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1.
In this report, we describe the first systematic analysis of the genetic requirements for polyomavirus (Py) enhancer-activated viral DNA replication during the acute phase of infection in mice. Four mutants were made which substituted XhoI sites for conserved enhancer consensus sequences (adenovirus type 5 E1A, c-fos, simian virus 40, and a glucocorticoidlike consensus sequence). Viral DNA replication in infected mouse organs was measured by DNA blot analysis. Only the loss of the glucocorticoidlike consensus sequence element significantly reduced Py DNA replication in the kidneys, the primary target organ for viral replication. The loss of the c-fos, adenovirus type 5 E1A, or simian virus 40 consensus sequences, however, expanded organ-specific viral DNA replication, relative to wild-type Py, by allowing high-level replication in the pancreas or heart or both. Analysis of Py variants selected for replication in undifferentiated embryonal carcinoma cell lines (PyF441, PyF111) showed that there was little change in levels of viral DNA replication in kidneys and other organs as compared with those in the wild-type virus. If the entire B enhancer is deleted, only low overall levels of viral replication are observed. Wild-type levels of replication in the kidneys can be reconstituted by addition of a single domain from within the A enhancer (nucleotides 5094 to 5132) to the B enhancer deletion virus, suggesting that a single domain from the A enhancer can functionally substitute for the entire B enhancer. This also indicates that the determinants for kidney-specific replication are not found in the B enhancer.  相似文献   

2.
We previously showed that alterations in the enhancer sequence of polyomavirus DNA can alter both the level and the organ specificity of viral DNA replication during the acute phase of infection of newborn mice (R. Rochford, B. A. Campbell, and L. P. Villarreal, J. Virol. 64:476-485, 1990). In this study, we examined whether these enhancer sequence alterations can also affect polyomavirus replication during the persistent phase of infection in vivo. After infection of newborn mice with a mixture of three enhancer variants, the individual organs could select for enhancer-specific viral DNA replication during both the acute and the persistent phases of infection. Contrary to expectations, the ability of some variants to establish a high-level acute infection in some organs (e.g., the pancreas) did not necessarily lead to a persistent infection in those organs. Thus, enhancers can affect acute and persistent infections differently. In addition, some enhancer variants tended to establish a high-level persistent infection in the kidneys immediately following an acute infection; however, in all cases considerable histopathology was associated with these elevated long-term infections, and these mice were always runty. A persistent infection in the kidneys thus appears able to exist in two distinguishable states, a high-level pathological state and a low-level nonpathological state, which can be affected by the viral enhancer sequence.  相似文献   

3.
4.
Viral pathogenicity may be regulated by host defense mechanisms at the virus-immune cell interaction level. The immune system plays an important role in the outcome of acute disease induced by the mouse hepatitis virus type 3 (MHV3) virus. The lymphoid cells act as effectors in the virus elimination as well as targets for viral replication. In order to demonstrate a correlation between MHV3 pathogenicity and viral replication in lymphocytes, genetically-determined resistant A/J and susceptible C57BL/6 mice were infected with pathogenic (L2-MHV3) or nonpathogenic (YAC-MHV3) viral strains. Pathogenicity and histopathologic studies have revealed that lymphoid organs such as thymus and spleen, showed injuries or atrophy in susceptible mice infected with L2-MHV3. No histopathologic lesions in the lymphoid organs occurred in C57BL/6 mice infected with YAC-MHV3 or A/J mice infected with both viruses. The mechanisms involved in the lymphoid injuries were studied regarding viral replication in the lymphoid organs and cells in infected mice. Results indicate that cell depletion in lymphoid organs is caused by a complete viral replication in lymphoid cells. Thy1.2+ and surface IgM+ lymphoid cells from susceptible C57BL/6 mice infected with L2-MHV3 were permissive to viral replication and to subsequent cell lysis. No cell lysis, however, occurred in lymphoid cells from C57BL/6 mice infected with YAC-MHV3 and A/J mice infected with both virus strains. In vitro studies, with purified T and B cell populations were performed to determine the mechanism effecting susceptibility or resistance to viral-induced cell lysis occurring in such cells. A blockade, probably occurring at the viral RNA polymerase activity level, prevents viral replication in resistant cells between the stages of fixation of the virus at the cell-surface receptor and the viral protein translation. These experiments indicate that an intrinsic virus-specific resistant mechanism occurs in lymphoid cells that plays a major role in the viral pathogenicity.  相似文献   

5.
6.
Intranasal inoculation of the neuroattenuated OBLV60 strain of mouse hepatitis virus results in infection of mitral neurons in the olfactory bulb, followed by spread along olfactory and limbic pathways to the brain. Immunocompetent BALB/c mice were able to clear virus by 11 days postinfection (p.i.). Gamma interferon (IFN-gamma) may play a role in clearance of OBLV60 from infected immunocompetent BALB/c mice through a nonlytic mechanism. Among the variety of immunomodulatory activities of IFN-gamma is the induction of expression of inducible nitric oxide synthase (iNOS), an enzyme responsible for the production of nitric oxide (NO). Studies were undertaken to investigate the role of IFN-gamma and NO in host defense and clearance of OBLV60 from the central nervous system (CNS). Exposure of OBLV60-infected OBL21a cells, a mouse neuronal cell line, to the NO-generating compound S-nitroso-L-acetyl penicillamine resulted in a significant decrease in viral replication, indicating that NO interfered with viral replication. Furthermore, infection of IFN-gamma knockout (GKO) mice and athymic nude mice with OBLV60 resulted in low-level expression of iNOS mRNA and protein in the brains compared to that of OBLV60-infected BALB/c mice. Nude mice were unable to clear virus and eventually died between days 11 and 14 p.i. (B. D. Pearce, M. V. Hobbs, T. S. McGraw, and M. J. Buchmeier, J. Virol. 68:5483-5495, 1994); however, GKO mice survived infection and cleared virus by day 18 p.i. These data suggest that IFN-gamma production in the olfactory bulb contributed to but may not be essential for clearance of OBLV60 from the brain. In addition, treatment of OBLV60-infected BALB/c mice with aminoguanidine, a selective inhibitor of iNOS activity, did not result in any increase in mortality, and the mice cleared the virus by 11 days p.i. These data suggest that although NO was able to block replication of virus in vitro, expression of iNOS with NO release in vivo did not appear to be the determinant factor in clearance of OBLV60 from CNS neurons.  相似文献   

7.
Inbred athymic nu/nu BALB/c mice were injected subcutaneously with the highly oncogenic polyomavirus A2 strain, and the sites of viral DNA replication were determined by whole mouse section hybridization (T. W. Dubensky, E. A. Murphy, and L. P. Villareal, J. Virol. 50:779-783, 1984) and Southern blot analysis. We show that infection is persistent in some epithelial tissues (skin, mammary, and salivary glands), in lymphoid organs (spleen and nodes), and in mesenchymal bone tissue. Only mammary glands and bones were targets for tumor formation. Although the same pattern of infection was observed in males and females, mammary adenocarcinomas were induced exclusively in females, while the frequency of osteosarcomas was similar in both sexes. No viral DNA or lytic lesion was detected in kidney, liver, or lung tissue. The restricted targeting of polyomavirus oncogenicity in nude mice, compared with newborn immunocompetent animals, inoculated via the same route with the same virus strain, therefore does not reflect selective tissue targeting of virus replication. These results further document the influence of the age, immunological status, and genetic background of the host on the pattern of viral infection and tumor formation.  相似文献   

8.
A common feature associated with the replication of most RNA viruses is the formation of a unique membrane environment encapsulating the viral replication complex. For their part, flaviviruses are no exception, whereupon infection causes a dramatic rearrangement and induction of unique membrane structures within the cytoplasm of infected cells. These virus-induced membranes, termed paracrystalline arrays, convoluted membranes, and vesicle packets, all appear to have specific functions during replication and are derived from different organelles within the host cell. The aim of this study was to identify which protein(s) specified by the Australian strain of West Nile virus, Kunjin virus (KUNV), are responsible for the dramatic membrane alterations observed during infection. Thus, we have shown using immunolabeling of ultrathin cryosections of transfected cells that expression of the KUNV polyprotein intermediates NS4A-4B and NS2B-3-4A, as well as that of individual NS4A proteins with and without the C-terminal transmembrane domain 2K, resulted in different degrees of rearrangement of cytoplasmic membranes. The formation of the membrane structures characteristic for virus infection required coexpression of an NS4A-NS4B cassette with the viral protease NS2B-3pro which was shown to be essential for the release of the individual NS4A and NS4B proteins. Individual expression of NS4A protein retaining the C-terminal transmembrane domain 2K resulted in the induction of membrane rearrangements most resembling virus-induced structures, while removal of the 2K domain led to a less profound membrane rearrangement but resulted in the redistribution of the NS4A protein to the Golgi apparatus. The results show that cleavage of the KUNV polyprotein NS4A-4B by the viral protease is the key initiation event in the induction of membrane rearrangement and that the NS4A protein intermediate containing the uncleaved C-terminal transmembrane domain plays an essential role in these membrane rearrangements.  相似文献   

9.
Apoptosis has been suggested as a mechanism by which dengue (DEN) virus infection may cause neuronal cell death (P. Desprès, M. Flamand, P.-E. Ceccaldi, and V. Deubel, J. Virol. 70:4090–4096, 1996). In this study, we investigated whether apoptotic cell death occurred in the central nervous system (CNS) of neonatal mice inoculated intracerebrally with DEN virus. We showed that serial passage of a wild-type human isolate of DEN virus in mouse brains selected highly neurovirulent variants which replicated more efficiently in the CNS. Infection of newborn mice with these neurovirulent variants produced fatal encephalitis within 10 days after inoculation. Virus-induced cell death and oligonucleosomal DNA fragmentation were observed in mouse brain tissue by day 9. Infected mouse brain tissue was assayed for apoptosis by in situ terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling and for virus replication by immunostaining of viral antigens and in situ hybridization. Apoptotic cell death and DEN virus replication were restricted to the neurons of the cortical and hippocampal regions. Thus, DEN virus-induced apoptosis in the CNS was a direct result of virus infection. In the murine neuronal cell line Neuro 2a, neuroadapted DEN virus variants showed infection patterns similar to those of the parental strain. However, DEN virus-induced apoptosis in these cells was more pronounced after infection with the neurovirulent variants than after infection with the parental strain.  相似文献   

10.
11.
Wild-type Sendai virus is exclusively pneumotropic in mice, while a host range mutant, F1-R, is pantropic. The latter was attributed to structural changes in the fusion (F) glycoprotein, which was cleaved by ubiquitous proteases present in many organs (M. Tashiro, E. Pritzer, M. A. Khoshnan, M. Yamakawa, K. Kuroda, H.-D. Klenk, R. Rott, and J. T. Seto, Virology 165:577-583, 1988). These studies were extended by investigating, by use of an organ block culture system of mice, whether differences exist in the susceptibility of the lung and the other organs to the viruses and in proteolytic activation of the F protein of the viruses. Block cultures of mouse organs were shown to synthesize the viral polypeptides and to support productive infections by the viruses. These findings ruled out the possibility that pneumotropism of wild-type virus results because only the respiratory organs are susceptible to the virus. Progeny virus of F1-R was produced in the activated form as shown by infectivity assays and proteolytic cleavage of the F protein in the infected organ cultures. On the other hand, much of wild-type virus produced in cultures of organs other than lung remained nonactivated. The findings indicate that the F protein of wild-type virus was poorly activated by ubiquitous proteases which efficiently activated the F protein of F1-R. Thus, the activating protease for wild-type F protein is present only in the respiratory organs. These results, taken together with a comparison of the predicted amino acid substitutions between the viruses, strongly suggest that the different efficiencies among mouse organs in the proteolytic activation of F protein must be the primary determinant for organ tropism of Sendai virus. Additionally, immunoelectron microscopic examination of the mouse bronchus indicated that the budding site of wild-type virus was restricted to the apical domain of the epithelium, whereas budding by F1-R occurred at the apical and basal domains. Bipolar budding was also observed in MDCK monolayers infected with F1-R. The differential budding site at the primary target of infection may be an additional determinant for organ tropism of Sendai virus in mice.  相似文献   

12.
V(D)J recombination is essential to produce an Ig repertoire with a large range of Ag specificities. Although NF-kappaB-binding sites are present in the human and mouse IgH, Igkappa, and Iglambda enhancer modules and RAG expression is controlled by NF-kappaB, it is not known whether NF-kappaB regulates V(D)J recombination mechanisms after RAG-mediated dsDNA breaks. To clarify the involvement of NF-kappaB in human V(D)J recombination, we amplified Ig gene rearrangements from individual peripheral B cells of patients with X-linked anhidrotic ectodermal dysplasia with hyper-IgM syndrome (HED-ID) who have deficient expression of the NF-kappaB essential modulator (NEMO/Ikkgamma). The amplification of nonproductive Ig gene rearrangements from HED-ID B cells reflects the influence of the Ikkgamma-mediated canonical NF-kappaB pathway on specific molecular mechanisms involved in V(D)J recombination. We found that the CDR3(H) from HED-ID B cells were abnormally long, as a result of a marked reduction in the exonuclease activity on the V, D, and J germline coding ends, whereas random N-nucleotide addition and palindromic overhangs (P nucleotides) were comparable to controls. This suggests that an intact canonical NF-kappaB pathway is essential for normal exonucleolytic activity during human V(D)J recombination, whereas terminal deoxynucleotide transferase, Artemis, and DNA-dependent protein kinase catalytic subunit activity are not affected. The generation of memory B cells and somatic hypermutation were markedly deficient confirming a role for NF-kappaB in these events of B cell maturation. However, selection of the primary B cell repertoire appeared to be intact and was partially able to correct the defects generated by abnormal V(D)J recombination.  相似文献   

13.
In vitro replication of coxsackievirus B3 (CVB3) in cells of the immune system derived from uninfected adolescent A/J and C57BL/6J mice and replication of CVB3 in and association with immune cells from spleens of infected animals in vivo were assessed. Nonstimulated or mitogen-stimulated spleen cells were minimally permissive for viral replication during an 8-h period. Three days postinfection (p.i.), CVB3 RNA was localized in vivo to B cells and follicular dendritic cells of germinal centers in both A/J and C57BL/6J mice; however, extrafollicular localization was greater in C57BL/6J mice (P = 0.0054). Although the pattern of CVB3 RNA localization was different, the total load of infections virus (PFU per milligram of tissue) was not different. Splenic CVB3 titers (PFU per milligram of tissue) in both strains were maximal at day 3 or 4 p.i. and were back to baseline by day 7 p.i., with most infectious virus being non-cell associated. CVB3 titers (PFU per milligram of tissue) correlated directly with in situ hybridization positivity in splenic follicles and extrafollicular regions in both murine strains; however, follicular hybridization intensity was greater in A/J mice at day 5 p.i. (P = 0.021). Flow cytometric analysis demonstrated that 50.4% of total spleen cells positive for CVB3 antigen were B cells and 69.6% of positive splenic lymphocytes were B cells. Myocardial virus load in C57BL/6J mice was significantly lower than that in A/J mice at days 4 and 5 p.i. These data indicate that CVB3 replicates in murine splenocytes in vitro and in B cells and extrafollicular cells in vivo.  相似文献   

14.
Scaffold/matrix-associated region-1-binding protein (SMAR1) specifically interacts with the MARbeta sequence, which is located 400-bp upstream of the murine TCRbeta enhancer and is highly expressed during the DP stage of thymocyte development. To further analyze the functions of SMAR1, transgenic mice were generated that express SMAR1 in a tissue-independent manner. SMAR1-overexpressing mice exhibit severely altered frequency of the T cells expressing commonly used Vbetas (Vbeta5.1/5.2 and Vbeta8.1/8.2/8.3). The rearrangements of Vbeta5.1/5.2, Vbeta8.1/8.2/8.3 loci are also reduced in SMAR1 transgenic mice. The T cells in SMAR1 transgenic mice exhibit a mild perturbation at the early DN stage. SMAR1 transgenic mice exhibit hypercellular lymph nodes and spleen accompanied with prominent architectural defects in these organs. These results indicate that SMAR1 plays an important role in the regulation of T cell development as well as V(D)J recombination besides maintaining the architecture of the lymphoid organs.  相似文献   

15.
M Serwe  F Sablitzky 《The EMBO journal》1993,12(6):2321-2327
We have assessed the importance of the immunoglobulin heavy chain (IgH) intron enhancer for recombination of variable gene segments (V, D and J) during B cell development. We generated chimeric mice with embryonic stem cells lacking the intron enhancer from one of their IgH loci. The IgH intron enhancer was substituted by a short oligonucleotide through homologous recombination using the 'Hit and Run' procedure. V(D)J recombination occurred less frequently on mutant alleles, but was not blocked completely. Quantitative polymerase chain reaction analyses demonstrated that 15-30% of the mutated loci in mature B cells were unrearranged, in striking contrast to the wild-type alleles. The remainder of the mutated loci underwent D-J (65-80%) as well as V-DJ rearrangements, although the latter were less frequent (3-6%). These results are in line with previous data which showed that the V(D)J recombination machinery is modulated through cis-regulatory elements within the intron enhancer. However, our data predict the existence of additional cis-regulatory element(s) which, together with the intron enhancer, are required to activate the V(D)J recombination machinery fully. Such cis-regulatory element(s) might function as an enhancer of recombination or as a locus control region regulating the accessibility of the IgH locus.  相似文献   

16.
The regulatory DNA (enhancer) of polyomavirus (Py) is a major determinant of tissue-specific DNA replication during acute infection of newborn mice. Previously, we reported that the combination of one of the two Py enhancers (A enhancer) and the repeated Moloney murine leukemia virus (Mo-MuLV) enhancer gave a chimeric Py genome (Py-MuLV) that replicates predominantly in the acinar cells of the pancreas, a tissue not permissive for wild-type PyA2 replication (R. Rochford, B. A. Campbell, and L. P. Villareal. Proc. Nat. Acad. Sci. USA 84:449-453,1987). In this report, we further examine the combined enhancer requirements for acinar cell-specific Py replication. We also compare enhancer requirements for Py replication in the acinar cells of the pancreas with those of a transformed acinar cell line (266-6 cells). The deletion of sequences within the A enhancer of Py-MuLV (nucleotides 5098 to 5132) results in a virus with 10-fold-reduced levels of pancreas-specific replication. The deletion, however, of one of the 72-bp repeated Mo-MuLV enhancer sequences from Py-MuLV results in a complete loss of pancreas-specific DNA replication. Thus, the Py A enhancer is required for efficient replication of Py in the pancreas without otherwise altering organ specificity, but both of the repeated copies of the Mo-MuLV enhancer are essential for pancreas-specific Py replication. In contrast to the enhancer requirements for in vivo pancreas replication, in transformed acinar cells (266-6), PyA2 wild-type replicated efficiently and the Py-MuLV recombinant replicated inefficiently. These data suggest that the cell-specific control of DNA replication is different between normal pancreas cells and their transformed cell line counterparts and that this difference is apparent in the enhancer requirement of cell-specific Py DNA replication.  相似文献   

17.
The human cytomegalovirus (HCMV) major immediate-early enhancer has been postulated to play a pivotal role in the control of latency and reactivation. However, the absence of an animal model has obstructed a direct test of this hypothesis. Here we report on the establishment of an in vivo, experimentally tractable system for quantitatively investigating physiological functions of the HCMV enhancer. Using a neonate BALB/c mouse model, we show that a chimeric murine CMV under the control of the HCMV enhancer is competent in vivo, replicating in key organs of mice with acute CMV infection and exhibiting latency/reactivation features comparable for the most part to those of the parental and revertant viruses.  相似文献   

18.
Porcine endogenous retrovirus (PERV) is considered one of the major risks in xenotransplantation. No valid animal model has been established to evaluate the risks associated with PERV transmission to human patients by pig tissue xenotransplantation or to study the potential pathogenesis associated with PERV infection. In previous work we isolated two genes encoding functional human PERV receptors and proved that introduction of these into mouse fibroblasts allowed the normally nonpermissive mouse cells to become productively infected (T. A. Ericsson, Y. Takeuchi, C. Templin, G. Quinn, S. F. Farhadian, J. C. Wood, B. A. Oldmixon, K. M. Suling, J. K. Ishii, Y. Kitagawa, T. Miyazawa, D. R. Salomon, R. A. Weiss, and C. Patience, Proc. Natl. Acad. Sci. USA 100:6759-6764, 2003). In the present study we created mice transgenic for human PERV-A receptor 2 (HuPAR-2). After inoculation of transgenic animals with infectious PERV supernatants, viral DNA and RNA were detected at multiple time points, indicating productive replication. This establishes the role of HuPAR-2 in PERV infection in vivo; in addition, these transgenic mice represent a new model for determining the risk of PERV transmission and potential pathogenesis. These mice also create a unique opportunity to study the immune response to PERV infection and test potential therapeutic or preventative modalities.  相似文献   

19.
The mixture of retroviruses termed LP-BM5 murine leukemia virus (MuLV) contains a replication-defective genome (BM5def), the crucial element for induction of murine AIDS (MAIDS), as well as helper B-tropic ecotropic and mink cell focus-forming MuLV. Among Fv-1b mouse strains, C57BL mice are sensitive to infection by these viruses and to development of MAIDS, but A/J mice are highly resistant to all viral components and to induction of disease. Inasmuch as previous genetic studies indicated a major role in susceptibility for the H-2D locus within the MHC, the effect of CD8+ T cells in A/J resistance to MAIDS was analyzed by depletion of this subset using mAb. A/J mice treated with anti-CD8 mAb beginning soon after inoculation with LP-BM5 MuLV developed disease within 5 wk after virus inoculation. Histopathologic and flow cytometry alteration of tissues and cells from the mAb-treated mice were identical to those seen in virus-infected MAIDS-sensitive strains, and assays for MuLV demonstrated high-level expression of ecotropic MuLV and integration of BM5def. Parallel studies of A/J mice treated with anti-CD4 mAb after infection revealed enhanced expression of ecotropic MuLV but no integration of BM5def, and no signs of MAIDS were detected. These observations indicate that CD8+ T cells are critical in the resistance of A/J mice to LP-BM5 MuLV replication and development of disease and suggest that CD4+ T cells play a role in regulation of ecotropic virus replication.  相似文献   

20.
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