Oral vaccination of mice with adenoviral vectors is not impaired by preexisting immunity to the vaccine carrier

Adenovirus vectors with E1 deleted of the human serotype 5 (AdHu5) and the chimpanzee serotype 68 (AdC68) expressing the glycoprotein of the Evelyn Rokiniki Abelseth strain of rabies virus were tested upon oral application for induction of systemic and mucosal transgene product-specific antibody responses in mice. Both vectors induced systemic and mucosal antibodies to rabies virus, including virus-neutralizing antibodies and protection against a severe intracerebral challenge with a mouse-adapted strain of rabies virus. Pre-existing immunity of AdHu5 virus, which dampens induction of transgene product-specific immunity elicited by AdHu5 vectors given systemically did not impair the response induced by oral vaccination. Oral priming-boosting regimens with either heterologous or homologous adenoviral vectors used sequentially increased both mucosal and systemic antibody titers to rabies virus [corrected]     

Novel, chimpanzee serotype 68-based adenoviral vaccine carrier for induction of antibodies to a transgene product

An E1-deletion-containing adenoviral recombinant based on the chimpanzee serotype 68 (AdC68) was developed to express the rabies virus glycoprotein. Mice immunized with this construct (AdC68rab.gp) developed antibodies to rabies virus and remained resistant to challenge with an otherwise lethal dose of rabies virus. In na?ve mice immunized intranasally, the rabies virus-specific antibody responses elicited by AdC68rab.gp were comparable with regard to both titers and isotype profiles to those induced by an adenoviral recombinant based on human serotype 5 (Adhu5) expressing the same transgene product. In contrast, subcutaneous immunization with the AdC68rab.gp vaccine resulted in markedly lower antibody responses to the rabies virus glycoprotein than the corresponding Adhu5 vaccine. Antibodies from AdC68rab.gp-immunized mice were strongly biased towards the immunoglobulin G2a isotype. The antibody response to the rabies virus glycoprotein presented by Adhu5rab.gp was severely compromised in animals preexposed to the homologous adenovirus. In contrast, the rabies virus-specific antibody response to the AdC68rab.gp vaccine was at most marginally affected by preexisting immunity to common human adenovirus serotypes, such as 2, 4, 5, 7, and 12. This novel vaccine carrier thus offers a distinct advantage over adenoviral vaccines based on common human serotypes.     

Induction of CD8+ T cells to an HIV-1 antigen through a prime boost regimen with heterologous E1-deleted adenoviral vaccine carriers

E1-deleted adenoviral recombinants most commonly based on the human serotype 5 (AdHu5) have been shown thus far to induce unsurpassed transgene product-specific CD8(+) T cell responses. A large percentage of the adult human population carries neutralizing Abs due to natural exposures to AdHu5 virus. To circumvent reduction of the efficacy of adenovirus (Ad) vector-based vaccines by neutralizing Abs to the vaccine carrier, we developed E1-deleted adenoviral vaccine carriers based on simian serotypes. One of these carriers, termed AdC68, expressing a codon-optimized truncated form of gag of HIV-1 was shown previously to induce a potent transgene product-specific CD8(+) T cell response in mice. We constructed a second chimpanzee adenovirus vaccine vector, termed AdC6, also expressing the truncated gag of HIV-1. This vector, which belongs to a different serotype than the AdC68 virus, induces high frequencies of gag-specific CD8(+) T cells in mice including those pre-exposed to AdHu5 virus. Generation of an additional E1-deleted adenoviral vector of chimpanzee origin allows for sequential booster immunizations with heterologous vaccine carriers. In this study, we show that such heterologous prime boost regimens based on E1-deleted adenoviral vectors of different serotypes expressing the same transgene product are highly efficient in increasing the transgene product-specific CD8(+) T cell response. They are equivalent to sequential vaccinations with an E1-deleted Ad vector followed by booster immunization with a poxvirus vector and they surpass regimens based on DNA vaccine prime followed by a recombinant adenoviral vector boost.     

Effect of preexisting immunity to adenovirus human serotype 5 antigens on the immune responses of nonhuman primates to vaccine regimens based on human- or chimpanzee-derived adenovirus vectors

In this study we compared a prime-boost regimen with two serologically distinct replication-defective adenovirus (Ad) vectors derived from chimpanzee serotypes C68 and C1 expressing Gag, Pol, gp140, and Nef of human immunodeficiency virus type 1 with a regimen in which replication-defective Ad vectors of the human serotype 5 (AdHu5) were given twice. Experiments were conducted in rhesus macaques that had or had not been preexposed to antigens of AdHu5. There was no significant difference in T-cell responses tested from peripheral blood of the different groups, although responses were overall highest in nonpreexposed animals immunized with the chimpanzee Ad vectors. Preexisting immunity to AdHu5 completely inhibited induction of transgene product-specific antibodies by the AdHu5 vectors without affecting antibody responses to the chimpanzee vectors. Upon euthanasia, T-cell responses were tested from a number of tissues. Preexisting immunity to AdHu5, commonly found in humans, changed the homing pattern of vaccine-induced T cells. In AdHu5-preexposed animals vaccinated with the chimpanzee Ad vectors, frequencies of transgene-specific T cells were higher in spleens than in blood, and in most preexposed animals vaccinated either with AdHu5 vectors or chimpanzee adenovirus vectors, frequencies of such T cells were exceptionally high in livers. The latter results indicate that analysis of T-cell responses solely from blood mononuclear cells of vaccine recipients may not suffice to compare the potencies of different vaccine regimens.     

A simian replication-defective adenoviral recombinant vaccine to HIV-1 gag

In animal models, E1-deleted human adenoviral recombinants of the serotype 5 (AdHu5) have shown high efficacy as vaccine carriers for different Ags including those of HIV-1. Humans are infected by common serotypes of human adenovirus such as AdHu5 early in life and a significant percentage has high levels of neutralizing Abs to these serotypes, which will very likely impair the efficacy of recombinant vaccines based on the homologous virus. To circumvent this problem, a novel replication-defective adenoviral vaccine carrier based on an E1-deleted recombinant of the chimpanzee adenovirus 68 (AdC68) was developed. An AdC68 construct expressing a codon-optimized, truncated form of gag of HIV-1 induces CD8(+) T cells to gag in mice which at the height of the immune response encompass nearly 20% of the entire splenic CD8(+) T cell population. The vaccine-induced immune response provides protection to challenge with a vaccinia gag recombinant virus. Induction of transgene-specific CD8(+) T cells and protection against viral challenge elicited by the AdC68 vaccines is not strongly inhibited in animals preimmune to AdHu5 virus. However, the response elicited by the AdHu5 vaccine is greatly attenuated in AdHu5 preimmune animals.     

Adenovirus-Based Vaccines: Comparison of Vectors from Three Species of Adenoviridae

In order to better understand the broad applicability of adenovirus (Ad) as a vector for human vaccine studies, we compared four adenovirus (Ad) vectors from families C (Ad human serotype 5 [HAdV-5; here referred to as AdHu5]), D (HAdV-26; here referred to as AdHu26), and E (simian serotypes SAdV-23 and SAdV-24; here referred to as chimpanzee serotypes 6 and 7 [AdC6 and AdC7, respectively]) of the Adenoviridae. Seroprevalence rates and titers of neutralizing antibodies to the two human-origin Ads were found to be higher than those reported previously, especially in countries of sub-Saharan Africa. Conversely, prevalence rates and titers to AdC6 and AdC7 were markedly lower. Healthy human adults from the United States had readily detectable circulating T cells recognizing Ad viruses, the levels of which in some individuals were unexpectedly high in response to AdHu26. The magnitude of T-cell responses to AdHu5 correlated with those to AdHu26, suggesting T-cell recognition of conserved epitopes. In mice, all of the different Ad vectors induced CD8⁺ T-cell responses that were comparable in their magnitudes and cytokine production profiles. Prime-boost regimens comparing different combinations of Ad vectors failed to indicate that the sequential use of Ad vectors from distinct families resulted in higher immune responses than the use of serologically distinct Ad vectors from the same family. Moreover, the transgene product-specific antibody responses induced by the AdHu26 and AdC vectors were markedly lower than those induced by the AdHu5 vector. AdHu26 vectors and, to a lesser extent, AdC vectors induced more potent Ad-neutralizing antibody responses. These results suggest that the potential of AdHu26 as a vaccine vector may suffer from limitations similar to those found for vectors based on other prevalent human Ads.Due to their ability to induce potent transgene product-specific B- and T-cell responses, replication-defective adenovirus (Ad) vectors are being explored for use as carriers of vaccines for a variety of pathogens, including human immunodeficiency virus type 1 (HIV-1) (7), Plasmodium falciparum (9), and Mycobacterium tuberculosis (20). Initial enthusiasm for the use of Ad vectors based on Ad human serotype 5 (AdHu5) was dampened by the finding that preexisting antibodies to this virus, which are found in ∼40% of humans residing in the United States and up to 90% of humans residing in some African countries (28), can reduce transgene product-specific immune responses (16) by reducing vector uptake (19). Enthusiasm further decreased after the phase IIb STEP trial, in which an AdHu5 vector was tested for induction of protection in cohorts at high risk for HIV-1 infection. The vector failed to show efficacy in reducing acquisition rates or lowering viral loads in individuals who became infected and instead appeared to increase susceptibility to infection in humans with preexisting neutralizing antibodies to the vaccine carrier (4). As a result of these setbacks, the use of Ad vectors based on other less common serotypes of human Ads (1) or Ads isolated from different species, such as chimpanzees (21, 25), bovines (24), and canines (31), to circumvent preexisting neutralizing antibodies is being explored. Of these, vectors based on adenovirus family D (AdHu26) were shown to have a low seroprevalence in some countries (1) and are now viewed as promising carriers for Ad vector-based gene transfer.A number of studies showed that AdHu26 vectors are highly immunogenic in nonhuman primates (NHPs), where they induced potent transgene product-specific CD8⁺ T-cell responses (13) that, when they were combined in a prime-boost regimen with an AdHu5 vector expressing gag of simian immunodeficiency virus (SIV), achieved a sustained reduction in viral loads upon SIV challenge of vaccinated animals (14). Intriguingly, AdHu26 vectors have been shown to induce a CD8⁺ T-cell response in NHPs that is qualitatively superior to that induced by AdHu5 vectors. AdHu26-induced CD8⁺ T cells showed a broader response, recognizing more epitopes within the transgene product, and had a more polyfunctional response, in that vector-induced individual CD8⁺ T cells produced multiple factors rather than predominantly gamma interferon (IFN-γ) only (13). This suggests that AdHu26 may have fundamental differences in immunogenicity from other Ad vectors.To elucidate this further, we developed a molecular clone of AdHu26 and a number of recombinant AdHu26 vectors from which E1 was deleted and used these to test human samples for the prevalence of AdHu26-neutralizing antibodies and responding CD4⁺ and CD8⁺ T cells. In addition, we conducted a series of studies with mice to determine if this species showed an immune response to a transgene product delivered by an AdHu26 vector markedly different from that induced by the same transgene product delivered by other Ad vectors. Our results showed that AdHu26, strictly speaking, is not a rare serotype, especially in African countries, where the seroprevalence rates of antibodies to AdHu26 are high. Similarly, most humans carry AdHu26-reactive T cells, which in some individuals are present at very high frequencies. In mice, AdHu26 induces potent CD8⁺ T-cell responses that are quantitatively and qualitatively similar to those induced by other Ad vectors. AdHu26 and chimpanzee-origin Ad (AdC) vectors stimulated only marginal transgene product-specific B-cell responses in comparison to those stimulated by AdHu5 vectors but induced more potent neutralizing antibodies to their capsid antigens.     

Induction of robust immune responses against human immunodeficiency virus is supported by the inherent tropism of adeno-associated virus type 5 for dendritic cells

The ability of adeno-associated virus serotype 1 to 8 (AAV1 to AAV8) vectors expressing the human immunodeficiency virus type 1 (HIV-1) Env gp160 (AAV-HIV) to induce an immune response was evaluated in BALB/c mice. The AAV5 vector showed a higher tropism for both mouse and human dendritic cells (DCs) than did the AAV2 vector, whereas other AAV serotype vectors transduced DCs only poorly. AAV1, AAV5, AAV7, and AAV8 were more highly expressed in muscle cells than AAV2. An immunogenicity study of AAV serotypes indicates that AAV1, AAV5, AAV7, and AAV8 vectors expressing the Env gp160 gene induced higher HIV-specific humoral and cell-mediated immune responses than the AAV2 vector did, with the AAV5 vector producing the best responses. Furthermore, mice injected with DCs that had been transduced ex vivo with an AAV5 vector expressing the gp160 gene elicited higher HIV-specific cell-mediated immune responses than did DCs transduced with AAV1 and AAV2 vectors. We also found that AAV vectors produced by HEK293 cells and insect cells elicit similar levels of antigen-specific immune responses. These results demonstrate that the immunogenicity of AAV vectors depends on their tropism for both antigen-presenting cells (such as DCs) and non-antigen-presenting cells (such as muscular cells) and that AAV5 is a better vector than other AAV serotypes. These results may aid in the development of AAV-based vaccine and gene therapy.     

The use of an E1-deleted, replication-defective adenovirus recombinant expressing the rabies virus glycoprotein for early vaccination of mice against rabies virus.

An E1-deleted, replication-defective adenovirus recombinant of the human strain 5 expressing the rabies virus glycoprotein, termed Adrab.gp, was tested in young mice. Mice immunized at birth with the Adrab.gp construct developed antibodies to rabies virus and cytokine-secreting lymphocytes and were protected against subsequent challenge. Maternal immunity to rabies virus strongly interferes with vaccination of the offspring with a traditional inactivated rabies virus vaccine. The immune response to the rabies virus glycoprotein, as presented by the Adrab.gp vaccine, on the other hand, was not impaired by maternal immunity. Even neonatal immunization of mice born to rabies virus-immune dams with Adrab.gp construct resulted in a long-lasting protective immune response to rabies virus, suggesting that this type of vaccine could be useful for immunization shortly after birth. Nevertheless, pups born to Adrab.gp virus-immune dams showed an impaired immune response to the rabies virus glycoprotein upon vaccination with the Adrab.gp virus, indicating that maternal immunity to the vaccine carrier affected the offspring's immune response to rabies virus.     

T Cell Responses Induced by Adenoviral Vectored Vaccines Can Be Adjuvanted by Fusion of Antigen to the Oligomerization Domain of C4b-Binding Protein

Viral vectored vaccines have been shown to induce both T cell and antibody responses in animals and humans. However, the induction of even higher level T cell responses may be crucial in achieving vaccine efficacy against difficult disease targets, especially in humans. Here we investigate the oligomerization domain of the α-chain of C4b-binding protein (C4 bp) as a candidate T cell “molecular adjuvant” when fused to malaria antigens expressed by human adenovirus serotype 5 (AdHu5) vectored vaccines in BALB/c mice. We demonstrate that i) C-terminal fusion of an oligomerization domain can enhance the quantity of antigen-specific CD4⁺ and CD8⁺ T cell responses induced in mice after only a single immunization of recombinant AdHu5, and that the T cells maintain similar functional cytokine profiles; ii) an adjuvant effect is observed for AdHu5 vectors expressing either the 42 kDa C-terminal domain of Plasmodium yoelii merozoite surface protein 1 (PyMSP1₄₂) or the 83 kDa ectodomain of P. falciparum strain 3D7 apical membrane antigen 1 (PfAMA1), but not a candidate 128kDa P. falciparum MSP1 biallelic fusion antigen; iii) following two homologous immunizations of AdHu5 vaccines, antigen-specific T cell responses are further enhanced, however, in both BALB/c mice and New Zealand White rabbits no enhancement of functional antibody responses is observed; and iv) that the T cell adjuvant activity of C4 bp is not dependent on a functional Fc-receptor γ-chain in the host, but is associated with the oligomerization of small (<80 kDa) antigens expressed by recombinant AdHu5. The oligomerization domain of C4 bp can thus adjuvant T cell responses induced by AdHu5 vectors against selected antigens and its clinical utility as well as mechanism of action warrant further investigation.     

A porcine adenovirus with low human seroprevalence is a promising alternative vaccine vector to human adenovirus 5 in an H5N1 virus disease model

Human adenovirus 5 (AdHu5) vectors are robust vaccine platforms however the presence of naturally-acquired neutralizing antibodies may reduce vector efficacy and potential for re-administration. This study evaluates immune responses and protection following vaccination with a replication-incompetent porcine adenovirus 3 (PAV3) vector as an alternative vaccine to AdHu5 using an avian influenza H5N1 disease model. Vaccine efficacy was evaluated in BALB/c mice following vaccination with different doses of the PAV3 vector expressing an optimized A/Hanoi/30408/2005 H5N1 hemagglutinin antigen (PAV3-HA) and compared with an AdHu5-HA control. PAV3-HA rapidly generated antibody responses, with significant neutralizing antibody titers on day 21, and stronger cellular immune responses detected on day 8, compared to AdHu5-HA. The PAV3-HA vaccine, administered 8 days before challenge, demonstrated improved survival and lower virus load. Evaluation of long-term vaccine efficacy at 12 months post-vaccination showed better protection with the PAV3-HA than with the AdHu5-HA vaccine. Importantly, as opposed to AdHu5, PAV3 vector was not significantly neutralized by human antibodies pooled from over 10,000 individuals. Overall, PAV3-based vector is capable of mediating swift, strong immune responses and offer a promising alternative to AdHu5.     

Rabies virus-based vectors expressing human immunodeficiency virus type 1 (HIV-1) envelope protein induce a strong, cross-reactive cytotoxic T-lymphocyte response against envelope proteins from different HIV-1 isolates

Novel viral vectors that are able to induce both strong and long-lasting immune responses may be required as effective vaccines for human immunodeficiency virus type 1 (HIV-1) infection. Our previous experiments with a replication-competent vaccine strain-based rabies virus (RV) expressing HIV-1 envelope protein from a laboratory-adapted HIV-1 strain (NL4-3) and a primary HIV-1 isolate (89.6) showed that RV-based vectors are excellent for B-cell priming. Here we report that cytotoxic T-lymphocyte (CTL) responses against HIV-1 gp160 are induced by recombinant RVs. Our results indicated that a single inoculation of mice with an RV expressing HIV-1 gp160 induced a solid and long-lasting memory CTL response specific for HIV-1 envelope protein. Moreover, CTLs from immunized mice were not restricted to the homologous HIV-1 envelope protein and were able to cross-kill target cells expressing HIV-1 gp160 from heterologous HIV-1 strains. These studies further suggest promise for RV-based vectors to elicit a persistent immune response against HIV-1 and their potential utility as efficacious anti-HIV-1 vaccines.     

Effect of Preexisting Immunity on an Adenovirus Vaccine Vector: In Vitro Neutralization Assays Fail To Predict Inhibition by Antiviral Antibody In Vivo

A major obstacle to the use of adenovirus vectors derived from common human serotypes, such as human adenovirus 5 (AdHu5), is the high prevalence of virus-neutralizing antibodies in the human population. We previously constructed a variant of chimpanzee adenovirus 68 (AdC68) that maintained the fundamental properties of the carrier but was serologically distinct from AdC68 and resisted neutralization by AdC68 antibodies. In the present study, we tested whether this modified vector, termed AdCDQ, could induce transgene product-specific CD8⁺ T cells in mice with preexisting neutralizing antibody to wild-type AdC68. Contrary to our expectation, the data show conclusively that antibodies that fail to neutralize the AdCDQ mutant vector in vitro nevertheless impair the vector''s capacity to transduce cells and to stimulate a transgene product-specific CD8⁺ T-cell response in vivo. The results thus suggest that in vitro neutralization assays may not reliably predict the effects of virus-specific antibodies on adenovirus vectors in vivo.Adenovirus (Ad) vectors are effective at inducing potent CD8⁺ T-cell responses to immunogens. In animal models, Ad vectors encoding antigens of simian immunodeficiency virus (SIV) and human immunodeficiency virus (HIV), used in combination with plasmid-based DNA vectors, generate CD8⁺ T-cell responses that attenuate infection by SIV (9) and by HIV-SIV chimeras (16). In humans, Ad vectors derived from human serotype 5 (AdHu5) are immunogenic and are well tolerated at immunogenic doses; however, in a recent clinical trial, an AdHu5-based HIV-1 vaccine failed to prevent (and may have facilitated) infection (1a). It is not clear whether CD8⁺ T-cell responses will be sufficient to prevent or control HIV infection and disease. However, it seems likely that the induction of effective immune responses against HIV will require multiple doses of antigen, with a priming dose followed by one or more booster immunizations. Prime-boost regimens based on the sequential use of DNA and AdHu5 vectors are being tested clinically, and regimens involving the sequential administration of serologically distinct Ad vectors are being explored in preclinical animal models (1, 5, 8, 9).One major obstacle to the use of vectors derived from AdHu5 and other common human serotypes is the high prevalence of virus-neutralizing antibodies (VNAs) in humans. Preexisting VNAs to the vaccine carrier prevent the vector from transducing target cells, which reduces the amount of vaccine antigen that can be produced and dampens the resultant adaptive immune responses (2, 3, 12). Approximately 40 to 45% of the U.S. population has VNAs to AdHu5, and seroprevalence rates are even higher in Asia and Africa (6, 24).We developed vectors derived from chimpanzee Ads to which humans lack preexisting immunity. When tested in a rodent model, one such vector, AdC68, induces potent transgene product-specific CD8⁺ T-cell responses that can be increased by booster immunizations with serologically distinct Ad vectors (3, 19, 23). However, because the use of multiple serotypes in a prime-boost regimen may prove cumbersome in clinical applications, we have attempted to modify the major neutralizing binding sites within the AdC68 capsid. It has been suggested that the binding sites for Ad-neutralizing antibodies preside primarily within the major capsid protein hexon (4, 10, 14, 15, 17). We defined a single hexon surface loop as the major neutralization site on AdC68 and showed that a mutant vector, AdCDQ, which incorporates a 3-amino-acid mutation within this loop, resists in vitro neutralization by polyclonal antisera obtained from animals immunized against AdC68 (10). Because it is serologically distinct from its parent vector, we expected that AdCDQ could be used in combination with AdC68 in an effective prime-boost regimen.In the present study, we tested whether the AdCDQ vector induces a transgene product-specific CD8⁺ T-cell response in mice with preexisting neutralizing antibody to wild-type AdC68. Contrary to our expectation, the data show conclusively that antibodies that fail to neutralize the AdCDQ vector in vitro nevertheless impair the vector''s capacity to transduce cells and to stimulate a transgene product-specific CD8⁺ T-cell response in vivo. The results thus suggest that in vitro neutralization assays may not reliably predict the effects of virus-specific antibodies on Ad vectors in vivo.     

A viral vectored prime-boost immunization regime targeting the malaria Pfs25 antigen induces transmission-blocking activity

The ookinete surface protein Pfs25 is a macrogamete-to-ookinete/ookinete stage antigen of Plasmodium falciparum, capable of exerting high-level anti-malarial transmission-blocking activity following immunization with recombinant protein-in-adjuvant formulations. Here, this antigen was expressed in recombinant chimpanzee adenovirus 63 (ChAd63), human adenovirus serotype 5 (AdHu5) and modified vaccinia virus Ankara (MVA) viral vectored vaccines. Two immunizations were administered to mice in a heterologous prime-boost regime. Immunization of mice with AdHu5 Pfs25 at week 0 and MVA Pfs25 at week 10 (Ad-MVA Pfs25) resulted in high anti-Pfs25 IgG titers, consisting of predominantly isotypes IgG1 and IgG2a. A single priming immunization with ChAd63 Pfs25 was as effective as AdHu5 Pfs25 with respect to ELISA titers at 8 weeks post-immunization. Sera from Ad-MVA Pfs25 immunized mice inhibited the transmission of P. falciparum to the mosquito both ex vivo and in vivo. In a standard membrane-feeding assay using NF54 strain P. falciparum, oocyst intensity in Anopheles stephensi mosquitoes was significantly reduced in an IgG concentration-dependent manner when compared to control feeds (96% reduction of intensity, 78% reduction in prevalence at a 1 in 5 dilution of sera). In addition, an in vivo transmission-blocking effect was also demonstrated by direct feeding of immunized mice infected with Pfs25DR3, a chimeric P. berghei line expressing Pfs25 in place of endogenous Pbs25. In this assay the density of Pfs25DR3 oocysts was significantly reduced when mosquitoes were fed on vaccinated as compared to control mice (67% reduction of intensity, 28% reduction in prevalence) and specific IgG titer correlated with efficacy. These data confirm the utility of the adenovirus-MVA vaccine platform for the induction of antibodies with transmission-blocking activity, and support the continued development of this alternative approach to transmission-blocking malaria subunit vaccines.     

Coexpression of double or triple copies of the rabies virus glycoprotein gene using a ‘self-cleaving’ 2A peptide-based replication-defective human adenovirus serotype 5 vector

Rabies virus glycoprotein (RVG) is a major structural protein and antigen of rabies virus that induces a highly immunogenic response. In the present study, we have used 2A self-cleaving sequence of the foot-and-mouth disease virus (FMDV) to express double or triple copies of the RVG from a single open reading frame derived from human adenovirus 5 (AdHu5). The recombinant adenoviruses produce similar virus titers, indicating that the insertion of double or triple copies of the RVG gene linked with the FMDV 2A sequence does not affect virus replication. The RVG was efficiently expressed by constructs containing the 2A sequence and retained its antigenic property. The 2A self-cleaving peptide mediated efficient generation of individual glycoprotein in transient expression assay and did not lead to an altered surface distribution of RVG. Flow cytometry demonstrated that the expression levels of RVG were improved in recombinant Ads carrying multiple RVG gene copies. We conclude that ribosome skipping induced by the FMDV 2A sequence is an effective strategy to express multiple glycoprotein genes of rabies virus in adenoviruses and 2A-containing recombinant Ads may represent an attractive alternative to other coexpression strategies for multiple gene expression.     

Induction of genital immunity by DNA priming and intranasal booster immunization with a replication-defective adenoviral recombinant.

Mice immunized through different routes such as i.m., intradermally, or intratracheally with a DNA vaccine to rabies virus developed high titers of serum Ab but only borderline levels of mucosal Abs determined from vaginal secretions. DNA vaccines given by either route enhanced vaginal IgA and IgG2a secretion upon a subsequent intranasal booster immunization with an E1-deleted adenoviral recombinant expressing the same Ag of rabies virus. DNA vaccine priming reduced the Ab response to the adenoviral Ags and counterbalanced the impaired B cell response to the rabies virus Ag expressed by the adenoviral recombinant in mice preimmune to adenovirus. The vaginal B cell response could further be enhanced by using the Th2-type cytokines IL-4 or IL-5 as genetic adjuvants concomitantly with the DNA vaccine before intranasal booster immunization with the recombinant vaccine.     

Recombinant viral-vectored vaccines expressing Plasmodium chabaudi AS apical membrane antigen 1: mechanisms of vaccine-induced blood-stage protection

Apical membrane Ag 1 (AMA1) is one of the leading candidate Ags for inclusion in a subunit vaccine against blood-stage malaria. However, the efficacy of Ab-inducing recombinant AMA1 protein vaccines in phase IIa/b clinical trials remains disappointing. In this article, we describe the development of recombinant human adenovirus serotype 5 and modified vaccinia virus Ankara vectors encoding AMA1 from the Plasmodium chabaudi chabaudi strain AS. These vectors, when used in a heterologous prime-boost regimen in BALB/c mice, are capable of inducing strong transgene-specific humoral and cellular immune responses. We show that this vaccination regimen is protective against a nonlethal P. chabaudi chabaudi strain AS blood-stage challenge, resulting in reduced peak parasitemias. The role of vaccine-induced, AMA1-specific Abs and T cells in mediating the antiparasite effect was investigated by in vivo depletion of CD4(+) T cells and adoptive-transfer studies into naive and immunodeficient mice. Depletion of CD4(+) T cells led to a loss of vaccine-induced protection. Adoptive-transfer studies confirmed that efficacy is mediated by both CD4(+) T cells and Abs functioning in the context of an intact immune system. Unlike previous studies, these results confirm that Ag-specific CD4(+) T cells, induced by a clinically relevant vaccine-delivery platform, can make a significant contribution to vaccine blood-stage efficacy in the P. chabaudi model. Given that cell-mediated immunity may also contribute to parasite control in human malaria, these data support the clinical development of viral-vectored vaccines that induce both T cell and Abs against Plasmodium falciparum blood-stage malaria Ags like AMA1.     

狂犬病毒糖蛋白DNA疫苗的研制及其免疫效果的观察

构建了含有狂犬病毒（RV）CVS株糖蛋白（GP）基因的重组质粒pCMVCVSRG,将其转染至鼠NIH3T3细胞中,用间接免疫荧光法和APAAP法均证实RVGP能在真核细胞中表达。分别将合RV不同毒株的GP基因的质粒（DNA疫苗）及空白载体质粒（对照组）免疫小鼠,仅DNA疫苗免疫的小鼠产生了中和抗体。以RV攻击后,DNA疫苗免疫组小鼠的存活率与对照组相比,差异有极显著性意义（P＜0．01）;不同的启动子（CMV或SV40）与不同GP基因（来源于CVS株或ERA株）对DNA疫苗的免疫效果无明显影响。在注射120d后．用PCR方法仍可检测出RVGP基因。结果表明：狂犬病DNA疫苗能够诱生低水平的中和抗体和记忆性B淋巴细胞,并能保护小鼠抵抗RV的攻击。该疫苗能在体内稳定存在。狂犬病DNA疫苗的研制为狂犬病免疫开辟了一条新途径,并可为防治其他疾病的DNA疫苗的研制奠定基础。     

Analysis of the cross-reactive anti-gp120 antibody population in human immunodeficiency virus-infected asymptomatic individuals.

This study was undertaken to analyze the specificity and neutralizing properties of cross-reactive anti-gp120 antibodies (Abs) in the sera of two human immunodeficiency virus (HIV)-infected asymptomatic individuals. Two panels of murine monoclonal anti-idiotype Abs (anti-id MAbs) were established against cross-reactive polyclonal anti-gp120 Abs purified from HIV+ sera by sequential affinity chromatography using gp120SF2- and gp120IIIB-Sepharose columns. These panels of anti-id MAbs were then used to affinity purify idiotype-positive (Id+) anti-gp120 Abs from HIV+ sera. The recovery of each of these Id+ Abs by purification indicated that several idiotypically distinct cross-reactive anti-gp120 Abs are present in sera over a wide range of concentrations. Immunological and biological studies showed that although all of the Id+ Abs were reactive against gp120SF2 and gp120IIIB, they exhibited unique epitope specificities and distinct neutralizing activities. Most of the Id+ Abs were directed against epitopes in the CD4 attachment site (CD4 site epitopes) of gp120 and exhibited a spectrum of broadly neutralizing activities. On the other hand, a minor population of Id+ Abs showed specificity for the V3 region of gp120 and exhibited limited cross-neutralizing activities. Together, these studies indicate that the CD4 site epitope-specific Abs are heterogeneous with respect to their clonality, neutralizing activity, and concentration in sera. This heterogeneity suggests that anti-gp120 Abs to the CD4 attachment site are developed in response to multiple overlapping epitopes present on the original virus isolate and/or epitopes on mutated variants which emerged over time.