoter. The BDV minigenome cDNA was flanked by hammerhead ribozyme and hepatitis delta ribozyme sequences and inserted downstream of the Pol II promoter. To improve the efficacy of minigenome expression, we estimated the effects of several signal sequences within the minigenome constructs. We found that insertion of the SV40 nuclear import sequence into the Pol II constructs significantly enhances the replication of the minigenome even in cells lacking the SV40 large T antigen. This novel system is theoretically applicable to any mammalian cell line and would be valuable for analyzing host- or cell-type-dependent differences in BDV replication and production. We could demonstrate here the cell-type-dependent inhibitory effect of the viral protein X on BDV polymerase activity. This system may be useful for various research fields not only of BDV but also of other negative-sense RNA viruses.
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PMID:Development of a novel Borna disease virus reverse genetics system using RNA polymerase II promoter and SV40 nuclear import signal. 1669 79


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