Expression of Rv2031c-Rv2626c fusion protein in Mycobacterium smegmatis enhances bacillary survival and modulates innate immunity in macrophages.

Dormancy-associated antigens encoded by the dormancy survival regulon (DosR) genes are required for survival of Mycobacterium tuberculosis (Mtb) in macrophages. However, mechanisms underlying survival of Mtb in macrophages remains to be elucidated. A recombinant Mycobacterium smegmatis strain (rMs) expressing a fusion protein of two dormancy­associated antigens Rv2031c and Rv2626c from Mtb was constructed in the present study. In an in vitro culture, growth rate of rMs was lower compared with Ms. A total of 24 h following infection of murine macrophages with rMs or Ms, percentage of viable cells decreased and the number of bacteria in viable cells increased compared with Ms, demonstrating that virulence and intracellular survival of rMs were enhanced. Compared with macrophages infected with Ms, necrosis of macrophages infected with rMs was increased, while apoptosis was inhibited. Macrophages infected with rMs secreted more interferon­Î³ and interleukin­6, but fewer nitric oxide and tumor necrosis factor­α, compared with macrophages infected with Ms. The present study demonstrated that the fusion protein composed of dormancy­associated antigens Rv2031c and Rv2626c in Ms serves a physiological function of a dormancy­associated antigen and modulates innate immunity of host macrophages, therefore favoring intracellular bacillary survival.

In-Cell Western Assays to Evaluate Hantaan Virus Replication as a Novel Approach to Screen Antiviral Molecules and Detect Neutralizing Antibody Titers.

Hantaviruses encompass rodent-borne zoonotic pathogens that cause severe hemorrhagic fever disease with high mortality rates in humans. Detection of infectious virus titer lays a solid foundation for virology and immunology researches. Canonical methods to assess viral titers rely on visible cytopathic effects (CPE), but Hantaan virus (HTNV, the prototype hantavirus) maintains a relatively sluggish life cycle and does not produce CPE in cell culture. Here, an in-cell Western (ICW) assay was utilized to rapidly measure the expression of viral proteins in infected cells and to establish a novel approach to detect viral titers. Compared with classical approaches, the ICW assay is accurate and time- and cost-effective. Furthermore, the ICW assay provided a high-throughput platform to screen and identify antiviral molecules. Potential antiviral roles of several DExD/H box helicase family members were investigated using the ICW assay, and the results indicated that DDX21 and DDX60 reinforced IFN responses and exerted anti-hantaviral effects, whereas DDX50 probably promoted HTNV replication. Additionally, the ICW assay was also applied to assess NAb titers in patients and vaccine recipients. Patients with prompt production of NAbs tended to have favorable disease outcomes. Modest NAb titers were found in vaccinees, indicating that current vaccines still require improvements as they cannot prime host humoral immunity with high efficiency. Taken together, our results indicate that the use of the ICW assay to evaluate non-CPE Hantaan virus titer demonstrates a significant improvement over current infectivity approaches and a novel technique to screen antiviral molecules and detect NAb efficacies.

Screening and Identification of an H-2Kb-Restricted CTL Epitope within the Glycoprotein of Hantaan Virus.

The cytotoxic T lymphocyte (CTL) response plays a key role in controlling viral infection, but only a few epitopes within the HTNV glycoprotein (GP) that are recognized by CTLs have been reported. In this study, we identified one murine HTNV GP-derived H2-Kb-restricted CTL epitope in C57BL/6 mice, which could be used to design preclinical studies of vaccines for HTNV infection. First, 15 8-mer peptides were selected from the HTNV GP amino acid sequence based on a percentile rank of <=1% by IEDB which is the most comprehensive collection of epitope prediction and analysis tool. A lower percentile rank indicates higher affinity and higher immune response. In the case of the consensus method, we also evaluated the binding score of peptide-binding affinity by the BIMAS software to confirm that all peptides were able to bind H2-Kb. Second, one novel GP-derived CTL epitope, GP6 aa456-aa463 (ITSLFSLL), was identified in the splenocytes of HTNV-infected mice using the IFN-γ ELISPOT assay. Third, a single peptide vaccine was administered to C57BL/6 mice to evaluate the immunogenic potential of the identified peptides. ELISPOT and cell-mediated cytotoxicity assays showed that this peptide vaccine induced a strong IFN-γ response and potent cytotoxicity in immunized mice. Last, we demonstrated that the peptide-vaccinated mice had partial protection from challenge with HTNV. In conclusion, we identified an H2-Kb-restricted CTL epitope with involvement in the host immune response to HTNV infection.

Incorporation of GM-CSF or CD40L Enhances the Immunogenicity of Hantaan Virus-Like Particles.

A safe and effective Hantaan virus (HTNV) vaccine is highly desirable because HTNV causes an acute and often fatal disease (hemorrhagic fever with renal syndrome, HFRS). Since the immunity of the inactivated vaccine is weak and the safety is poor, HTNV virus-like particles (VLPs) offer an attractive and safe alternative. These particles lack the viral genome but are perceived by the immune system as virus particles. We hypothesized that adding immunostimulatory signals to VLPs would enhance their efficacy. To accomplish this enhancement, we generated chimeric HTNV VLPs containing glycosylphosphatidylinositol (GPI)-anchored granulocyte macrophage colony-stimulating factor (GM-CSF) or CD40 ligand (CD40L) and investigated their biological activity in vitro. The immunization of mice with chimeric HTNV VLPs containing GM-CSF or CD40L induced stronger humoral immune responses and cellular immune responses compared to the HTNV VLPs and Chinese commercial inactivated hantavirus vaccine. Chimeric HTNV VLPs containing GM-CSF or CD40L also protected mice from an HTNV challenge. Altogether, our results suggest that anchoring immunostimulatory molecules into HTNV VLPs can be a potential approach for the control and prevention of HFRS.

Identification of peptides that bind hepatitis C virus envelope protein E2 and inhibit viral cellular entry from a phage-display peptide library.

Hepatitis C virus (HCV) envelope protein E2 is required for the entry of HCV into cells. Viral envelope proteins interact with cell receptors in a multistep process, which may be a promising target for the development of novel antiviral agents. In this study, a heptapeptide M13 phage-display library was screened for peptides that bind specifically to prokaryotically expressed, purified truncated HCV envelope protein E2. ELISA assay was used to quantify the binding of the peptides to HCV E2 protein. Flow cytometry, quantitative reverse-transcription PCR and western blotting were used to investigate the inhibition effect of one peptide on HCV infection in hepatoma cells (Huh7.5) in vitro. Four peptides capable of binding specifically to HCV E2 protein were obtained after three rounds of biopanning. Peptide C18 (WPWHNHR), with the highest affinity for binding HCV E2 protein, was synthesized. The results showed that peptide C18 inhibited the viral infectivity of both HCV pseudotype particles (HCVpp) harboring HCV envelope glycoproteins and cell-culture produced HCV (HCVcc). Thus, this study demonstrated that peptide C18 is a potential candidate for anti-HCV therapy as a novel viral entry inhibitor.

Induction of Hantaan virus-specific immune responses in C57BL/6 mice by immunization with a modified recombinant adenovirus containing the chimeric gene, GcS0.7.

Hantavirus glycoprotein Gc is one of the main components that contribute to the generation of humoral immune responses, while the nucleocapsid protein (NP) is involved in cellular immune responses through the induction of antibody-dependent cytotoxic T cells. In this study, a chimeric gene, GcS0.7, which encodes a fusion protein containing Gc and truncated NP, was constructed as a candidate for Hantaan virus (HTNV) vaccine development. The chimeric gene was cloned into an adenoviral vector in conjunction with the powerful hybrid cytomegalovirus (CMV) enhancer/chicken ß-actin (CAG) promoter or the woodchuck hepatitis virus (WHV) post-transcriptional regulatory element (WPRE), or both. Both elements increased the expression level of the fusion protein. The rAd-GcS0.7-pCAG group demonstrated the highest fusion protein expression level, with a 2.3-fold increase compared with the unmodified adenoviral vector. To further evaluate the humoral and cellular immunity induced by the recombinant adenovirus, the antibody titers, interferon (IFN)-γ secretion level and cytotoxic T cell ratio were detected in immunized mice. The strongest HTNV­specific humoral and cellular immune responses were detected in the rAd-GcS0.7­pCAG group. The immunogenicity of these recombinant adenoviruses was compared with that of the inactivated vaccine through a series of immunological assays. In terms of the cellular immune responses, the rAd-GcS0.7-pCAG group even exceeded those induced by the vaccine control. The CAG hybrid promoter improved not only the expression level, but also the immunogenicity of the fusion protein, and may thus provide a promising strategy for HTNV vaccine research.

Cellular immunogenicity of a multi-epitope peptide vaccine candidate based on hepatitis C virus NS5A, NS4B and core proteins in HHD-2 mice.

To develop a vaccine against hepatitis C virus (HCV), a multi-epitope peptide was synthesized from nonstructural proteins containing HLA-A2 epitopes inducing mainly responses in natural infection. The engineered vaccine candidate, VAL-44, consists of multiple epitopes from the HCV NS5A, NS4B and core proteins. Immunization with the VAL-44 peptide induced higher CTL responses than those by the smaller VL-20 peptide. VAL-44 induced antigen-specific IFN-γ-producing CD4+ T cells and CD8+ T cells. VAL-44 elicited a Th1-biased immune response with secretion of high amounts of IFN-γ and IL-2, compared with VL-20. These results suggest that VAL-44 can elicit strong cellular immune responses. The VAL-44 peptide stimulated IFN-γ production from viral-specific peripheral blood mononuclear cells (PBMCs) of patients infected with HCV. These results suggest that VAL-44 could be developed as a potential HCV multi-epitope peptide vaccine.

The highly conserved 5' untranslated region as an effective target towards the inhibition of Enterovirus 71 replication by unmodified and appropriate 2'-modified siRNAs.

BACKGROUND: Enterovirus 71 (EV71) is a highly infectious agent that plays an etiological role in hand, foot, and mouth disease. It is associated with severe neurological complications and has caused significant mortalities in recent large-scale outbreaks. Currently, no effective vaccine or specific clinical therapy is available against EV71. METHODS: Unmodified 21 nucleotide small interfering RNAs (siRNAs) and classic 2'-modified (2'-O-methylation or 2'-fluoro modification) siRNAs were designed to target highly conserved 5' untranslated region (UTR) of the EV71 genome and employed as anti-EV71 agents. Real-time TaqMan RT-PCR, western blot analysis and plaque assays were carried out to evaluate specific viral inhibition by the siRNAs. RESULTS: Transfection of rhabdomyosarcoma (RD) cells with siRNAs targeting the EV71 genomic 5' UTR significantly delayed and alleviated the cytopathic effects of EV71 infection, increased cell viability in EV71-infected RD cells. The inhibitory effect on EV71 replication was sequence-specific and dosage-dependent, with significant corresponding decreases in viral RNA, VP1 protein and viral titer. Appropriate 2'-modified siRNAs exhibited similar RNA interference (RNAi) activity with dramatically increased serum stability in comparison with unmodified counterparts. CONCLUSION: Sequences were identified within the highly conserved 5' UTR that can be targeted to effectively inhibit EV71 replication through RNAi strategies. Appropriate 2'-modified siRNAs provide a promising approach to optimizing siRNAs to overcome barriers on RNAi-based antiviral therapies for broader administration.

[Construction, expression and purification of trichosanthin mutant gene TCS(FYY163-165CSA);].

AIM: To construct and express a trichosanthin (TCS) gene mutant and purify the expressed product in E.coli. METHODS: The potential antigenic determinant was predicted on TCS molecule by computer modeling and induced for site-directed mutation. The gene mutant TCS(FYY163-165CSA); was amplified by PCR using the genomic DNA of Trichosanthes kirilowii as a template and cloned into expression vector pRSET-A, then transfected into E.coli BL21 (DE3) for expression by inducing with IPTG. The expressed product was identified by Western blotting and purified by Ni-NTA affinity column chromatography. RESULTS: The soluble target protein was successfully expressed in E.coli. Homogenous TCS mutant protein was obtained after purification of expressed product. CONCLUSION: The site-directed mutagenesis, expression and purification of TCS provide a new approach for reconstructing TCS.

Modification of the adenoviral transfer vector enhances expression of the Hantavirus fusion protein GnS0.7 and induces a strong immune response in C57BL/6 mice.

Hantavirus glycoproteins (Gn and Gc) are significant components of vaccines for haemorrhagic fever with renal syndrome (HFRS); however, they are not effective due to weak immunogenicity and low levels of production in expression systems. To circumvent this problem, a 0.7-kb fragment of the S segment was fused to Gn, and a hybrid CAG promoter/enhancer in conjunction with (or without) the WPRE (Woodchuck hepatitis virus post-transcriptional regulatory element) was used to improve the expression of fusion protein GnS0.7 in the adenoviral expression system. The expression level of the fusion protein as well as the response of mice immunized with recombinant adenoviruses containing GnS0.7 was investigated. In addition, a series of immunological assays were conducted to determine the immunogenicity of the recombinant adenoviruses. The results showed that the recombinant adenovirus with the CAG promoter/enhancer (rAd-GnS0.7-pCAG) expressed approximately 2.1-fold more GnS0.7 than the unmodified recombinant adenovirus containing GnS0.7 (rAd-GnS0.7-pShuttle). This enhanced expression level was also higher than for other modified recombinant adenoviruses studied. Animal experiments showed that rAd-GnS0.7-pCAG induced a stronger Hantaan virus (HTNV)-specific humoral and cellular immune response in mice, with the cellular immune response to the GnS0.7 being stronger than the HFRS vaccine control. These results demonstrate that the CAG promoter/enhancer improved significantly the expression of the chimeric gene GnS0.7 in the adenovirus expression system. These findings may have significant implications for the development of genetically engineered vaccines for HFRS.

Soluble expression and purification of Brucella cell surface protein (BCSP31) of Brucella melitensis and preparation of anti-BCSP31 monoclonal antibodies.

Brucella cell surface protein (BCSP31) is potentially useful for diagnosing brucellosis. We aimed to establish a monoclonal antibody (MAb) against Brucella melitensis BCSP31 and to investigate its distribution in diagnosis. Soluble recombinant BCSP31 was successfully expressed and purified. Two MAbs (1F1 and 1E5) against B. melitensis BCSP31, effective in detecting both recombinant and cellular proteins, were obtained and characterized. The MAbs did not react with Escherichia coli, Staphylococcus aureus, Bacillus subtilis, Mycobacterium tuberculosis, or Bacillus aeruginosus, but strongly reacted with BCSP31 and B. melitensis by ELISA and Western blot analysis. We also tested different Brucella species and brucellosis using the prepared anti-BCSP31 MAbs. BCSP31 and anti-BCSP31 MAbs may play important roles in future research in diagnosing brucellosis.

Bis{5-[(2-propyn-1-yl-oxy)meth-yl]-1,3-phenyl-ene}-32-crown-10.

The mol-ecule of the title compound {systematic name: 17,35-bis-[(2-propyn-1-yl-oxy)meth-yl]-2,5,8,11,14,20,23,26,29,32-deca-oxatricyclo-[31.3.1.1(15,19)]octa-triaconta-1(37),15,17,19 (38),33,35-hex-a--ene}, C(36)H(48)O(12), has crystallographic inversion symmetry and adopts a chair-like conformation. The polyether bridges of the macrocycle adopt gauche conformations and the cavity of the macrocycle is collapsed. In the crystal structure, there are weak inter-molecular C-H⋯O hydrogen bonds driven in part by the elevated acidity of acetylenyl H atoms.

[Construction and expression of the eukaryotic expression vector carrying HSV-1 gC glycoprotein gene].

AIM: To stably express herpes simplex virus type 1 (HSV-1) glycoprotein C (gC) in Chinese hamster ovary cells (CHO-K1). METHODS: The eukaryotic expression vector pCI-mCMV-gC-1-IRES-DHFR-L22R was constructed and transfected into CHO-K1 cells by Lipofectamine 2000. The transfected cells were selected by G418 and methotrexate (MTX). The expression of HSV-1 gC was analyzed by Slot blot. HSV-1 gC proteins were purified with His-Ni Sepharose and then detected by Western blot. RESULTS: The eukaryotic expression vector pCI-mCMV-gC-1-IRES-DHFR-L22R was constructed successfully. CHO-K1 cells stably expressing HSV-1 gC proteins were established and confirmed by Western blot. CONCLUSION: The HSV-1 gC proteins have been expressed successfully and have good bioactivity. The results make it possible for further study and clinical use of HSV-1 gC.

[Construction and expression of trichosanthin mutant gene TCS(RL28-29CG) and purification of expressed product].

AIM: To construct and express a trichosanthin(TCS)gene mutant and purify the expressed product. METHODS: Predict the potential antigenic determinant on TCS molecule by computer modeling and induce site-directed mutation. Amplify gene mutant TCS(RL28-29CG); by PCR using the genomic DNA of Trichosanthes kirilowii as a template and insert into expression vector pRSET-A, then transform to E.coli BL21(DE3)for expression under induction of IPTG. Purify the expressed product by Ni-NTA afinity column chromatography. RESULTS: The target protein in a soluble form was successfully expressed in E.coli. Homogenous TCS mutant protein was obtained after purification of expressed product. CONCLUSION: TCS mutant gene TCS(RL28-29CG); is succ-essfully constructed and expressed.

Downregulation of NDRG1 promotes invasion of human gastric cancer AGS cells through MMP-2.

The N-myc downstream-regulated gene-1 (NDRG1) has recently been proposed as a metastasis suppressor, but its precise role remains unclear. To investigate whether NDRG1 can indeed influence the metastasis progress, expression of endogenous NDRG1 was knocked down in human AGS gastric adenocarcinoma cells using RNA interference. Stable NDRG1 "silenced" transfectants showed similar growth rates as their control counterparts. By contrast, invasive ability in Matrigel invasion activity and Gelatinolytic activity by matrix metalloproteinase-2 (MMP-2) were markedly increased in NDRG1 "silenced" cells. Moreover, re-expression of NDRG1 by recombinant adenovirus Ad-NDRG1 in NDRG1 "silenced" cells inhibited the increased invasive ability. Further study, we found the induction of MMP-2 by downregulation of NDRG1 was mediated by MT1-MMP. Altogether, our results imply that NDRG-1 could play a key role in the regulation of cellular invasion and metastasis, which may involve the upregulation of matrix metalloproteinases.

[Construction and immunogenic study of recombinant adenovirus containing chimeric gene G2S0.7 and CTL epitopes of Hantaan virus].

AIM: To express G2 fragment of M segment and 0.7 kb fragment of S segment and several CTL epitopes of S segment in adenovirus expression system and investigate the immunological properties of hantaan virus chimeric gene. METHODS: The recombinant adenovirus was constructed and the recombinant adenovirus was obtained after transfecting HEK293 cells. The titer of it was determined and the expressed product was detected by IFA and ELISA. Further, BALB/c mice were vaccinated by the recombinant adenovirus and the immune response was tested by ELISA, microcell-culture neutralizing experiment, T lymphocyte proliferation test (MTT assay) and cell-mediated cytotoxicity assay. RESULTS: The recombinant adenovirus AG2S0.7CTL1, AG2S0.7CTL2 were constructed successfully and the titer of it was about 10¹°-10¹¹ pfu/mL. The expressed protein could be recognized by the hantaan virus NP-specific mAb and glycoprotein G2-specific mAb. The recombinant adenovirus containing CTL epitopes could elicit effectively the cellular immune response aimed to the NP and GP of hantaan virus in BALB/c mice. CONCLUSION: The recombinant adenovirus containing CTL epitopes could induce the higher cellular immune response than the group that not containing CTL epitopes.

[Construction and identification of a new type of recombinant adenovirus containing S0.7 gene of Hantavirus].

AIM: To construct a adenovirus vector containing the 0.7 kb fragment of S gene of Hantavirus, CAG promoter, and WPRE (mRNA-stabilizing post-transcriptional regulatory element from the woodchuck hepatitis virus). METHODS: The fragments of CAG and WPRE were synthesized according to GenBank, and inserted into the plasmid pShuttle-S0.7 to create a transfer vector pShuttle-S0.7-CAG-WPRE. The S0.7-CAG-WPRE fragment was then cloned into Adeno-X; Viral DNA by PI-Sce I and I-Ceu I digestion. The recombinant adenovirus DNA was linearized by Pac I, transfected into HEK 293 cells via Lipofectamine; 2000, and the titer of the recombinant adenovirus was determined by Adeno-X; Rapid Titer Kit. The expressed product of S0.7-CAG-WPRE fragment was detected by immunofluorescence assay. RESULTS: The sequence of S0.7-CAG-WPRE fragment was confirmed by sequencing, and the recombinant adenovirus containing S0.7-CAG-WPRE was titered at 10(13); pfu/L. HEK293 cells transfected with recombinant adenoviruses were detected positive by immunofluorescence assay using a specific mAb 1A8 against Hantavirus nucleoprotein. CONCLUSION: The recombinant adenovirus containing the 0.7 kb fragment of S segment of Hantavirus, CAG promoter, WPRE was constructed.

[Screen of a membrane protein molecule from Vero cells capable of binding Japanese encephalitis virus(JEV)].

AIM: Identification of membrane protein molecules Vero cells binding JEV. METHODS: Membrane protein extract was subject to co-immunoprecipitation (Co-IP) with JEV, and identified by mass (MS) spectrometry. The binding between specific extract protein and JEV was measured by MS, flow cytometry (FCM) and immunofluorescence assay (IFA). RESULTS: Heat shock protein 90 beta (HSP90 beta) was identified by Co-IP and MS, and its binding JEV activity was confirmed by FCM and IFA. CONCLUSION: HSP 90 beta from Vero cells membrane could bind JEV.

[Immunoprophylaxis of recombinant Mycobacterium vaccae secreted MPT64 of Mycobacterium tuberculosis].

AIM: To evaluate immunoprophylaxis of recombinant Mycobacterium vaccae secreted MPT64 of Mycobacterium tuberculosis. METHODS: BALB/c mice were immunized with recombinant Mycobacterium vaccae secreted MPT64 of Mycobacterium tuberculosis. ELISA was used to detect the anti-MPT64 antibody titers and subtype in immunized mice sera. Splenocytes of immunized mice were separated and used to detect IFN-gamma and IL-12 levels, splenocytic proliferation, counts of CD4(+) and CD8(+) T cell percentage, cytolytic T lymphocyte specific lysis. The bacteria numbers in vaccination animal's lung and spleen were counted by colony forming units (CFUs) on plate. RESULTS: Recombinant Mycobacterium vaccae secreted MPT64 of Mycobacterium tuberculosis could induce high level of specific IgG antibodies, stronger T cell proliferation response, production of IFN-gamma and IL-12, CD4(+) and CD8(+) cell percentages and CTL effect in mice. And an efficacy protection against Mycobacterium tuberculosis was also observed in mice model. CONCLUSION: Recombinant Mycobacterium vaccae secreted MPT64 could induce high level humoral and cell mediated immune responses in mice and could be used as a candidate of new vaccine against TB.

Carbapenem resistance mechanism and risk factors of Pseudomonas aeruginosa clinical isolates from a University Hospital in Xi'an, China.

PURPOSE: Carbapenems are important agents for the therapy of Gram-negative bacillus infections, and the development of their resistance hampers effective therapeutic options. The purpose of this study was to assess the major mechanisms and risk factors leading to carbapenem resistance in clinical Pseudomonas aeruginosa isolates. METHODS: Thirty-four clinical isolates with differing degrees of carbapenem susceptibility were analyzed for carbapenemase, porin, and efflux systems. Risk factor analysis was performed using a case-control study. RESULTS: Eighteen of 24 carbapenem-resistant isolates were producers of carbapenemase. Diminished expression of oprD and overexpression of effluxes were present in five and seven carbapenem-resistant isolates, respectively. The number of days from admission to the day of positive culture and days of antibiotic apply were identified as the independent predictors of infection with carbapenem-resistant P. aeruginosa. CONCLUSIONS: Carbapenemase production is a major mechanism of P. aeruginosa isolates involved in this study. Increased length of hospital stay and days of antibiotic application were the most important risk factors identified for carbapenem resistance.