Kristine Aldrich

Potent, persistent induction and modulation of cellular immune responses in rhesus macaques primed with Ad5hr-simian immunodeficiency virus (SIV) env/rev, gag, and/or nef vaccines and boosted with SIV gp120.

ABSTRACT Immunity elicited by multicomponent vaccines delivered by replication-competent Ad5hr-simian immunodeficiency virus (SIV) recombinants was systematically investigated. Rhesus macaques were immunized mucosally at weeks 0 and 12 with Ad5hr-SIVsmH4env/rev, with or without Ad5hr-SIVmac239gag or Ad5hr-SIVmac239nef, or with all three recombinants. The total Ad5hr dosage was comparably adjusted among all animals with empty Ad5hr-ΔE3 vector. The macaques were boosted with SIV gp120 in monophosphoryl A-stable emulsion adjuvant at 24 and 36 weeks. Controls received Ad5hr-ΔE3 vector or adjuvant only. By ELISPOT analysis, all four SIV gene products elicited potent cellular immune responses that persisted 42 weeks post-initial immunization. Unexpectedly, modulation of this cellular immune response was observed among macaques receiving one, two, or three Ad5hr-SIV recombinants. Env responses were significantly enhanced throughout the immunization period in macaques immunized with Ad5hr-SIV env/rev plus Ad5hr-SIV gag and tended to be higher in macaques that also received Ad5hr-SIV nef. Macaques primed with all three recombinants displayed significant down-modulation in numbers of gamma interferon (IFN-γ)-secreting cells specific for SIV Nef, and the Env- and Gag-specific responses were also diminished. Modulation of antibody responses was not observed. Down-modulation was seen only during the period of Ad5hr-recombinant priming, not during subunit boosting, although SIV-specific IFN-γ-secreting cells persisted. The effect was not attributable to Ad5hr replication differences among immunization groups. Vaccine delivery via replication-competent live vectors, which can persistently infect new cells and continuously present low-level antigen, may be advantageous in overcoming competition among complex immunogens for immune recognition. Effects of current multicomponent vaccines on individual immune responses should be evaluated with regard to future vaccine design.

Improved Protection of Rhesus Macaques against Intrarectal Simian Immunodeficiency Virus SIVmac251 Challenge by a Replication-Competent Ad5hr-SIVenv/rev and Ad5hr-SIVgag Recombinant Priming/gp120 Boosting Regimen

ABSTRACT In this study we investigated the ability of a replication-competent Ad5hr-SIVenv/rev and Ad5hr-SIVgag recombinant priming/gp120 boosting regimen to induce protective immunity in rhesus macaques against pathogenic simian immunodeficiency virusmac251. Immunization of macaques by two sequential administrations of the same recombinants by the same route resulted in boosting and persistence of SIV-specific cellular immune responses for 42 weeks past the initial immunization. Anti-SIV gp120 immunoglobulin G (IgG) and IgA antibodies were induced in secretory fluids, and all macaques exhibited serum neutralizing antibody activity. After intrarectal SIVmac251 challenge, all of the macaques became infected. However, relative protection, as assessed by statistically significant lower SIV viral loads in plasma at both acute infection and set point, was observed in 8 out of 12 immunized non-Mamu-A∗01 animals. Elevated mean cellular immune responses to Gag and Env, neutralizing antibody activity, and IgG and IgA binding antibody levels were observed in the eight protected macaques. Statistically significant correlations with protective outcome were observed for cellular immune responses to SIV Env and Gag and for SIV gp120-specific IgG antibodies in nasal and vaginal fluids. Two macaques that exhibited the greatest and most persistent viremia control also exhibited strong CD8+ T-cell antiviral activity. The results suggest that a spectrum of immune responses may be necessary for adequate control of viral replication and disease progression and highlight a potential role for nonneutralizing antibodies at mucosal sites.

A Replication Competent Adenovirus 5 Host Range Mutant-Simian Immunodeficiency Virus (SIV) Recombinant Priming/Subunit Protein Boosting Vaccine Regimen Induces Broad, Persistent SIV-Specific Cellular Immunity to Dominant and Subdominant Epitopes in Mamu-A*01 Rhesus Macaques

CTL are important in controlling HIV and SIV infection. To quantify cellular immune responses induced by immunization, CD8+ T cells specific for the subdominant Env p15m and p54m epitopes and/or the dominant Gag p11C epitope were evaluated by tetramer staining in nine macaques immunized with an adenovirus (Ad) 5 host range mutant (Ad5hr)-SIVenv/rev recombinant and in four of nine which also received an Ad5hr-SIVgag recombinant. Two Ad5hr-SIV recombinant priming immunizations were followed by two boosts with gp120 protein or an envelope polypeptide representing the CD4 binding domain. Two mock-immunized macaques served as controls. IFN-γ-secreting cells were also assessed by ELISPOT assay using p11C, p15m, and p54m peptide stimuli and overlapping pooled Gag and Env peptides. As shown by tetramer staining, Ad-recombinant priming elicited a high frequency of persistent CD8+ T cells able to recognize p11C, p15m, and p54m epitopes. The presence of memory cells 38 wk postinitial immunization was confirmed by expansion of tetramer-positive CD8+ T cells following in vitro stimulation. The SIV-specific CD8+ T cells elicited were functional and secreted IFN-γ in response to SIV peptide stimuli. Although the level and frequency of response of peripheral blood CD8+ T cells to the subdominant Env epitopes were not as great as those to the dominant p11C epitope, elevated responses were observed when lymph node CD8+ T cells were evaluated. Our data confirm the potency and persistence of functional cellular immune responses elicited by replication competent Ad-recombinant priming. The cellular immunity elicited is broad and extends to subdominant epitopes.

Boosting of SIV-specific immune responses in rhesus macaques by repeated administration of Ad5hr-SIVenv/rev and Ad5hr-SIVgag recombinants.

Previous non-human primate studies have shown replication competent adenovirus (Ad) HIVenv/rev and SIVenv/rev recombinants to be promising vaccine candidates. To broaden induced immunity in rhesus macaques, an Ad type 5 host range (Ad5hr) mutant vector with an inserted SIV gag gene was added to the vaccine regimen. Immunity to the encoded SIV Env, Rev, and Gag gene products was evaluated following two immunizations with the same recombinants. The vaccines were administered intranasally plus orally via stomach tube at weeks 0 and 12. The recombinants replicated well in the upper respiratory tract but poorly in the gut, suggesting enteric-coated capsules might improve oral delivery to the intestine. SIV-specific cellular immunity was induced in all 16 immunized macaques. Fourteen exhibited positive interferon-gamma (IFN-gamma) ELISPOT responses, and nine, including two lacking IFN-gamma responses, exhibited SIV-specific T-cell proliferative activity. IFN-gamma secreting peripheral blood mononuclear cells (PBMCs) in response to SIV Gag, Env, and Rev peptides were induced in 73, 53, and 27% of macaques, respectively, and were boosted two- to four-fold by the second immunization. A persistent response to Gag was evident at least 10 weeks thereafter. p11C tetramer staining confirmed elicitation of SIV Gag-specific CD8+ T-cells in Mamu-A*01 macaques. Proliferative responses were more frequent after the second immunization, and binding antibody titers to SIV gp120 were significantly boosted by the immunization regimen. We conclude that a second administration of recombinants based in the same Ad5hr vector can effectively boost immunity to inserted gene products, obviating development of several recombinants in different Ad serotypes for multiple immunizations.

Cross-protection in NYVAC-HIV-1-immunized/HIV-2-challenged but not in NYVAC-HIV-2-immunized/SHIV-challenged rhesus macaques.

ObjectivesImmunization with attenuated poxvirus-HIV-1 recombinants followed by protein boosting had protected four of eight rhesus macaques from HIV-2SBL6669 challenge. The present study was designed to confirm this result and to conduct the reciprocal cross-protection experiment. MethodsTwenty-four macaques were primed with NYVAC (a genetically attenuated Copenhagen vaccinia strain) recombinants with HIV-1 and HIV-2 env and gag–pol or NYVAC vector alone and boosted with homologous, oligomeric gp160 proteins or adjuvant only. Binding and neutralizing antibodies, cytotoxic T-lymphocytes (CTL) and CD8 T cell antiviral activity (CD8AA) were evaluated. One half of each immunization and control group were intravenously challenged with SHIVHXB2 the other half was challenged with HIV-2SBL6669,. Protective outcome was assessed by monitoring virus isolation, proviral DNA and plasma viral RNA. ResultsBoth immunization groups developed homologous binding antibodies; however, homologous neutralizing antibodies were only observed in NYVAC–HIV-2-immunized macaques. While no cross-reactive neutralizing antibodies were detected, both immunization groups displayed cross-reactive CTL. Significant CD8AA was observed for only one NYVAC–HIV-2-immunized macaque. Virological assessments verified that both NYVAC–HIV-1 and NYVAC–HIV-2 immunization significantly reduced viral burdens and partially protected against HIV-2 challenge, although cross-protection was not at the level that had been previously reported. Humoral antibody and/or CTL and CD8AA were associated with protection against homologous HIV-2 challenge, while cellular immune responses seemed more important for cross-protection. No significant protection was observed in the SHIV-challenged macaques, although NYVAC–HIV-1 immunization resulted in significantly lower viral burdens compared with controls. ConclusionsFurther delineation of cross-reactive mechanisms may aid in the development of a broadly protective vaccine.

Evaluation of combination DNA/replication-competent Ad-SIV recombinant immunization regimens in rhesus macaques

Combination vaccine regimens in which priming with recombinant DNA is followed by boosting with recombinant viral vectors have been shown in previous studies to effectively enhance cellular immunity. However, no information exists concerning possible synergy of the cellular immune response when DNA immunization is followed by administration of a recombinant vector able to replicate. As our approach makes use of replication-competent Ad HIV and SIV recombinants, we performed a pilot experiment in six rhesus macaques in which we compared immunogenicity resulting from priming with one or two DNA recombinants encoding the SIVsmH4 env and rev genes with that elicited by a single replication-competent Ad5hr-SIV env/rev priming immunization. All macaques were subsequently administered an Ad5hr-SIV env/rev booster immunization followed by two immunizations with SIV gp120 protein. The choice of the env gene as target immunogen allowed comparison of induced cellular immune responses as well as binding and neutralizing antibodies elicited in serum and mucosal secretions. We report here that all immunized monkeys developed strong cellular immunity to the SIV envelope as shown by secretion of interferon-gamma, lysis of envelope-expressing target cells, and/or proliferation in response to gp120 or inactivated SIV. Similarly, all macaques developed anti-gp120 binding antibodies and neutralizing antibodies in serum and IgG and IgA binding antibodies in mucosal secretions. We did not observe consistently enhanced immune responses in any immunization group. We conclude that two sequential immunizations with the same replication-competent Ad5hr-SIV recombinant is as effective as priming with one or two recombinant DNA vaccines followed by a single Ad5hrSIV recombinant immunization.

Effects of intestinal survival surgery on systemic and mucosal immune responses in SIV‐infected rhesus macaques

Abstract: Evaluation of cellular immunity in the intestinal lamina propria of rhesus macaques has been used previously to assess protective immunity against mucosal simian immunodeficiency virus (SIV) challenges. As this technique requires survival surgery to obtain jejunal tissue, effects of surgical stress on the immune system were investigated. SIV‐specific immune responses, including IgG and IgA binding antibodies in sera and mucosal secretions, IgG and IgA secreting cells in peripheral blood, IgG neutralizing antibodies, T‐cell proliferative responses, and interferon‐γ secretion by peripheral blood mononuclear cells, were evaluated pre‐ and post‐surgery in macaques immunized with adenovirus‐SIV recombinant vaccines and SIV envelope protein and in SIV‐infected macaques. No differences in these immune parameters were observed in SIV‐naïve, immunized macaques or healthy SIV‐infected macaques with regard to surgery. A dramatic increase in total IgA antibody level following surgery in the rectal secretions of one SIV‐infected macaque that was rapidly progressing to AIDS and failed to recover from surgery was attributed to an abscess that developed at the intestinal site. To date, nearly 30 other macaques have undergone the intestinal survival surgery, some on more than one occasion, without experiencing any clinical difficulty. Overall, our results suggest that in healthy macaques, intestinal resection survival surgery can be conducted safely. Further, the method can be used to reliably sample the intestinal mucosa without major or persistent impact on humoral or cellular immune responses.