Effect of the V3 loop deletion of envelope glycoprotein on cellular responses and protection against challenge with recombinant vaccinia virus expressing gp160 of primary human immunodeficiency virus type 1 isolates

HIV long-term non-progressors share similar features with simian immunodeficiency virus infection of chimpanzees

HIV-1 infection in human beings has been an outcome of cross-species transmission event of simian immunodeficiency virus from chimpanzees (SIVcpz). Present study reveals differential features of envelope genes representing different categories of HIV-1 disease progression in human beings, namely, rapid progressors (RP), slow progressors (SP) and long-term non-progressors (LTNP) with respect to SIVcpz, based on their amino acid usage patterns. It was evident that SP, LTNP and SIVcpz envelope genes displayed similar patterns of amino acid usage which strongly contrasted with the features exhibited by the envelope genes representing RP category. Robust analysis revealed that selection constraint of human host on SP and LTNP associated envelope genes and chimpanzee host on SIVcpz envelope genes were more severe compared to selection pressure operational on RP associated envelope genes. Evolutionary forces of selection appeared to be comparatively more relaxed on the RP envelope genes in contrast to SP, LTNP and SIVcpz types. Better binding of RP envelope glycoprotein 120 (gp120) compared to envelope gp120 representing SP, LTNP and SIVcpz with host cellular receptor CD4, as inferred employing molecular docking approaches, promises to confer meaningful insights into the event of speedy progression of HIV in rapid progressors. It was interesting to note that envelope glycoprotein exhibited a tendency of hindering proper interaction of host (human/chimpanzee) CD4 and major histocompatibility complex II (MHC II), with a better efficacy in rapid progressors, thus, facilitating highest degrees of immune suppression. Proper identification of the contrasting features might confer a scope to modulate rapid progression of HIV to a long-term non-progressive controlled case, as observed in LTNP and SIVcpz infection, simultaneously aiding therapeutic research against AIDS targeted at drug and vaccine development.Communicated by Ramaswamy H. Sarma.

Human CD8(+) T cells transduced with an additional receptor bispecific for both Mycobacterium tuberculosis and HIV-1 recognize both epitopes

Tuberculosis (TB) and human immunodeficiency virus type 1 (HIV-1) infection are closely intertwined, with one-quarter of TB/HIV coinfected deaths among people died of TB. Effector CD8(+) T cells play a crucial role in the control of Mycobacterium tuberculosis (MTB) and HIV-1 infection in coinfected patients. Adoptive transfer of a multitude of effector CD8(+) T cells is an appealing strategy to impose improved anti-MTB/HIV-1 activity onto coinfected individuals. Due to extensive existence of heterologous immunity, that is, T cells cross-reactive with peptides encoded by related or even very dissimilar pathogens, it is reasonable to find a single T cell receptor (TCR) recognizing both MTB and HIV-1 antigenic peptides. In this study, a single TCR specific for both MTB Ag85B199-207 peptide and HIV-1 Env120-128 peptide was screened out from peripheral blood mononuclear cells of a HLA-A*0201(+) healthy individual using complementarity determining region 3 spectratype analysis and transferred to primary CD8(+) T cells using a recombinant retroviral vector. The bispecificity of the TCR gene-modified CD8(+) T cells was demonstrated by elevated secretion of interferon-γ, tumour necrosis factor-α, granzyme B and specific cytolytic activity after antigen presentation of either Ag85B199-207 or Env120-128 by autologous dendritic cells. To the best of our knowledge, this study is the first report proposing to produce responses against two dissimilar antigenic peptides of MTB and HIV-1 simultaneously by transfecting CD8(+) T cells with a single TCR. Taken together, T cells transduced with the additional bispecific TCR might be a useful strategy in immunotherapy for MTB/HIV-1 coinfected individuals.

Development of CD8+ T cells expressing two distinct receptors specific for MTB and HIV-1 peptides

The immune response in individuals co-infected with Mycobacterium tuberculosis (MTB) and the human immunodeficiency virus (MTB/HIV) gradually deteriorates, particularly in the cellular compartment. Adoptive transfer of functional effector T cells can confer protective immunity to immunodeficient MTB/HIV co-infected recipients. However, few such effector T cells exist in vivo, and their isolation and amplification to sufficient numbers is difficult. Therefore, enhancing immune responses against both pathogens is critical for treating MTB/HIV co-infected patients. One approach is adoptive transfer of T cell receptor (TCR) gene-modified T cells for the treatment of MTB/HIV co-infections because lymphocyte numbers and their functional avidity is significantly increased by TCR gene transfer. To generate bispecific CD8⁺ T cells, MTB Ag85B_199–207 peptide-specific TCRs (MTB/TCR) and HIV-1 Env_120–128 peptide-specific TCRs (HIV/TCR) were isolated and introduced into CD8⁺ T cells simultaneously using a retroviral vector. To avoid mispairing among exogenous and endogenous TCRs, and to improve the function and stability of the introduced TCRs, several strategies were employed, including introducing mutations in the MTB/TCR constant (C) regions, substituting part of the HIV/TCR C regions with CD3ζ, and linking gene segments with three different 2A peptides. Results presented in this report suggest that the engineered T cells possessed peptide-specific specificity resulting in cytokine production and cytotoxic activity. This is the first report describing the generation of engineered T cells specific for two different pathogens and provides new insights into TCR gene therapy for the treatment of immunocompromised MTB/HIV co-infected patients.

Broader HIV-1 neutralizing antibody responses induced by envelope glycoprotein mutants based on the EIAV attenuated vaccine

BACKGROUND

In order to induce a potent and cross-reactive neutralizing antibody (nAb), an effective envelope immunogen is crucial for many viral vaccines, including the vaccine for the human immunodeficiency virus (HIV). The Chinese equine infectious anemia virus (EIAV) attenuated vaccine has controlled the epidemic of this virus after its vaccination in over 70 million equine animals during the last 3 decades in China. Data from our past studies demonstrate that the Env protein of this vaccine plays a pivotal role in protecting horses from both homologous and heterogeneous EIAV challenges. Therefore, the amino acid sequence information from the Chinese EIAV attenuated vaccine, in comparison with the parental wild-type EIAV strains, was applied to modify the corresponding region of the envelope glycoprotein of HIV-1 CN54. The direction of the mutations was made towards the amino acids conserved in the two EIAV vaccine strains, distinguishing them from the two wild-type strains. The purpose of the modification was to enhance the immunogenicity of the HIV Env.

RESULTS

The induced nAb by the modified HIV Env neutralized HIV-1 B and B'/C viruses at the highest titer of 1:270. Further studies showed that a single amino acid change in the C1 region accounts for the substantial enhancement in induction of anti-HIV-1 neutralizing antibodies.

CONCLUSIONS

This study shows that an HIV envelope modified by the information of another lentivirus vaccine induces effective broadly neutralizing antibodies. A single amino acid mutation was found to increase the immunogenicity of the HIV Env.

Deglycosylation or partial removal of HIV-1 CN54 gp140 V1/V2 domain enhances env-specific T cells

It remains a great challenge to develop an effective HIV vaccine against the most prevalent HIV-1 clade, B'/C recombinant, in China. Our objective was to test the influence of a new modification of the V1/V2 loops of HIV-1(CN54) gp140 on the immunogenicity of Env. HIV-1(CN54) gp140 was deglycosylated by replacing all six N residues in V1/V2 loops with six Q residues (gp140dG) or partially deleted on V1/V2 loops (gp140dV). gp140, gp140dG, and gp140dV were transferred into plasmid vector and recombinant Tiantan vaccinia (rTTV) vector to generate three DNA vaccines and three rTTV vaccines for vaccination of female BALB/c mice in a prime-boost regimen. An Elispot assay was used to read out the T cell immunity and ELISA and a poly-l-leucine (PLL) ELISA was employed to assess humoral immune responses. Surprisingly, gp140dV (1570 +/- 1569 SFCs/10(6) splenocytes) and gp140dG (731 +/- 471 SFCs/10(6) splenocytes) could elicit significantly higher Env-specific T cells than gp140 (224 +/- 140 SFCs/10(6) splenocytes). Three T cell epitopes were newly identified in BALB/c mice at the N terminus of C1, C terminus of C4, and N terminus of HR, respectively. Env-specific binding antibodies and linear antibodies elicited by gp140 tended to be higher than that stimulated by gp140dG and gp140dV but did not reach statistical difference. Our data demonstrated that the deglycosylation and partial deletion of V1/V2 loops of B'/C recombinant gp140 could lead to improvement of specific T cell immune responses.

Characteristics of HIV type 1 (HIV-1) glycoprotein 120 env sequences in mother-infant pairs infected with HIV-1 subtype CRF01_AE

We analyzed the characteristics of the envelope genes of human immunodeficiency virus type 1 in 17 mother-infant pairs infected with variants of the CRF01_AE clade. A total of 353 sequences covering almost the entire glycoprotein (gp) 120 region were available for analysis. We found that, even if the virus population in the mother was complex, only viruses of a restricted subset were transmitted to her infant, independently of whether transmission occurred in utero or during the intrapartum period. We did not find that shorter gp120 regions or fewer potential N-glycosylation sites (PNGS) were characteristic of viruses transmitted from mother to infant. However, our data suggest that a limited number of PNGS that seem to be conserved in all variants in infants but are not uniformly present in variants in mothers may confer an advantage for transmission of the virus, thereby highlighting the potentially important role of the "glycan shield." This finding was particularly significant for the PNGS at positions N301 and N384.

Oral vaccination with modified vaccinia virus Ankara attached covalently to TMPEG-modified cationic liposomes overcomes pre-existing poxvirus immunity from recombinant vaccinia immunization

Development of a safe and effective vaccine for induction of mucosal immunity to the human immunodeficiency virus (HIV) envelope glycoprotein (Env, gp160) represents the best hope for containing the spread of an HIV epidemic worldwide. The highly attenuated modified vaccinia virus Ankara (MVA) is a laboratory virus well suited as a safe vaccine vector. However, the presence of pre-existing immunity to Vaccinia virus in the adult population represents a hindrance that limits the application of the MVA vector for inducing immunity to HIV antigens. Here, cationic liposomes were covalently attached to the surface of recombinant MVA expressing the HIV-1 strain IIIB Env glycoprotein and beta-galactosidase (MVA(IIIB/beta-gal)) using tresylmonomethoxypolyethylene glycol (TMPEG) grafted into a lipid membrane without compromising viral infectivity in vitro and in vivo. The orally administered MVA(IIIB/beta-gal)-TMPEG/liposome complexes were capable of delivering the transgenes to mucosal tissues in mice with pre-existing poxvirus immunity based on beta-galactosidase gene expression in intestinal tissues measured 18 h after infection. Importantly, the MVA(IIIB/beta-gal)-TMPEG/liposome complexes enhanced Env-specific cellular and humoral immune responses in the mucosal and systemic tissues after repeated oral immunization of BALB/c mice. This approach may prove useful for induction of protective immunity against infectious diseases and cancer in populations with pre-existing immunity to vaccinia from smallpox vaccination.

Comparison of immunogenicity between codon optimized HIV-1 Thailand subtype B gp140 and gp145 vaccines

HIV-1 pandemic posed an unprecedented challenge to the global health and it is believed that an effective vaccine will be the final solution against HIV-1. HIV-1 envelope is the primary immunogen in developing neutralization antibody based HIV vaccine. To define the suitable Env derived immunogen, we systemically compared the immunogenicity of gp140 and gp145 in a DNA vaccination alone and a prime-boost modalities. Two DNA vaccines and two recombinant Tiantan vaccinia vaccines (rTTV) were constructed for vaccination of female Balb/c mice. Elispot assay was used to read out the T cell immunity and ELISA assay was used to quantify antibody immunity. PLL (poly-L-leucine)-ELISA assay was used in linear antibody epitope mapping. Mice primed with gp145 tended to elicit more Env-specific T cells responses than those primed with gp140, significant difference was observed in DNA immunization alone. The ultimate T cell responses in prime-boost regimen tend to be determined mainly by the priming efficacy. Linear antibody epitope mapping displayed that sera raised by gp145 priming were vigorously reactive to more peptides than that by gp140. Our data demonstrated HIV-1 Thailand B-derived gp145 may raise higher T-cell responses and broader linear peptide-specific antibody responses than gp140 does. However, it remains to be determined that how these observations are relevant to the neutralization of antibody activities.

Increased level and longevity of protective immune responses induced by DNA vaccine expressing the HIV-1 Env glycoprotein when combined with IL-21 and IL-15 gene delivery

We investigated the ability of a plasmid-derived IL-21 delivered alone or in combination with the IL-15 gene to regulate immune responses to the HIV-1 envelope (Env) glycoprotein induced by DNA vaccination. Mice were injected with the gp140DeltaCFI(HXB2/89.6) vector expressing a modified Env glycoprotein with C-terminal mutations intended to mimic a fusion intermediate, in which the most divergent region encoding the variable V1, V2, and V3 domains of CXCR4-tropic HxB2 virus was replaced with the dual-tropic 89.6 viral strain. Using a recombinant vaccinia virus expressing 89.6 Env glycoprotein (vBD3) in a mouse challenge model, we observed that IL-21 plasmid produced sustained resistance to viral transmission when injected 5 days after DNA vaccination. Moreover, IL-21 in a synergistic manner with IL-15 expression vector augmented the vaccine-induced recall responses to the vBD3 challenge compared with those elicited by immunization in the presence of either cytokine alone. The synergistic combination of IL-21 and IL-15 plasmids promoted expansion of CD8+CD127+ memory T cell pools specific for a subdominant HLA-A2-restricted Env(121-129) epitope (KLTPLCVTL). Our results also show that coimmunization with IL-21 and IL-15 plasmid combination resulted in enhanced CD8+ T cell function that was partially independent of CD4+ T cell help in mediating protection against vBD3 challenge. Furthermore, the use of IL-21 and IL-15 genes was able to increase Ab-dependent cellular cytotoxicity and complement-dependent lysis of Env-expressing target cells through augmentation of Env-specific IgG Ab levels. These data indicate that the plasmid-delivered IL-21 and IL-15 can increase the magnitude of the response to DNA vaccines.

Enhanced immunogenicity of the modified GP5 of porcine reproductive and respiratory syndrome virus

The ORF5-encoded major envelope glycoprotein (GP5) is one of the key immunogenic proteins of the porcine reproductive and respiratory syndrome virus (PRRSV) and is the leading target for the development of the new generation of vaccines against PRRS. However, weak and tardy neutralizing antibodies have been elicited in several developed experimental vaccines expressing PRRSV GP5. More recent evidence has demonstrated a non-neutralizing decoy epitope upstream of the neutralizing epitope of GP5, which might prevent the development of a strong neutralizing antibody response against PRRSV. In the present study, we modified the ORF5 gene by inserting a Pan DR T-helper cell epitope (PADRE) between the neutralizing epitope and the decoy epitope to minimize or eliminate the decoy effect of the non-neutralizing epitope. The immunogenicity of the modified GP5 was further evaluated using DNA vaccination. The results showed that significantly enhanced neutralizing antibodies were elicited in mice immunized with the DNA construct expressing the modified GP5 compared with the native GP5. Slightly increased levels of GP5-specific ELISA antibodies and T-cell proliferative activities were also observed. These results indicate that the high immunogenicity of the modified GP5 might facilitate the development of improved PRRS vaccines in the future.

Protective efficacy of multiepitope human leukocyte antigen-A*0201 restricted cytotoxic T-lymphocyte peptide construct against challenge with human T-cell lymphotropic virus type 1 Tax recombinant vaccinia virus

Human T-cell lymphotropic virus type 1 (HTLV-1) is the causative agent of adult T-cell leukemia. Multiepitope T-cell vaccines are more likely to generate a broad long-lasting immune response than those composed of single epitopes. We recently reported a novel multivalent cytotoxic T-lymphocyte peptide construct derived from the Tax protein of HTLV-1 separated by arginine spacers that elicited high cellular responses against individual epitopes simultaneously in human leukocyte antigen (HLA)-A*0201 transgenic mice. We now report the effect of epitope orientation on the processing of the multiepitope construct by 20s proteasomes and the effect of the processing rates on the immunogenicity of the intended epitopes. A positive correlation was found between processing rates and the immunogenicity of the intended epitopes. The construct with the highest immunogenicity for each epitope was tested for protective efficacy in a preclinical model of infection using HTLV-1 Tax recombinant vaccinia virus and HLA-A*0201 transgenic mice. Mice vaccinated with the multiepitope construct displayed a statistically significant reduction in viral replication that was dependent on CD8 T cells. Reduction in viral replication was also confirmed to be specific to Tax-vaccinia virus. These results demonstrate the activation of Tax-specific CD8+ T cells by vaccination and are supportive of a multivalent peptide vaccine approach against HTLV-1 infections.

Clustered epitopes within the Gag-Pol fusion protein DNA vaccine enhance immune responses and protection against challenge with recombinant vaccinia viruses expressing HIV-1 Gag and Pol antigens

We have generated a codon-optimized hGagp17p24-Polp51 plasmid DNA expressing the human immunodeficiency virus type 1 (HIV-1) Gag-Pol fusion protein that consists of clusters of highly conserved cytotoxic T lymphocyte (CTL) epitopes presented by multiple MHC class I alleles. In the hGagp17p24-Polp51 construct, the ribosomal frameshift site had been deleted together with the potentially immunosuppressive Gag nucleocapsid (p15) as well as Pol protease (p10) and integrase (p31). Analyses of the magnitude and breadth of cellular responses demonstrated that immunization of HLA-A2/K(b) transgenic mice with the hGagp17p24-Polp51 construct induced 2- to 5-fold higher CD8+ T-cell responses to Gag p17-, p24-, and Pol reverse transcriptase (RT)-specific CTL epitopes than the full-length hGag-PolDeltaFsDeltaPr counterpart. The increases were correlated with higher protection against challenge with recombinant vaccinia viruses (rVVs) expressing gag and pol gene products. Consistent with the profile of Gag- and Pol-specific CD8+ T cell responses, an elevated level of type 1 cytokine production was noted in p24- and RT-stimulated splenocyte cultures established from hGagp17p24-Polp51-immunized mice compared to responses induced with the hGag-PolDeltaFsDeltaPr vaccine. Sera of mice immunized with the hGagp17p24-Polp51 vaccine also exhibited an increased titer of p24- and RT-specific IgG2 antibody responses. The results from our studies provide insights into approaches for boosting the breadth of Gag- and Pol-specific immune responses.

Induction of Th1 type response by DNA vaccinations with N, M, and E genes against SARS-CoV in mice

Vaccination against the SARS-CoV infection is an attractive means to control the spread of viruses in public. In this study, we employed a DNA vaccine technology with the levamisole, our newly discovered chemical adjuvant, to generate Th1 type of response. To avoid the enhancement antibody issue, genes encoding the nucleocapsid, membrane, and envelope protein of SARS-CoV were cloned and their expressions in mammalian cells were determined. After the intramuscular introduction into animals, we observed that the constructs of the E, M, and N genes could induce high levels of specific antibodies, T cell proliferations, IFN-γ, DTH responses, and in vivo cytotoxic T cells activities specifically against SARS-CoV antigens. The highest immune responses were generated by the construct encoding the nucleocapsid protein. The results suggest that the N, M, and E genes could be used as the targets to prevent SARS-CoV infection in the DNA vaccine development.

HIV-1 gp120 binding to dendritic cell receptors mobilize the virus to the lymph nodes, but the induced IL-4 synthesis by FcepsilonRI+ hematopoietic cells damages the adaptive immunity--a review, hypothesis, and implications

HIV-1 is equipped with the envelope gp160 glycoprotein for interaction with Langerhans cells (LCs) and dendritic cells (DCs), the members of the innate immune system, which confront the virus at the portal of virus entry in the human body. These cells are equipped with receptors by which they bind and endocytose the virus. The gp120 glycoprotein is used for binding to CD4 receptor and CCR5 co-receptor of T helper 2 (Th2) cells and the virions shed gp120 is able to induce FcepsilonRI+ hematopoietic cells to produce IL-4, which inactivate the host adaptive immune response. The properties of gp120s various functional domains are analyzed together with the regulatory viral proteins, which are involved in the damage to T and B cells during HIV-1 replication. The interaction of HIV-1 virions through their gp120 with LCs and DCs at the portal of virus entry will be discussed. A hypothesis will be presented that the understanding of the role of the different functional domains of gp120 in the life cycle of the virus and during AIDS will help in the design of approaches to prevent and abrogate HIV-1 infection and AIDS.

Effect of partial and complete variable loop deletions of the human immunodeficiency virus type 1 envelope glycoprotein on the breadth of gp160-specific immune responses

Induction of cross-reactive cellular and humoral responses to the HIV-1 envelope (env) glycoprotein was examined after DNA immunization of BALB/c mice with gp140(89.6)-derived constructs exhibiting partial or complete deletions of the V1, V2, and V3 domains. It was demonstrated that specific modification of the V3 loop (mV3) in combination with the V2-modified (mV2) or V1/V2-deleted (DeltaV1/V2) region elicited increased levels of cross-reactive CD8(+) T cell responses. Mice immunized with the mV2/mV3 or DeltaV1/V2/mV3 gp140(89.6) plasmid DNA were greater than 50-fold more resistant to challenge with recombinant vaccinia virus (rVV) expressing heterologous env gene products than animals immunized with the wild-type (WT) counterpart. Sera from mV2/mV3- and DeltaV1/V2/mV3-immunized mice exhibited the highest cross-neutralizing activity and displayed intermediate antibody avidity values which were further enhanced by challenge with rVV expressing the homologous gp160 glycoprotein. In contrast, complete deletion of the variable regions had little or no effect on the cross-reactive antibody responses. The results of these experiments indicate that the breadth of antibody responses to the HIV-1 env glycoprotein may not be increased by removal of the variable domains. Instead, partial deletions within these regions may redirect specific responses toward conserved epitopes and facilitate approaches for boosting cross-reactive cellular and antibody responses to the env glycoprotein.

A single injection of recombinant measles virus vaccines expressing human immunodeficiency virus (HIV) type 1 clade B envelope glycoproteins induces neutralizing antibodies and cellular immune responses to HIV

The anchored and secreted forms of the human immunodeficiency virus type 1 (HIV-1) 89.6 envelope glycoprotein, either complete or after deletion of the V3 loop, were expressed in a cloned attenuated measles virus (MV) vector. The recombinant viruses grew as efficiently as the parental virus and expressed high levels of the HIV protein. Expression was stable during serial passages. The immunogenicity of these recombinant vectors was tested in mice susceptible to MV and in macaques. High titers of antibodies to both MV and HIV-Env were obtained after a single injection in susceptible mice. These antibodies neutralized homologous SHIV89.6p virus, as well as several heterologous HIV-1 primary isolates. A gp160 mutant in which the V3 loop was deleted induced antibodies that neutralized heterologous viruses more efficiently than antibodies induced by the native envelope protein. A high level of CD8+ and CD4+ cells specific for HIV gp120 was also detected in MV-susceptible mice. Furthermore, recombinant MV was able to raise immune responses against HIV in mice and macaques with a preexisting anti-MV immunity. Therefore, recombinant MV vaccines inducing anti-HIV neutralizing antibodies and specific T lymphocytes responses deserve to be tested as a candidate AIDS vaccine.

The fourth surface-exposed region of the outer membrane protein P5-homologous adhesin of nontypable Haemophilus influenzae is an immunodominant but nonprotective decoying epitope

Nontypable Haemophilus influenzae is a major cause of otitis media and other mucosal infections. After natural disease in children and experimental disease in chinchillas, we found a hierarchical pattern of immunodominance among the four surface-exposed regions of the P5-homologous adhesin, with the greatest response directed to region 4. However, Ab to region 4 is not protective. When this natural but biased response was refocused to region 3 by immunization, augmented bacterial clearance and protection from ascending otitis media was observed. Collectively, the data indicate that region 4 contains a highly immunodominant but nonprotective decoying epitope, the presence of which dampens the immune response to a subdominant but protective epitope in region 3.