Comparative analysis of the magnitude, quality, phenotype, and protective capacity of simian immunodeficiency virus gag-specific CD8+ T cells following human-, simian-, and chimpanzee-derived recombinant adenoviral vector immunization.

Recombinant adenoviral vectors (rAds) are the most potent recombinant vaccines for eliciting CD8(+) T cell-mediated immunity in humans; however, prior exposure from natural adenoviral infection can decrease such responses. In this study we show low seroreactivity in humans against simian- (sAd11, sAd16) or chimpanzee-derived (chAd3, chAd63) compared with human-derived (rAd5, rAd28, rAd35) vectors across multiple geographic regions. We then compared the magnitude, quality, phenotype, and protective capacity of CD8(+) T cell responses in mice vaccinated with rAds encoding SIV Gag. Using a dose range (1 × 10(7)-10(9) particle units), we defined a hierarchy among rAd vectors based on the magnitude and protective capacity of CD8(+) T cell responses, from most to least, as: rAd5 and chAd3, rAd28 and sAd11, chAd63, sAd16, and rAd35. Selection of rAd vector or dose could modulate the proportion and/or frequency of IFN-γ(+)TNF-α(+)IL-2(+) and KLRG1(+)CD127(-)CD8(+) T cells, but strikingly ∼30-80% of memory CD8(+) T cells coexpressed CD127 and KLRG1. To further optimize CD8(+) T cell responses, we assessed rAds as part of prime-boost regimens. Mice primed with rAds and boosted with NYVAC generated Gag-specific responses that approached ∼60% of total CD8(+) T cells at peak. Alternatively, priming with DNA or rAd28 and boosting with rAd5 or chAd3 induced robust and equivalent CD8(+) T cell responses compared with prime or boost alone. Collectively, these data provide the immunologic basis for using specific rAd vectors alone or as part of prime-boost regimens to induce CD8(+) T cells for rapid effector function or robust long-term memory, respectively.

Differential specificity and immunogenicity of adenovirus type 5 neutralizing antibodies elicited by natural infection or immunization.

A recent clinical trial of a T-cell-based AIDS vaccine delivered with recombinant adenovirus type 5 (rAd5) vectors showed no efficacy in lowering viral load and was associated with increased risk of human immunodeficiency virus type 1 (HIV-1) infection. Preexisting immunity to Ad5 in humans could therefore affect both immunogenicity and vaccine efficacy. We hypothesized that vaccine-induced immunity is differentially affected, depending on whether subjects were exposed to Ad5 by natural infection or by vaccination. Serum samples from vaccine trial subjects receiving a DNA/rAd5 AIDS vaccine with or without prior immunity to Ad5 were examined for the specificity of their Ad5 neutralizing antibodies and their effect on HIV-1 immune responses. Here, we report that rAd5 neutralizing antibodies were directed to different components of the virion, depending on whether they were elicited by natural infection or vaccination in HIV vaccine trial subjects. Neutralizing antibodies elicited by natural infection were directed largely to the Ad5 fiber, while exposure to rAd5 through vaccination elicited antibodies primarily to capsid proteins other than fiber. Notably, preexisting immunity to Ad5 fiber from natural infection significantly reduced the CD4 and CD8 cell responses to HIV Gag after DNA/rAd5 vaccination. The specificity of Ad5 neutralizing antibodies therefore differs depending on the route of exposure, and natural Ad5 infection compromises Ad5 vaccine-induced immunity to weak immunogens, such as HIV-1 Gag. These results have implications for future AIDS vaccine trials and the design of next-generation gene-based vaccine vectors.

Impact of cytotoxic-T-lymphocyte memory induction without virus-specific CD4+ T-Cell help on control of a simian immunodeficiency virus challenge in rhesus macaques.

Despite many efforts to develop AIDS vaccines eliciting virus-specific T-cell responses, whether induction of these memory T cells by vaccination before human immunodeficiency virus (HIV) exposure can actually contribute to effective T-cell responses postinfection remains unclear. In particular, induction of HIV-specific memory CD4(+) T cells may increase the target cell pool for HIV infection because the virus preferentially infects HIV-specific CD4(+) T cells. However, virus-specific CD4(+) helper T-cell responses are thought to be important for functional CD8(+) cytotoxic-T-lymphocyte (CTL) induction in HIV infection, and it has remained unknown whether HIV-specific memory CD8(+) T cells induced by vaccination without HIV-specific CD4(+) T-cell help can exert effective responses after virus exposure. Here we show the impact of CD8(+) T-cell memory induction without virus-specific CD4(+) T-cell help on the control of a simian immunodeficiency virus (SIV) challenge in rhesus macaques. We developed a prophylactic vaccine by using a Sendai virus (SeV) vector expressing a single SIV Gag(241-249) CTL epitope fused with enhanced green fluorescent protein (EGFP). Vaccination resulted in induction of SeV-EGFP-specific CD4(+) T-cell and Gag(241-249)-specific CD8(+) T-cell responses. After a SIV challenge, the vaccinees showed dominant Gag(241-249)-specific CD8(+) T-cell responses with higher effector memory frequencies in the acute phase and exhibited significantly reduced viral loads. These results demonstrate that virus-specific memory CD8(+) T cells induced by vaccination without virus-specific CD4(+) T-cell help could indeed facilitate SIV control after virus exposure, indicating the benefit of prophylactic vaccination eliciting virus-specific CTL memory with non-virus-specific CD4(+) T-cell responses for HIV control.

Delivery of immunotherapy with peptide-pulsed blood in macaques.

Simple and effective delivery methods for cellular immunotherapies are needed. We assessed ex vivo pulsing of overlapping SIV Gag 15mer peptides onto either whole blood or PBMC in 15 randomly assigned SIV-infected macaques. Both delivery methods were safe and immunogenic, stimulating high levels of broad and polyfunctional Gag-specific CD4 and CD8 T cells. Delivery of overlapping Gag peptides via either whole blood or PBMC is suitable for clinical evaluation.

Mutant murine leukemia virus Gag proteins lacking proline at the N-terminus of the capsid domain block infectivity in virions containing wild-type Gag.

We have investigated the properties of murine leukemia virus Gag mutants in which the p12-CA cleavage site is altered. In one mutant, the cleavage is blocked; in the other, the conserved proline at the N-terminus of CA has been replaced with glycine. No infectivity was detected in either mutant. Mutant particles cannot synthesize full-length DNA upon infecting permissive cells. Particles composed of a mixture of wild-type and mutant proteins have severely impaired infectivity. These mixed particles are defective in their ability to synthesize DNA upon infection, but this defect is less severe than the loss of infectivity. Thus, proteins lacking the correct N-terminus of CA inhibit DNA synthesis and also interfere with formation or integration of a full-length, normal provirus. The results imply that CA proteins function as part of a large, highly organized structure in reverse transcription and apparently at a later step as well.

The role of immunity in protection from mucosal SIV infection in macaques.

The need for an effective vaccine against HIV has prompted a refocusing of attention on mucosal immunity. More than 75% of all infections are acquired across a mucosal surface. It is therefore a prerequisite for a vaccine to target directly the mucosal tissues or indirectly the regional lymph nodes in order to prevent or control viral replication. Although mucosal immunization has induced responses at the genital or rectal surfaces, immune mechanisms alone have not been shown to be sufficient to contain infections in macaques. A growing body of evidence suggests that a dual mechanism may be required for effective mucosal protection, mediated by specific CD4 and CD8 T cell and antibody responses to the immunizing agents, plus innate antiviral factors and beta chemokines that down-regulate CCR5 coreceptors. Targeted iliac lymph node immunization with SIV gp 120 and p27 in alum prevents SIV infection or significantly decreases the viral load when immunized macaques were challenged with SIV by the rectal route. Indeed, in addition to specific immunity, including significant SIgA antibody secreting cells in the iliac lymph nodes, CD8-suppressor factor and the 3beta chemokines (RANTES, MIP-1alpha and MIP-1beta) are significantly associated with protection against rectal mucosal SIV infection.

Long-term follow-up: no effect of therapeutic vaccination with HIV-1 p17/p24:Ty virus-like particles on HIV-1 disease progression.

Long-term effects of therapeutic vaccination of human immunodeficiency virus (HIV)-1-infected subjects with HIV-1 p17/p24:Ty virus-like particles (p24-VLP) on progression to AIDS, death, a CD4 cell count

Therapeutic effect of a Gag-nuclease fusion protein against retroviral infection in vivo.

Recently, remarkable progress has been made in developing effective combination drug therapies that can control but not cure retroviral replication. Even when effective, these drug regimens are toxic, they require demanding administration schedules, and resistant viruses can emerge. Thus the need for new gene-based therapies continues. In one such approach, capsid-targeted viral inactivation (CTVI), nucleases fused to viral coat proteins are expressed in infected cells and become incorporated during virion assembly. CTVI can eliminate infectious murine retrovirus titer in tissue culture. Here we describe transgenic mice expressing fusions of the Moloney murine leukemia virus (Mo-MuLV) Gag protein to staphylococcal nuclease. This work tests the protective effect and demonstrates in vivo proof-of-principle of CTVI in transgenic mice expressing endogenous proviral copies of Mo-MuLV. The antiviral protein-expressing mice are phenotypically normal, attesting to the lack of toxicity of the fusion protein. The Mo-MuLV infection was much less virulent in transgenic littermates than in nontransgenic littermates. Gag-nuclease expression reduced infectious titers in blood up to 10-fold, decreased splenomegaly and leukemic infiltration, and increased life spans up to 2.5-fold in transgenic relative to nontransgenic infected animals. These results suggest that gene therapies based on similar fusion proteins, designed to attack human immunodeficiency virus or other retroviruses, could provide substantial therapeutic benefits.

Mutational analysis of HIV-1 gag proteins (review).

The mature Gag proteins of human immunodeficiency virus type 1 (HIV-1) are major components of infectious virions, and thought to carry out numerous functions throughout the HIV-1 replication cycle. We have recently generated numerous gag gene mutants of HIV-1 to genetically study the functions of the Gag proteins. Through the biological and biochemical analyses, our HIV-1 gag mutants have been grouped into early (defective for uncoating/reverse transcription), late (defective for virion release/maturation), and early/late (defective for both steps) mutants. Many mutants are found to efficiently inhibit the replication of wild-type virus. Worthy of note, there are some early mutants which show host cell-dependent replication potential.

Evaluation of a lipopeptide immunogen as a therapeutic in HIV type 1-seropositive individuals.

A 32-amino acid HIV-1 Gag immunogen was assessed for its ability to augment existing virus-specific CTL responses in chronically HIV-1-infected individuals. The immunogen was an HIV-1 synthetic lipopeptide conjugate composed of an N-palmitoyl-S-[2,3-bis(palmitoyloxy)-(2R)-propyl-N-(R)-cysteinyl] group covalently coupled to a synthetic 32-amino acid Gag peptide containing at least 5 CTL epitopes known to be restricted by HLA-A33, -B8, -B27, -B35, and -Bw62. This potential immunotherapeutic was first determined to be safe in six HIV-1-seropositive subjects, with no adverse clinical effects noted during a 182-day period after administration of a dose of 350 microg. The immunogenicity of this lipopeptide conjugate was then assessed in a pilot study in nine HIV-1-seropositive volunteers with peripheral blood CD4+ lymphocyte counts of >500/microl. Three groups of individuals were studied: HLA-selected subjects who received 350 microg of the immunogen on days 0, 28, and 56 (four subjects); HLA-selected subjects who received a placebo according to a similar inoculation schedule (three subjects); and HLA-mismatched subjects who received the experimental immunogen (two subjects). All subjects were monitored for 26 weeks. After treatment, PBLs from two of the four HLA-selected subjects who received the experimental immunogen showed a transient increase in Gag peptide-specific bulk CTL activity. None of the placebo-vaccinated or vaccinated HLA-mismatched subjects showed any change in bulk Gag peptide-specific CTL activity. However, no consistent decrease in plasma HIV-1 RNA levels was noted in any of the subjects. The present study illustrates that this peptide formulation may not be a sufficiently potent immunogen to significantly augment HIV-1-specific CTLs and to decrease virus load in HIV-1-seropositive individuals.