Immunization with an interferon-gamma-gp120 fusion protein induces enhanced immune responses to human immunodeficiency virus gp120.

Cytokines, including interferon (IFN)-gamma, can be effective immunologic adjuvants but often lack the potency of other, more reactogenic compounds. On the basis of the observation that attachment of IFN-gamma to antigen could further enhance its adjuvanticity, a chimeric protein involving IFN-gamma and gp120 of human immunodeficiency virus was produced, using varying lengths of amino acid linkers between the two moieties. All resultant fusion proteins appeared to be dimerized, but full IFN-gamma biological activity was present only with the longest, 34-aa linker. Immunization with the fusion protein gave rise to enhanced primary antibody responses to gp120, particularly of the IgG2a subclass. In addition, both T cell proliferation and IFN-gamma production in response to antigen were strongly enhanced by primary immunization with the fusion protein. IFN-gamma fused to antigen is a more potent adjuvant for Th1-like responses than is IFN-gamma mixed with antigen.

Recent advances in vaccinology.

Major advances in vaccinology in the past year include the experimental use of vaccination for diseases such as Alzheimer's and stroke, a demonstration of the power of genomic approaches for target antigen identification, hopeful results in a clinical trial for a therapeutic cancer vaccine, and the successful mass immunisation of children with meningococcal conjugate vaccine in the UK.

Stimulation of dendritic cells via CD40 enhances immune responses to Mycobacterium tuberculosis infection.

The resolution of pulmonary tuberculosis (TB) critically depends on the development of the Th1 type of immune responses, as exemplified by the exacerbation of TB in IL-12-deficient mice. Therefore, vaccination strategies optimizing IL-12 production by antigen-presenting cells (APC) in response to mycobacteria may have enhanced protective efficacy. Since dendritic cells (DC) are the critical APC for activation of CD4+ and CD8+ T cells, we examined whether stimulation of Mycobacterium bovis bacillus Calmette Guérin (BCG)-infected DC via CD40 increased their ability to generate Th1-oriented cellular immune responses. Incubation of DC with an agonistic anti-CD40 antibody activated CD40 signaling in DC, as shown by increased expression of major histocompatibility complex class II and costimulatory molecules, mRNA production for proinflammatory cytokines and interleukin 12 (IL-12) p40. This activation pattern was maintained when DC were stimulated with anti-CD40 antibody and infected with BCG. Importantly, CD40-stimulated BCG-infected DC displayed increased capacity to release bioactive IL-12 and to activate gamma interferon (IFN-gamma) producing T cells in vitro. Moreover, when C57BL/6 mice were immunized with these DC and challenged with aerosol Mycobacterium tuberculosis, increased levels of mRNA for IL-12 p40, IL-18, and IFN-gamma were present in the draining mediastinal lymph nodes. However, the mycobacterial burden in the lungs was not reduced compared to that in mice immunized with BCG-infected non-CD40-stimulated DC. Therefore, although the manipulation of DC via CD40 is effective for enhancing immune responses to mycobacteria in vivo, additional strategies are required to increase protection against virulent M. tuberculosis infection.

A comparison of oral and parenteral routes for therapeutic vaccination with HSV-2 ISCOMs in mice; cytokine profiles, antibody responses and protection.

It is likely that recurrent infections with HSV-2 (or HSV-1) are influenced by local levels of immunity at mucosal surfaces, when virus reactivated from the latent state is infecting mucosal epithelial cells. Increasing the levels of cellular and humoral immunity through immunisation and maintaining such increased levels, may reduce establishment and spread of reactivated virus at the local site, thereby ameliorating recurrent disease symptoms. The use of HSV-2 antigens incorporated into immunostimulating complexes (ISCOMs) for immunisation of mice previously infected with HSV-2 was investigated in the present study. Prophylactic administration of HSV-2 ISCOM vaccine to mice elicits local antibody detectable in nasal washings, serum antibody and the presence of cytokines IL-2, IFN-gamma and IL-4 in supernatants from spleen cell cultures stimulated in vitro with HSV-2 antigens. Use of the same vaccine in mice infected previously with HSV-2, results in increased levels of total and subclass serum ELISA antibody and also increased levels of serum neutralising antibody. Treatment of HSV-2 infected mice with the HSV-2 ISCOM vaccine also induces higher levels of the cytokines IL-2, IFN-gamma and IL-4, in in vitro stimulated spleen cell cultures. Challenge with a lethal dose of HSV-1 showed that mice previously infected with HSV-2 and subsequently given two doses of HSV-2 ISCOMs vaccine were protected.

Functional activity of CD40 antibodies correlates to the position of binding relative to CD154.

In this study we describe the characterization of a panel of 12 anti-mouse CD40 monoclonal antibodies (mAb). Characterization was performed in terms of antibody-binding site relative to the CD154 ligand, and the relationship between position and functional outcome of binding. The antibodies divided into three groups. The first were strong inhibitors of CD154 binding, and induced strong proliferative and activation signals to B cells. Two antibodies gave intermediary inhibition and comparable levels of activation. The remaining antibodies were found to bind outside the CD154 binding site and were poor inducers of B-cell activation. Data presented show a strong correlation between location of mAb binding and the resultant activation signal delivered. This correlation is shown to be independent of the isotype of the antibody involved and of its affinity. Implications of these findings are discussed.

Use of herpes simplex virus (HSV) type 1 ISCOMS 703 vaccine for prophylactic and therapeutic treatment of primary and recurrent HSV-2 infection in guinea pigs.

The effect of subunit vaccination on the incidence and severity of primary and recurrent genital herpes was investigated in the female guinea pig model of herpes simplex virus (HSV) type 2 genital infection. After prophylactic immunization with zwitterionic detergent-solubilized HSV-1 glycoproteins formulated with alhydrogel or as immunostimulating complex particles, significant reductions in the incidence and severity of primary herpetic illness were observed in both vaccinated groups compared with immunization-naive controls. There was a significant reduction in the incidence of spontaneous herpetic recurrences after administration of HSV-1 antigens formulated as immunostimulatory complexes to guinea pigs in a prophylactic mode (P<.01). Increased levels of both postimmunization and postchallenge ELISA and neutralizing antibodies were significant correlates of protection against primary herpetic disease in a prophylactic scenario. However, no correlation was observed between elevated ELISA or neutralizing antibody levels and protection against recurrent disease following prophylactic or therapeutic administration of HSV-1 subunit vaccines.

Therapeutic vaccination against HSV-2: influence of vaccine formulation on immune responses and protection in mice.

Therapeutic immunisation may represent a means of influencing viral infections that persist in the host by modulating the nature or level of host immunity. To assess the influence of the form of the antigenic stimulus on immunity to type-2 herpes simplex virus (HSV-2), mice pre-infected with sublethal doses of HSV-2 were immunised with various HSV-2 vaccine formulations prior to challenge infection with heterologous HSV-1. Measurements of interleukin-2 (IL-2), interleukin-4 (IL-4) and interferon-gamma (IFN-gamma) levels in mouse spleen cell cultures restimulated in vitro with HSV-2 antigens showed that, depending on the form of HSV-2 antigen preparation used in this therapeutic context, changes in the levels of these cytokines could be effected. Measurement of HSV-specific antibody by serological tests support the contention that immunisation of HSV-2-infected mice can either enhance the existing Th1-like immune response elicited following HSV-2 infection, or modulate this response towards a more Th2-like profile, and this is dependent on the form of the antigenic stimulus. The degree of protection against subsequent lethal, heterologous HSV-1 challenge infection varied according to the nature of the infection and the immunisation history of the animals.

Antibody responses, cytokine levels and protection of mice immunised with HSV-2 antigens formulated into NISV or ISCOM delivery systems.

The immunogenicity of a type 2 herpes simplex virus (HSV-2) antigen preparation following its formulation into immunostimulating complexes (ISCOMs) or non-ionic surfactant vesicles (NISV) was investigated in a murine model. The immune responses induced by each formulation were characterised by antigen specific total and subclass serum responses, and by lymphocyte proliferation and cytokine (interleukin-2 (IL-2), interleukin-4 (IL-4) and interferon-gamma (IFN-gamma)) production by in vitro restimulated spleen cells. The degree of protection afforded to mice by these various HSV-2 vaccine preparations against homologous (HSV-2) and heterologous (HSV-1) challenge infection was also determined. The findings suggest that formulation of the HSV-2 glycoprotein antigens with ISCOM or NISV delivery vehicles, and the methods used to prepare these formulations, influenced the immunogenicity of the final preparation. Higher IgG2a and neutralising antibody levels, IL-2 and IFN-gamma levels and lymphoproliferative responses were noted in mice immunised with the HSV-2 ISCOM formulated vaccine preparation. Furthermore, although HSV-2 antigens formulated in dehydration-rehydration NISV, or entrapped in NISV by freeze-thawing at 30 degrees C (HSV-2 NISV 30), also elicited relatively high antibody, IL-2 and IFN-gamma levels and relatively high lymphoproliferative responses, formulation of HSV-2 antigens by freeze-thawing with NISV at 60 degrees C (HSV-2 NISV 60) did not. There were no differences between any of the HSV-2 vaccine formulations in terms of IL-4 induction in in vitro stimulated spleen cell cultures. Almost complete protection against HSV-2 challenge was afforded by the HSV-2 ISCOM preparation, while partial protection against challenge infection was afforded by the HSV-2 NISV 30 vaccine formulation. The findings are discussed in relation to the nature of the immune mechanisms, particularly Th1- or Th2-like responses, that may be elicited by HSV-2 antigen preparations formulated into various delivery systems and the relevance of these immune responses to protection against HSV infection in the murine model.

Cell surface expression of CD154 inhibits alloantibody responses: A mechanism for the prevention of autoimmune responses against activated T cells?

Binding of CD40 by CD154 expressed on activated T cells is a pivotal event in T cell help to B cells, macrophages, and other antigen-presenting cells. Expression of CD154 by MHC mismatched cells, in contrast to expectations, strongly suppressed alloantibody responses against the cells. This was caused by a failure of priming of antibody responses by the CD154 expressing cells. We hypothesize that this lack of response against CD154 expressing cells may represent a mechanism that has evolved to prevent autoantibody responses being generated against the CD154 antigen itself, as B cells expressing antibody reactive with CD154 would probably escape deletion on binding antigen in the bone marrow due to rescue by the simultaneous ligation of CD40.

Enhanced in vivo immune responses to bacterial lipopolysaccharide by exogenous CD40 stimulation.

The lack of specific T-cell help in immune responses to thymus-independent antigens results in weak, predominantly immunoglobulin M-mediated immunity with little or no memory. In the work presented here we show how the exogenous stimulation of CD40 by monoclonal antibodies can mimic T-cell help, resulting in enhanced immune responses which are protective against bacterial infection.

Arrest of B lymphocyte terminal differentiation by CD40 signaling: mechanism for lack of antibody-secreting cells in germinal centers.

Despite extensive research, the role of CD40 signaling in B cell terminal differentiation remains controversial. Here we show that CD40 engagement arrests B cell differentiation prior to plasma cell formation. This arrest is manifested at a molecular level as a reduction in mRNA levels of secretory immunoglobulin gene products such as mu(s) and J chain as well as the loss of the transcriptional regulator BLIMP-1. Furthermore, the inhibition of B cell differentiation by CD40 engagement could not be overcome by either mitogens or cytokines, but could be reversed by antibodies that interfere with the CD40/gp39 interaction. These data suggest that secretory immunoglobulin is not produced by B cells that are actively engaged by gp39-expressing T cells.

Adjuvants and delivery systems for viral vaccines--mechanisms and potential.

Of the vaccines against viral diseases of man currently available, several are less than satisfactory, and the present surge of interest in improving such vaccines, and in developing new vaccines against viral diseases as yet unchallenged, has led to major developments in three areas. The capacity to identify the nature and form of antigenic epitopes in proteins allows the specific design of molecular entities to promote relevant and protective immune responses. Such entities, although ideal in terms of specificity and purity, may not achieve their goals through failure to reach relevant cells of the immune system due to simple dilution, elimination by host enzymes or lack of specific targeting. Concomitant with the above there has been development of a plethora of adjuvants aimed at enhancing immune responses to these 'new' immunogens, paralleled by an almost equally rapid increase in understanding the complex nature of the immune response, particularly with respect to antigen processing, the nature and role of cytokines and the importance of T-cell subsets in infection. These developments allow exploration of matching the properties and mechanistic action of a given adjuvant to a defined immune response. Adjuvants can be grouped according to their physical characteristics and mode of action. They include particulate adjuvants, oil and emulsifier-based adjuvants, those providing controlled antigen delivery, adjuvants based on specific targeting of antigen, and gel-type adjuvants. They may act non-specifically in promoting an immune response to an antigen through depot formation, or very specifically as in a "delivery system" where an antigen is linked to a cellular protein, targeted to a specific cell receptor. As adjuvant technology develops it is becoming increasingly clear that these differing approaches may be combined, and an adjuvant/delivery system designed, to provide slow release of a targeted antigen. The role of adjuvants in modern viral vaccine technology and their influence on the immune system are the subject of this review.

A novel method for enhancement of T independent responses.

Bacterial capsular polysaccharides are the major targets for vaccination against encapsulated bacteria but present problems when used for immunisation as they are T cell independent antigens (TI-II). TI-II antigens do not induce a memory response, but induce an antibody response which is of low magnitude and is predominantly IgM, with little or no isotype switching to IgG isotypes. This is because TI-II antigens do not induce T cell help. Such T cell help to B cells is mediated through up regulation of the CD40 ligand (CD154) on the activated T cell, which binds to CD40 inducing B cell activation, proliferation and isotype switching in conjunction with cytokines produced by the T cell. We have successfully mimicked this T cell help and induced very strong, isotype switched antibody responses to TI-II antigens by the simple addition of agonistic anti-CD40 antibodies to pneumococcal polysaccharides before immunisation.

Humoral response to HSV-1 subunit vaccines--a statistical analysis.

Following primary infection with HSV, the virus becomes latent in the local sensory ganglia for the lifetime of the host. In some cases, periodic reactivation may occur due to various stimuli and cause a recrudescent lesion at or near the initial site of infection. As yet there is no suitable vaccine to prevent its spread within the human population. We investigated the potential of a large number of commercial and experimental adjuvant preparations to enhance the immunogenicity of an HSV-1 glycoprotein subunit vaccine. Evaluation was based on toxicity, total antibody titre, neutralizing antibody production and protection against lethal challenge. All adjuvants tested increased the titre of antigen specific total and neutralizing lg when compared to subunit vaccine alone, although functional neutralising antibody was only detected in some cases. Following challenge, a broad range of protective responses was noted but no correlation between antibody levels and protection was observed. The results emphasize the requirement of adjuvants when using subunit preparations as vaccine formulations and demonstrate that the magnitude and effectiveness of the induced immune response varies greatly with the choice of adjuvant.

Enhancement of T cell-independent immune responses in vivo by CD40 antibodies.

In this report we describe a potentially powerful method for vaccinating infants against encapsulated bacterial pathogens such as Haemophilus influenzae, Streptococcus pneumoniae and Neisseria meningitidis. High levels of antibody directed against the polysaccharides of the bacterial capsule are normally protective. Unfortunately, the capsular polysaccharides are T cell-independent antigens (TI); lacking T-cell help, they induce only weak, predominantly IgM antibody responses, with infants responding especially poorly. T-cell help, given to B cells during responses to protein antigens, causes stronger antibody responses and isotype switching to the IgG isotypes. T-cell help is mainly mediated through ligation of the B-cell surface antigen, CD40, by its cognate T-cell ligand, CD154. Here we show that administering anti-CD40 monoclonal antibody to mice, along with pneumococcal polysaccharide, provides a substitute for T-cell help and results in the generation of strong, isotype-switched antibody responses, which are protective. The work points the way toward a possible effective and inexpensive means of protecting susceptible groups against important bacterial pathogens.

CD40 signaling induces interleukin-4-independent IgE switching in vivo.

T cell-deficient T cell receptor (TCR) beta-/- x TCR delta-/- knockout mice lack circulating IgE and fail to produce antigen-specific IgE in response to stimulation with T cell-dependent antigens. We show here that these animals are able to produce significant levels of circulating polyclonal IgE when injected with an agonistic anti-mouse CD40 monoclonal antibody. CD40-mediated induction of circulating polyclonal IgE in T cell-deficient mice was only partially reduced when the animals were co-treated with neutralizing anti-interleukin-4 (IL-4) antibody. The IL-4 independence of this response was further supported by experiments showing that anti-CD40 antibodies induced circulating IgE when injected into IL-4 knockout mice, and sterile RNA epsilon transcript production when cultured with purified B cells from the same mice. These data strongly suggest that CD40 signaling causes IL-4-independent IgE switching in mice.

Differential activation of the ERK, JNK, and p38 mitogen-activated protein kinases by CD40 and the B cell antigen receptor.

B cell antigen receptor (BCR)-induced apoptosis in the WEHI-231 B lymphoma cell line can be prevented by engaging CD40. We have used this cell line to investigate the role of mitogen-activated protein (MAP) kinases in integrating BCR and CD40 signaling. Each of the three types of MAP kinases, the extracellular signal-regulated kinases (ERKs), the c-Jun N-terminal kinases (JNKs), and p38, phosphorylates a distinct set of transcription factors. Thus, activating different combinations of MAP kinases could lead to distinct biological responses. We found that BCR engagement in WEHI-231 cells caused a 15- to 20-fold activation of ERK2 and a 2- to 3-fold stimulation of ERK1. CD40 did not activate either of these kinases, nor did it affect BCR-induced ERK activation. In contrast, CD40 engagement caused a 50- to 70-fold increase in JNK activity. BCR cross-linking caused a modest (4- to 8-fold) increase in JNK activity by itself and also potentiated CD40-induced JNK activation. Finally, CD40 caused strong activation of the p38 kinase as well as MAPKAP kinase-2, a downstream target of p38. BCR engagement caused only weak activation of the p38 pathway. In summary, the BCR strongly activates ERK2 and weakly activates ERK1, JNK, and p38, while CD40 markedly stimulates the JNK and p38 kinases. Thus, activation of only ERK2 correlates with apoptosis in WEHI-231 cells, whereas full activation of all three MAP kinase pathways correlates with cell survival. The role of MAP kinases in regulating these responses remains to be tested.

Differential effects of transforming growth factor-beta 1 on IgA vs. IgG2b production by lipopolysaccharide-stimulated lymph node B cells: a comparative study with spleen B cells.

Transforming growth factor-beta 1 (TGF-beta 1) is a multifunctional cytokine that promotes IgA/IgG2b switching and secretion. Here, we show a differential effect of TGF-beta 1 on Ig production by lipopolysaccharide-stimulated spleen and lymph node (LN) B cells. Exogenous TGF-beta 1 increased IgA production in B cell cultures and IgG2b production by spleen B cells. In contrast, IgG2b was suppressed by TGF-beta 1 in cultures of LN B cells, although endogenous TFG-beta was required for IgG2b production in LN B cell cultures. The suppressor properties of exogenous TGF-beta 1 (0.5 ng/ml) on IgG2b production by LN B cells were also seen when testing IgG1 or IgG2a induced by interleukin-4 or interferon-gama, respectively. These differences between B cells from each lymphoid tissue appeared to be related to a different TGF-beta antiproliferative effect, since proliferation of LN B cells was extremely sensitive to TFG-beta 1 and IgG2b production was more sensitive than IgA to the TFG-beta-mediated suppression. However, by counteracting the antiproliferative effect of TGF-beta 1 with a CD40 agonistic mAb (IC10), the IgG2b response by LN B cells was still lacking. IC10 was nevertheless inhibitory for IgG2b production in most cases, while increasing secretion of IgA in the very same cultures. Taken together, the results suggest that functional differences between spleen and LN B cells do exit, at least with regard to the immunomodulating properties of TGF-beta on both proliferation and Ig production. Moreover, functional differences exist between cells committed for IgA and IgG2b regarding their sensitivity to the antiproliferative activity of TGF-beta 1 and the effect of CD40-derived signals on Ig secretion.