Blocking of human immunodeficiency virus type-1 virion autolysis by autologous p2(gag) peptide

Our previous study suggested that the p2(gag) peptide, AEAMSQVTNTATIM, inhibits human immunodeficiency virus type 1 (HIV-1) protease (PR) activity in vitro. In this study, Ala substitutions (Met4Ala and Thr8Ala) and deletion of amino acid Asn9 within the nona p2(gag) peptide (AEAMSQVTN) were found to decrease the inhibitory effect on HIV-1 PR activity. Furthermore, treatment of PMA-activated latently infected T lymphocytes, ACH-2 cells, with the p2(gag) peptide (100 and 250 micro M) resulted in a decrease in the amount of p24(gag )in the resultant viral lysates derived from the cell-free supernatant. In addition, the HIV-1-Tat-p2(gag) fusion peptide was synthesized to effectively deliver the p2(gag) peptide into the cells. The fusion peptide was incorporated into chronically infected T lymphocytes, CEM/LAV-1 cells, as detected on indirect immunofluorescence analysis using anti-p2(gag) peptide monoclonal antibodies, which recognize the nona peptide (AEAMSQVTN) derived from the N-terminus of the p2(gag) peptide, and cleaved by HIV-1 PR in vitro. Treatment of CEM/LAV-1 cells with the fusion peptide also resulted in a decrease in the amount of p24(gag )in the resultant viral lysate derived from the cell-free supernatant. Taken together, these data suggest that the p2(gag) peptide consequently blocks the autolysis of HIV-1 virions for the conservation of viral species.     

Strategy for Identifying Dendritic Cell-Processed CD4(+) T Cell Epitopes from the HIV Gag p24 Protein

Mass Spectrometry (MS) is becoming a preferred method to identify class I and class II peptides presented on major histocompability complexes (MHC) on antigen presenting cells (APC). We describe a combined computational and MS approach to identify exogenous MHC II peptides presented on mouse spleen dendritic cells (DCs). This approach enables rapid, effective screening of a large number of possible peptides by a computer-assisted strategy that utilizes the extraordinary human ability for pattern recognition. To test the efficacy of the approach, a mixture of epitope peptide mimics (mimetopes) from HIV gag p24 sequence were added exogenously to Fms-like tyrosine kinase 3 ligand (Flt3L)-mobilized splenic DCs. We identified the exogenously added peptide, VDRFYKTLRAEQASQ, and a second peptide, DRFYKLTRAEQASQ, derived from the original exogenously added 15-mer peptide. Furthermore, we demonstrated that our strategy works efficiently with HIV gag p24 protein when delivered, as vaccine protein, to Flt3L expanded mouse splenic DCs in vitro through the DEC-205 receptor. We found that the same MHC II-bound HIV gag p24 peptides, VDRFYKTLRAEQASQ and DRFYKLTRAEQASQ, were naturally processed from anti-DEC-205 HIV gag p24 protein and presented on DCs. The two identified VDRFYKTLRAEQASQ and DRFYKLTRAEQASQ MHC II-bound HIV gag p24 peptides elicited CD4(+) T-cell mediated responses in vitro. Their presentation by DCs to antigen-specific T cells was inhibited by chloroquine (CQ), indicating that optimal presentation of these exogenously added peptides required uptake and vesicular trafficking in mature DCs. These results support the application of our strategy to identify and characterize peptide epitopes derived from vaccine proteins processed by DCs and thus has the potential to greatly accelerate DC-based vaccine development.     

Reactivity of an HIV gag gene polypeptide expressed in E. coli with sera from AIDS patients and monoclonal antibodies to gag

A segment of the gag gene of the human immunodeficiency virus (HIV) (HTLV-IIIB strain), the virus which causes acquired immunodeficiency syndrome (AIDS), has been cloned into the bacterial expression vector, pCQV2, and mapped to the right-hand portion of the gag gene containing the carboxyl-terminal portion of p24 and the amino-terminal portion of p15. Nucleic-acid sequencing of the insert-vector junctions further defined the 5'-terminal nucleotide of HIV sequence as nucleotide 997 and the 3'-terminal nucleotide as 1696. When used in an enzyme-linked immunosorbent assay (ELISA) with sera from HIV-infected patients, the cloned antigen reacted with a subset of sera which were positive on a standard ELISA using whole virus as antigen. Western-blot screening of these sera with whole virus indicated that all p24-positive sera were positive with the clone, suggesting that the carboxyl-terminal portion of p24 contains a highly antigenic epitope(s). A serum which was p24-negative p15-positive by Western blot analysis was also highly reactive, indicating that a p15 epitope is present in the cloned antigen. Epitope mapping with a series of monoclonal antibodies to gag resulted in positive ELISA with 2 of 3 anti-p24, 0 of 1 anti-p15, and 0 of 1 anti-p17 Western-blot-positive monoclonal antibodies, suggesting that one of the anti-p24 monoclonal antibodies reacts with epitopes amino-terminal to those coded from nucleotide 997, two anti-p24 monoclonals react with epitopes carboxyl-terminal to those coded from nucleotide 997, and the anti-p15 monoclonal reacts with epitopes carboxyl-terminal to those coded from nucleotide 1696.     

Mycobacterial codon optimization enhances antigen expression and virus-specific immune responses in recombinant Mycobacterium bovis bacille Calmette-Guérin expressing human immunodeficiency virus type 1 Gag

Although its potential for vaccine development is already known, the introduction of recombinant human immunodeficiency virus (HIV) genes to Mycobacterium bovis bacille Calmette-Guérin (BCG) has thus far elicited only limited responses. In order to improve the expression levels, we optimized the codon usage of the HIV type 1 (HIV-1) p24 antigen gene of gag (p24 gag) and established a codon-optimized recombinant BCG (rBCG)-p24 Gag which expressed a 40-fold-higher level of p24 Gag than did that of nonoptimized rBCG-p24 Gag. Inoculation of mice with the codon-optimized rBCG-p24 Gag elicited effective immunity, as evidenced by virus-specific lymphocyte proliferation, gamma interferon ELISPOT cell induction, and antibody production. In contrast, inoculation of animals with the nonoptimized rBCG-p24 Gag induced only low levels of immune responses. Furthermore, a dose as small as 0.01 mg of the codon-optimized rBCG per animal proved capable of eliciting immune responses, suggesting that even low doses of a codon-optimized rBCG-based vaccine could effectively elicit HIV-1-specific immune responses.     

Biochemical and immunological analysis of human immunodeficiency virus gag gene products p17 and p24.

Human immunodeficiency virus (HIV) p24 was purified to homogeneity and subjected to NH2-terminal sequencing. The sequence determined perfectly corresponded to the amino acid sequence predicted from the nucleotide sequence of a middle portion of the HIV first open frame: the gag gene. Edman degradation of purified HIV p17 revealed instead a blocked NH2 terminus. Hybridomas secreting monoclonal antibodies to p24 and p17 were developed and used to immunologically characterize these two HIV gag gene products. They identified two gag precursor polyproteins in the cytoplasm of HIV-infected cells: Pr53gag, which corresponds to the primary translational product, and Pr39gag, which corresponds to an intermediate product of cleavage of Pr53gag. These monoclonal antibodies allowed us also to study posttranslational modification of HIV p24 and p17. p24 was found to be phosphorylated, which is a very unusual feature for a major retroviral core protein. p17 was found to be myristylated, as are all NH2-terminal gag proteins of the known human retroviruses.     

Rapid and reversible modulation of T4 (CD4) on monocytoid cells by phorbol myristate acetate: effect on HIV susceptibility

The effect of phorbol myristate acetate (PMA) on T4 (CD4) expression by monocytoid cells was studied. Greater than 99% of untreated U937 and HL-60 cells expressed surface T4 as measured with a fluorescence-activated cell sorter. The percentage of T4 positive cells decreased to less than 20% after incubation with PMA (10(-8) M). A decrease was observed within 15 min of PMA exposure, was maximal within 1 hr, and persisted for at least 3 days in the continuous presence of PMA. The susceptibility of untreated and PMA-treated U937 cells to human immunodeficiency virus (HIV) was also studied. Pretreatment of cells with PMA for 18 hr decreased the production of viral RNA and p24 antigen 24 hr after infection. The dose of PMA resulted in a parallel reduction of both T4 expression and infection by HIV. When PMA was washed from cultures and replaced with fresh medium for 48 hr, then T4 expression and the production viral RNA and p24 antigen following infection were restored. These data suggest that pharmacologic manipulation of surface T4 expression may have a potential role in the prevention or treatment of HIV infection.     

Comparison of recombinant human immunodeficiency virus gag precursor and gag/env fusion proteins and a synthetic env peptide as diagnostic reagents

Diagnostic reagents for detection of human immunodeficiency virus (HIV) exposure with improved reliability may be provided by viral encoded proteins produced by recombinant DNA techniques or by synthetic peptides corresponding to appropriate viral epitopes. We have expressed at high levels in E. coli a gag gene segment corresponding to approximately 97% of the p55 gag precursor protein, as well as a novel gag/env fusion protein that contains antigenic determinants in common with gag p24, env gp41, and env gp120. The gag and gag/env proteins were purified from insoluble inclusion bodies by sequential extraction with increasing concentrations of urea. These components were tested for reactivity with antisera to HIV proteins and peptides. We have also chemically synthesized a peptide corresponding to env residues 578-608, representing a portion of env gp41. The final preparation of gag and gag/env proteins in 8 M urea reacted with sheep anti-HTLV-III p24 gag antibodies and acquired immune deficiency syndrome (AIDS) patient sera. The gag/env fusion protein also reacted with rabbit anti-HIV env 500-511 peptide antibody. Both recombinant proteins and the env peptide were suitable as reagents for evaluation of serum samples by enzyme-linked immunosorbent assay (ELISA). Results of ELISA assays utilizing the recombinant viral proteins and synthetic peptide were in good agreement with results obtained using disrupted virus as antigen in ELISA assays and immunoblotting.     

HIV-1p24蛋白在大肠肝菌中的高效可溶性表达、一步纯化及抗原性分析

合成引物扩增HIV 1p2 4基因 ,并将其克隆到 pQE 30质粒中 ,使其在大肠杆菌E .coliM 15中以IPTG诱导高效表达 ,经SDS PAGE分析 ,该表达产物约占菌体总蛋白 2 0 % ,并且以可溶蛋白的形式存在于细菌裂解液上清之中。经镍离子柱亲和层析一步纯化 ,洗脱产物中 p2 4蛋白纯度达95 %。ELISA分析表明 ,该蛋白可与HIV感染者血清发生特异性免疫反应。以此蛋白交联Sepharose 4B ,亲和层析纯化HIV感染者血清中的抗体 ,用所得抗体与HIV确认试剂反应 ,发现该纯化抗体仅与确认试剂中的 p2 4蛋白反应。上述结果表明在大肠杆菌中已经高效表达了可溶性HIV 1p2 4蛋白 ,该蛋白具有良好的抗原性     

Characteristics of the specific cell-mediated immune response in human immunodeficiency virus infection.

The human immunodeficiency virus (HIV)-specific lymphocyte proliferation response was determined for 40 persons at different stages of HIV infection. The specific response to purified HIV virion antigens from strain HTLV-IIIB was poor, occurred in only 9 of the 40 subjects, was not improved with the addition of interleukin-2, and was more frequent in symptom-free individuals (46%) than in patients with lymphadenopathy syndrome (10%). Reactivity to subcomponent p24 was better than that to whole HIV; reactivity was present in five of six infected persons and increased with the addition of exogenous interleukin-2. Reactivities to subcomponents (g)p41 and gp120 were also measured. This is the first evidence of a specific cell-mediated immune response to HIV antigen in HIV-infected persons. Monkeys immunized with purified HIV or with purified p24 displayed cellular immunoreactivity both to whole HIV and to subcomponents. In contrast to the poor reactivity to HIV antigen, the lymphocytes of the patients had good specific cell proliferation responses to cytomegalovirus and herpes simplex virus challenge and a normal response to the addition of phytohemagglutinin. The results suggest a functional defect in peripheral lymphocytes of some HIV-infected individuals on the basis of their response to whole HIV antigen and a better response to gag protein.     

Human immunodeficiency virus (HIV)-infected tumor xenografts as an in vivo model for antiviral therapy: role of alpha/beta interferon in restriction of tumor growth in nude mice injected with HIV-infected U937 tumor cells.

The host factors involved in the restriction of tumor growth were studied in nude mice transplanted with a cloned line of chronically human immunodeficiency virus (HIV)-infected U937 cells. HIV-infected and uninfected U937 cells exhibited the same growth patterns in culture. However, HIV-infected cells were not tumorigenic when injected subcutaneously in nude mice, whereas large solid tumors were observed in mice injected with uninfected U937 cells. Injection of nude mice with antibody to alpha/beta interferon (IFN-alpha/beta) enabled HIV-infected U937 cells to grow progressively in approximately 90 to 100% of mice. HIV-infected U937 cells formed solid tumors in the majority (60 to 90%) of either immunosuppressed (splenectomized, irradiated, and anti-asialo-GM1-treated) or genetically immunodeficient (bg/nu/xid) nude mice. In mice treated with antibodies to IFN-alpha/beta with established HIV-positive tumors, a direct correlation was found between p24 antigenemia and tumor size. Treatment of established HIV-positive U937 cell tumors with human IFN-alpha or mouse IFN-alpha/beta resulted in a clear-cut inhibition of both tumor growth and p24 HIV antigenemia. In contrast, treatment with tumor necrosis factor alpha markedly inhibited tumor growth but did not significantly decrease serum p24 levels. 3'-Azido-3'-deoxythymidine treatment did not affect either tumor growth or the levels of serum p24 antigen. These data indicate that endogenous IFN-alpha/beta is a crucial factor in the restriction of both tumor growth and p24 antigenemia in mice injected with HIV-infected tumor cells. Moreover, the results suggest that the development of HIV-1 p24 antigenemia in athymic immunosuppressed mice may represent an interesting in vivo model for anti-HIV therapy.     

Patterns of serologic response to human immunodeficiency virus type 1 (HIV-1) in Brazilians with different clinical forms of HIV infection

In order to investigate the IgG HIV-1 antibodies reactivity to structural components of the virus, 85 sera from infected Brazilians, comprising the total spectrum of HIV infection, were analysed by Western blot assay. The sera were confirmed as being positive to HIV with enzyme linked immuno assay (ELISA) and indirect immunofluorescence (IIF). Although the sera from patients reacted less intensively to the gag polypeptide of 55 KDa, no distinctive antigen reaction patterns were observed between sera patients with different clinical forms. Because of the higher frequency of reactivity to the gag p24 in AIDS patients, the patterns of anti-HIV IgG responses are similar to those observed in their African counterparts.     

Resolution of de novo HIV production and trafficking in immature dendritic cells

The challenge in observing de novo virus production in human immunodeficiency virus (HIV)-infected dendritic cells (DCs) is the lack of resolution between cytosolic immature and endocytic mature HIV gag protein. To track HIV production, we developed an infectious HIV construct bearing a diothiol-resistant tetracysteine motif (dTCM) at the C terminus of HIV p17 matrix within the HIV gag protein. Using this construct in combination with biarsenical dyes, we observed restricted staining of the dTCM to de novo-synthesized uncleaved gag in the DC cytosol. Co-staining with HIV gag antibodies, reactive to either p17 matrix or p24 capsid, preferentially stained mature virions and thus allowed us to track the virus at distinct stages of its life cycle within DCs and upon transfer to neighboring DCs or T cells. Thus, in staining HIV gag with biarsenical dye system in situ, we characterized a replication-competent virus capable of being tracked preferentially within infected leukocytes and observed in detail the dynamic nature of the HIV production and transfer in primary DCs.     

Oral Immunization with a Live Coxsackievirus/HIV Recombinant Induces Gag p24-Specific T Cell Responses

Background

The development of an HIV/AIDS vaccine has proven to be elusive. Because human vaccine trials have not yet demonstrated efficacy, new vaccine strategies are needed for the HIV vaccine pipeline. We have been developing a new HIV vaccine platform using a live enterovirus, coxsackievirus B4 (CVB4) vector. Enteroviruses are ideal candidates for development as a vaccine vector for oral delivery, because these viruses normally enter the body via the oral route and survive the acidic environment of the stomach.

Methodology/Principal Findings

We constructed a live coxsackievirus B4 recombinant, CVB4/p24(73₃), that expresses seventy-three amino acids of the gag p24 sequence (HXB2) and assessed T cell responses after immunization of mice. The CVB4 recombinant was physically stable, replication-competent, and genetically stable. Oral or intraperitoneal immunization with the recombinant resulted in strong systemic gag p24-specific T cell responses as determined by the IFN-γ ELISPOT assay and by multiparameter flow cytometry. Oral immunization with CVB4/p24(73₃) resulted in a short-lived, localized infection of the gut without systemic spread. Because coxsackieviruses are ubiquitous in the human population, we also evaluated whether the recombinant was able to induce gag p24-specific T cell responses in mice pre-immunized with the CVB4 vector. We showed that oral immunization with CVB4/p24(73₃) induced gag p24-specific immune responses in vector-immune mice.

Conclusions/Significance

The CVB4/p24(73₃) recombinant retained the physical and biological characteristics of the parental CVB4 vector. Oral immunization with the CVB4 recombinant was safe and resulted in the induction of systemic HIV-specific T cell responses. Furthermore, pre-existing vector immunity did not preclude the development of gag p24-specific T cell responses. As the search continues for new vaccine strategies, the present study suggests that live CVB4/HIV recombinants are potential new vaccine candidates for HIV.     

N-butyldeoxynojirimycin-mediated inhibition of human immunodeficiency virus entry correlates with impaired gp120 shedding and gp41 exposure.

The alpha-glucosidase inhibitor N-butyldeoxynojirimycin (NB-DNJ) is an inhibitor of human immunodeficiency virus (HIV) replication and HIV-induced syncytium formation in vitro. Although an NB-DNJ-mediated change in viral envelope N-glycan composition inhibits HIV entry at the level of post-CD4 binding, the exact mechanism of inhibition remains to be established. In this study we have examined the effects of NB-DNJ on virion envelope composition and CD4-induced gp120 shedding and gp41 exposure. Virion composition analysis revealed an NB-DNJ-mediated reduction of 15% in overall virion envelope glycoprotein content and a reduction of 26% in the proteolytic maturation of virion gp160. Taken together, these two effects resulted in a reduction of approximately 40% in virion gp120 content. CD4-induced shedding of gp120 from the surfaces of envelope-transfected Cos cells was undetectable when gp120 was expressed in the presence of NB-DNJ. Similarly, the shedding of virion-associated gp120 was reduced 7.4-fold. CD4-induced exposure of cryptic gp41 epitopes on the surfaces of HIV-expressing ACH-2 cells was also greatly impaired, and the exposure of virion-associated gp41 epitopes was reduced 4.0-fold. Finally, CD4-induced increases in the binding of antibodies to the V3 loop of ACH-2-cell-expressed envelope glycoproteins were reduced 25-fold when the glycoproteins were expressed in the presence of NB-DNJ. These results suggest that the NB-DNJ-mediated retention of glycosylated N-glycans inhibits HIV entry by a combined effect of a reduction in virion gp120 content and a qualitative defect within the remaining gp120, preventing it from undergoing conformational changes after CD4 binding.     

Up and down regulation of serine esterase release from mouse cytotoxic T lymphocytes by tumor-promoting phorbol ester

Activation of mouse cytotoxic T lymphocytes (CTL) with target cells expressing antigen resulted in the release of serine esterase (SE) into the culture supernatant. Short term treatment (3 hr) of CTL with phorbol-12-myristate-13-acetate (PMA) plus ionophore also caused stimulation of SE release from CTL, while neither PMA alone or ionophore alone could induce SE release. In contrast to this, long term treatment (24 hrs) of CTL with PMA resulted in the inability of CTL to release SE in respond to antigen or PMA plus ionophore. It was also demonstrated that protein kinase C activity of CTL disappeared during induction of desensitization of CTL by PMA.     

Identification of a potent synthetic HIV1 immunogen compromising gag-P24 tandem T- and B-cell epitopes.

Recent studies indicate that the gag gene products may play a crucial role in the immune response against HIV infection since clinical progression to AIDS is associated with a reduction in the level of circulating antibodies to gag p24 and antibodies raised against p17 peptide can inhibit HIV1 infection in vitro. Using conventional structure prediction algorithms for T-cell and B-cell epitopes, we have selected and chemically synthesized several gag peptides. In particular, an unconjugated HIV1-p24 peptide containing both B- and T-cell epitopes in tandem plus Freund's adjuvant induced a strong antibody response in both mice and rabbits against p24 and its precursor p55 as judged by immunoblotting. In addition, the peptide presented in the appropriate MHC context was shown to be highly stimulatory for p24 specific murine T-cell clones.     

The gag gene products of human immunodeficiency virus type 1: alignment within the gag open reading frame, identification of posttranslational modifications, and evidence for alternative gag precursors.

Seven human immunodeficiency virus gag polypeptides were identified in the purified virus and in infected CD4+ lymphocytes by peptide mapping and limited amino acid sequencing of immune-purified proteins. Two gag polyproteins of 55,000 (p55) and 41,000 (p41) daltons were rapidly labeled and readily processed into the major internal gag proteins that were aligned within the gag open reading frame (ORF) as NH2-p16 (MA)-p24 (CA)-p9 (NC)-p7-COOH. The myristoylated p16 (matrix, MA) protein was processed from the myristoylated p55 gag precursor protein. The immunoreactivity of the p16 (MA) protein with region-specific gag antisera and the conservation of the N-terminal myristyl group of the p55 precursor protein in p16 (MA) confirmed its position as the N-terminal-most protein. The p9 (nucleocapsid, NC) protein was localized to residue 378 of the gag ORF, next to the C terminus of the p24/p25 (core antigen, CA) protein. The p9 protein had a repeating Cys residue containing motif which is found in the nucleic acid-binding Cys residue-containing proteins of retroviruses. The p24 (CA) protein, which was localized to residue 133 of the gag ORF, was apparently derived by C-terminal processing of an intermediate polypeptide, p25. Both the mature p24 (CA) and p16 (MA) proteins were phosphorylated at Ser residue(s). We also identified two forms of gag p41 species, one resulting from the C-terminal processing of p55 and the other originating either from N-terminal processing of p55 or from de novo synthesis.     

Antigenic specificity of antibody-dependent cell-mediated cytotoxicity directed against human immunodeficiency virus in antibody-positive sera.

Antibody-dependent cell-mediated cytotoxicity (ADCC) specific for human immunodeficiency virus (HIV) has been described for HIV-infected individuals. To determine the antigenic specificity of this immune response and to define its relationship to the disease state, an ADCC assay was developed using Epstein-Barr virus-transformed lymphoblastoid cell line targets infected with vaccinia virus vectors expressing HIV proteins. The vaccinia virus vectors induced appropriate HIV proteins (envelope glycoproteins gp160, gp120, and gp41 or gag proteins p55, p40, p24, and p17) in infected lymphoblastoid cell lines as demonstrated by radioimmunoprecipitation and syncytia formation with c8166 cells. Killer cell-mediated, HIV-specific ADCC was found in sera from HIV-seropositive but not HIV-seronegative hemophiliacs. This HIV-specific response was directed against envelope glycoprotein but was completely absent against target cells expressing the HIV gag proteins. The ADCC directed against gp160 was present at serum dilutions up to 1/316,000. There was no correlation between serum ADCC titer and the stage of HIV-related illness as determined by T-helper-cell numbers. These experiments clearly implicated gp160 as the target antigen of HIV-specific ADCC activity following natural infection. Vaccines which stimulate antibodies directed against gp160, which are capable of mediating ADCC against infected cells, could be important for protection against infection by cell-associated virus.     

HIV-1 Gag p17-p24在痘苗病毒中的表达及性质研究

研究了重组痘苗病毒表达的HIV1核心蛋白(Gag)p17p24蛋白的一些生物学及免疫学特点。间接免疫荧光、DotELISA及Westernblot结果表明,构建的两株重组病毒分别表达了HIV1Gagp24及p17p24融合蛋白。电镜观察证实,Gagp24及p1724重组蛋白均可形成病毒样粒子。重组病毒可诱导小鼠产生抗HIV1Gagp24抗体。重组病毒感染BHK21细胞后,可见由于细胞凋亡而致的染色体DNA断裂“梯子”电泳图。