Hepatitis B virus HBx protein localized to the nucleus restores HBx-deficient virus replication in HepG2 cells and in vivo in hydrodynamically-injected mice

Identifying the requirements for the regulatory HBx protein in hepatitis B virus (HBV) replication is an important goal. A plasmid-based HBV replication assay was used to evaluate whether HBx subcellular localization influences its ability to promote virus replication, as measured by real time PCR quantitation of viral capsid-associated DNA. HBx targeted to the nucleus by a nuclear localization signal (NLS-HBx) was able to restore HBx-deficient HBV replication, while HBx containing a nuclear export signal (NES-HBx) was not. Both NLS-HBx and NES-HBx were expressed at similar levels (by immunoprecipitation and Western blotting), and proper localization of the signal sequence-tagged proteins was confirmed by deconvolution microscopy using HBx, NLS-HBx, and NES-HBx proteins fused to GFP. Importantly, these findings were confirmed in vivo by hydrodynamic injection into mice. Our results demonstrate that in these HBV replication assays, at least one function of HBx requires its localization to the nucleus.     

1b型丙型肝炎病毒NS3-4b重组腺相关病毒载体的构建及表达

目的 构建1b型丙型肝炎病毒(HCV) NS34b基因重组腺相关病毒载体并了解其在HEK 293细胞中的表达,为进一步研究HCV重组腺相关病毒疫苗及其树突状细胞疫苗奠定前期基础.方法 收集基因1b型的丙型肝炎病人血清,用RT-PCR的方法扩增NS3-4b全长片段,与腺相关病毒的表达载体pAAV.CMV.eGFP重组,构建pAAV.CMV.HCV.NS3-4b重组表达载体,转染HEK293细胞,检测其蛋白表达情况.结果 PCR扩增获得的NS3-4b条带与预期大小(2838 bp)一致,重组质粒经双酶切和测序证实NS3-4b基因已重组成功,重组质粒转染HEK 293细胞后Western Blot图可见有目的蛋白表达.结论 成功构建腺相关病毒重组HCV NS3-4b载体并且其能在真核细胞中表达.     

Nucleotide sequence analysis of an infectious laryngotracheitis virus gene corresponding to the US3 of HSV-1 and a unique gene encoding a 67 kDa protein

Summary The DNA sequence of 4005 nucleotides from the Kpnl O and part of Kpnl K fragments in the short unique region of infectious laryngotracheitis virus (ILTV) was determined. The sequence contained two complete and one partial open reading frames (ORFs). The partial ORF was open at the 5 end of the sequence and represented the NH₂-terminal 118 amino acids (aa) of a polypeptide. Its partial predicted protein product exhibited significant homology to the US2 gene product of HSV-1 (herpes simplex virus type 1) and its homologs in other herpesviruses. ORF 2 is 471 aa long and could encode a protein of 53.8 kDa which shared aa homology with the protein kinases encoded by HSV-1 US3 and its gene homologs. Analysis of the ORF 2 aa sequence revealed domains characteristic of protein-serine/threonine (S/T) kinases of cellular and viral origin. The ORF 3 encoded a predicted protein of 601 aa (Mr 67.5 kDa) which exhibited limited homology (18% overall identity) with the UL47 protein (major tegument protein) of HSV-1. Northern (RNA) blot hybridization and metabolic inhibitors were used to characterize the ILTV protein kinase and the 67K mRNAs. The data revealed that protein kinase is a gamma-1 gene encoding a 1.6 kb mRNa, while the 67K ORF is a gamma-2 gene encoding a 2 kb mRNA.     

Comparative immunization in BALB/c mice with recombinant replication-defective adenovirus vector and DNA plasmid expressing a SARS-CoV nucleocapsid protein gene

In order to investigate immunogenicity in the induction of humoral and cellular immune responses, severe acute respiratory syndrome associated coronavirus （SARS-CoV）-N gene recombinant replication-defective adenoviral vector, rAd-N, was generated and immunized BALB/c mice in a pcDNA3.1-N prime-rAd-N boost regimen. After humoral and cellular immune response detection, different levels of SARS-CoV N protein specific antibodies and interferon-γ （IFN-γ） secretion are shown compared to controls. The humoral immune response was induced more effectively by the DNA priming and recombinant adenovirus boosting regimen. There is a significant difference between heterogeneous and homologous vaccinations. The heterogeneous combinations were all higher than those of the homologous combinations in the induction of anti-N antibody response. Among the three heterogeneous combinations, pcDNA3.1-N/pcDNA3.1-N/pcDNA3.1-N/rAd-N induced the strongest antibody response. In the induction of IFN-γ production, the homologous combination of rAd-N/rAd-N/rAd-N/rAd-N was significantly stronger than that of pcDNA3.1-N/pcDNA3.1-N/pcDNA3.1-N/pcDNA3.1-N, but was relatively weaker than the heterogeneous combination of pcDAN3.1-N/pcDAN3.1-N/pcDAN3.1-N/rAd-N. This combination was a most efficient immunization regimen in induction of SARS-CoV-N-specific （IFN-γ） secretion just as the antibody response. These results suggest that DNA immunization followed by recombinant adenovirns boosting could be used as a potential SARS-CoV vaccine.     

Transient expression and sequence of the matrix (M1) gene of WSN influenza A virus in a vaccinia vector

A cDNA encoding the entire amino acid sequence of the matrix (M1) protein of influenza A/WSN/33 virus was cloned, sequenced, and expressed in a vaccinia virus system consisting of the T7 bacteriophage RNA polymerase and a plasmid carrying the M1 gene flanked by T7 polymerase promoter and terminator sequences. The transiently expressed M1 gene product comigrated on SDS-polyacrylamide gels with the endogenous WSN virus M1 protein and was recognized in Western blot analysis by three epitope-specific monoclonal antibodies directed to the M1 protein. The nucleotide sequence and the predicted amino acid sequence of the cloned WSN virus M1 coding region was found to be more than 97% homologous to that of the M1 gene of influenza virus A/PR/8/34 reported by G. Winter and S. Fields (Nucleic Acids Res. 8, 1965-1974, 1980).     

Titration of non-replicating adenovirus as a vector for transducing active TGF-beta1 gene expression causing inflammation and fibrogenesis in the lungs of C57BL/6 mice

Investigators have shown that interstitial pulmonary fibrosis (IPF) can be induced in rats by overexpressing transforming growth factor beta1 (TGF-beta1) through a replication-deficient recombinant adenovirus vector instilled into the lungs (Sime et al. 1997). We have shown that this vector induces IPF in fibrogenic-resistant tumour necrosis factor alpha-receptor knockout (TNF-alphaRKO) mice (Liu et al. 2001). The object of our studies is to understand how peptide growth factors, such as TGF-beta1, mediate interstitial lung disease (ILD). To do so, we must be able to manipulate the dose of the factor and sort out its effects on multiple other mediators in the lung parenchyma. As a step in this complex process, in the studies reported here, we have determined the concentrations of the recombinant adenovirus vector carrying the gene for porcine active TGF-beta1 (AVTGFbeta1) that have little apparent effect, cause clear induction of disease, or severe disease. The disease largely resolves by 28 days in all cases, thus providing a valuable model to understand the mechanisms of the IPF that is mediated, at least in part, by TGF-beta1. The findings here show that 10(6) plaque-forming units (pfu) of AVTGFbeta1, provide essentially a 'no-effect' dose, but even this amount of TGF-beta1 causes a significant increase in whole-lung collagen by day 28 after treatment. In contrast, 10(8) and 10(9) pfu cause severe IPF in 4 days, whereas 10(7) and 5 x 10(7) are intermediate for all parameters studied, i.e. TGF-beta protein, inflammatory cells, cell proliferation, pro-alpha 1(I) collagen gene expression and whole-lung collagen accumulation, and expression of growth factors such as TGF-beta1, TNF-alpha and PDGF-A and -B. Interestingly enough, TGF-beta1, as a potent blocker of epithelial cell proliferation, appears to suppress airway epithelial cell growth that would be expected during the inflammatory phase of IPF. Thus, this model system helps us to understand some quantitative aspects of TGF-beta1 biological activity and allows us to manipulate this potent factor as a mediator of interstitial fibrogenesis.     

Genetic immunization of BALB/c mice with a plasmid bearing the gene coding for a hybrid merozoite surface protein 1-hepatitis B virus surface protein fusion protects mice against lethal Plasmodium chabaudi chabaudi PC1 infection

The genetic immunization of rodents with a plasmid coding for a Plasmodium chabaudi merozoite surface protein 1 (C terminus)-hepatitis B virus surface fusion protein (pPcMSP1(19)-HBs) provided protection of mice against subsequent lethal challenge with P. chabaudi chabaudi PC1-infected red blood cells. The percentage of survivor mice was higher in DNA-immunized mice than in animals immunized with a recombinant rPcMSP1(19)- glutathione S-transferase fusion protein administered in Freund adjuvant. In all mice immunized with the pPcMSP1(19)-HBs, a Th1-specific response, including the production of anti-MSP1(19)-specific immunoglobulins predominantly of the immunoglobulin G2a subtype and reacting almost exclusively against discontinuous epitopes, was elicited. The coinjection of Th1-type cytokine-expressing plasmids (gamma interferon, interleukin-2, and granulocyte-macrophage colony-stimulating factor) mostly abolished protection and boosting of MSP1(19)-specific antibodies. The inclusion of a lymph node-targeting signal did not significantly increase protection. These data provide further evidence that MSP1(19)-HBs DNA constructs might be useful as components of a genetic vaccine against the asexual blood stages of Plasmodium.     

Titration of non-replicating adenovirus as a vector for transducing active TGF-β1 gene expression causing inflammation and fibrogenesis in the lungs of C57BL/6 mice

Investigators have shown that interstitial pulmonary fibrosis (IPF) can be induced in rats by overexpressing transforming growth factor beta₁ (TGF‐β₁) through a replication‐deficient recombinant adenovirus vector instilled into the lungs ( Sime et al. 1997 ). We have shown that this vector induces IPF in fibrogenic‐resistant tumour necrosis factor alpha‐receptor knockout (TNF‐αRKO) mice ( Liu et al. 2001 ). The object of our studies is to understand how peptide growth factors, such as TGF‐β₁, mediate interstitial lung disease (ILD). To do so, we must be able to manipulate the dose of the factor and sort out its effects on multiple other mediators in the lung parenchyma. As a step in this complex process, in the studies reported here, we have determined the concentrations of the recombinant adenovirus vector carrying the gene for porcine active TGF‐β₁ (AVTGFβ₁) that have little apparent effect, cause clear induction of disease, or severe disease. The disease largely resolves by 28 days in all cases, thus providing a valuable model to understand the mechanisms of the IPF that is mediated, at least in part, by TGF‐β₁. The findings here show that 10⁶ plaque‐forming units (pfu) of AVTGFβ₁, provide essentially a ‘no‐effect’ dose, but even this amount of TGF‐β₁ causes a significant increase in whole‐lung collagen by day 28 after treatment. In contrast, 10⁸ and 10⁹ pfu cause severe IPF in 4 days, whereas 10⁷ and 5 × 10⁷ are intermediate for all parameters studied, i.e. TGF‐β protein, inflammatory cells, cell proliferation, pro‐α 1(I) collagen gene expression and whole‐lung collagen accumulation, and expression of growth factors such as TGF‐β₁, TNF‐α and PDGF‐A and ‐B. Interestingly enough, TGF‐β₁, as a potent blocker of epithelial cell proliferation, appears to suppress airway epithelial cell growth that would be expected during the inflammatory phase of IPF. Thus, this model system helps us to understand some quantitative aspects of TGF‐β₁ biological activity and allows us to manipulate this potent factor as a mediator of interstitial fibrogenesis.     

Molecular cloning and nucleotide sequence of the coat protein gene of a Cuban isolate of potato leafroll virus and its expression inEscherichia coli

Total RNA from infectedPhysalis floridana was isolated to generate complementary DNA corresponding to the coat protein (CP) gene of a Cuban isolate of potato leaf roll virus (PLRV). This cDNA was amplified by the polymerase chain reaction (PCR) and cloned into the bacterial expression vectors pEX(1–3) for fusion protein expression inE. coli. The product was detected by antibodies specific for the PLRV CP. The coding sequence of the CP gene was determined, and the predicted length of the CP was 208 amino acids (23 kD). The nucleotide sequences and deduced amino acid sequences were compared with the other PLRV isolates and found to be 97–99.5% identical at both the nucleotide and amino acid sequence level of other isolates. Comparison of the deduced amino acid sequences of the PLRV_cub CP revealed considerable homology to other luteoviruses. We believe that the protocol described could be applicable to other plant viruses of low abundance or of cumbersome isolation, since this method is less time consuming than the traditional methods of cloning coat protein genes of plant viruses with known sequences.     

DNA vaccines against dengue virus based on the ns1 gene: the influence of different signal sequences on the protein expression and its correlation to the immune response elicited in mice

We analyzed four DNA vaccines based on DENV-2 NS1: pcENS1, encoding the C-terminal from E protein plus the NS1 region; pcENS1ANC, similar to pcENS1 plus the N-terminal sequence from NS2a (ANC); pcTPANS1, coding the t-PA signal sequence fused to NS1; and pcTPANS1ANC, similar to pcTPANS1 plus the ANC sequence. The NS1 was detected in lysates and culture supernatants from pcTPANS1-, pcENS1- and pcENS1ANC-transfected cells and not in cells with pcTPANS1ANC. Only the pcENS1ANC leads the expression of NS1 in plasma membrane, confirming the importance of ANC sequence for targeting NS1 to cell surface. High levels of antibodies recognizing conformational epitopes of NS1 were induced in mice immunized with pcTPANS1 and pcENS1, while only few pcENS1ANC-inoculated animals presented detectable anti-NS1 IgG. Protection against DENV-2 was verified in pcTPANS1- and pcENS1-immunized mice, although the plasmid pcTPANS1 induced slight higher protective immunity. These plasmids seem to activate distinct patterns of the immune system.     

Correlation of p16/INK4a gene damages and protein expression in the tumor tissue of sporadic breast cancer

A tumor emerges due to the structural and functional abnormalities occurring in the genes, which causes a change in the spectrum of protein molecules. Strong correlations between the gene damages and following changes in the protein spectrum make it possible to study different stages of carcinogenesis and to create a more complete system of molecular markers for the diagnosis of different types of tumors, which comprises protein markers and DNA markers. The present investigation has studied a correlation between the inactivation mechanisms (structural and functional) of the suppressor gene p16/INK4a, which occur at the level of DNA, and the results of its protein expression examined by immunohistochemical methods in the tumor specimens from patients with breast cancer. The investigation could indicate that p16/INK4a gene damage frequently occurred in the tumors of the above type. In the majority of study cases, molecular damages revealed in the gene diminish on its protein expression; however, there are still cases that defy generally accepted explanations.