Plasmodium falciparum: sporozoite boosting of immunity due to a T-cell epitope on a sporozoite vaccine

Plasmodium falciparum: Sporozoite boosting of immunity due to a T-cell epitope on a sporozoite vaccine. Experimental Parasitology 64, 64-70. The impact of a malaria sporozoite vaccine may be enhanced if protective immunity elicited by the vaccine is boosted by natural exposure to sporozoites. For this to occur, a helper T lymphocyte epitope present on the vaccine must be shared by sporozoites. These studies show that T cells from mice immunized with R32tet32, the Plasmodium falciparum sporozoite vaccine candidate, recognize an epitope of less than or equal to 7 amino acids derived from the circumsporozoite protein repeat region of R32tet32, as well as an epitope on the tet32 fusion protein tail of R32tet32. Exposure of R32tet32 immunized animals to P. falciparum sporozoites elicits a significant secondary antibody response which suggests that humans who are immunized and respond to this vaccine may be boosted by field exposure to sporozoite infected mosquitoes.     

Cell-mediated immune responses to vaccine peptides derived from the circumsporozoite protein of Plasmodium falciparum

T cell epitopes residing within vaccine candidate peptides have been identified by delayed-type hypersensitivity (DTH) responses in mice. The recombinant sporozoite vaccine candidate, R32tet32, contains at least two T epitopes, one located within the repeat region and another in the tet tail. When C57BL/6 (H-2b) and BALB/c (H-2d) mice were sensitized intradermally with R32tet32 or the truncated protein R32LR emulsified in CFA and challenged 5 days later with R32tet32, only H-2b mice recognized a T epitope located within the major repeat sequence (NANP) and encoded by four or less repeats. H-2d mice responded solely to the T epitope located on the tet tail. Ear swelling was maximal at 48 h and revealed a histologic pattern characteristic of DTH. CD4+ T cell lines derived from immunized animals demonstrated the ability to mediate local DTH, proliferate, and secrete lymphokines in response to stimulation with Ag. High dose i.v. administration of R32tet32 in C57BL/6 and BALB/c mice before intradermal sensitization with R32tet32 revealed that DTH responses were suppressed only in BALB/c mice. Further experiments localized the suppressive determinant to the tet tail. Collectively, these data indicate that DTH may prove to be a useful method to characterize the biologic activity of T epitopes, furthermore they suggest that candidate vaccine peptides should be tested for suppressive activity before inclusion in a vaccine.     

Plasmodium falciparum: elicitation by peptides and recombinant circumsporozoite proteins of circulating mouse antibodies inhibiting sporozoite invasion of hepatoma cells

The immunodominant epitope region of the circumsporozoite protein of Plasmodium falciparum sporozoites contains 37 tandem repeats of the tetrapeptide Asn-Ala-Asn-Pro and 4 repeats of Asn-Val-Asp-Pro. Synthetic peptides and recombinant proteins of the repeat region were used to immunize mice using different doses and adjuvants. Antisera were tested for inhibition of sporozoite invasion of cultured human hepatoma cells. Synthetic peptides and recombinant proteins elicited high levels of antibodies that inhibited sporozoite invasion when emulsified with complete Freund's adjuvant. Since recombinant proteins with alum elicited a better antibody response to sporozoite invasion than they did without adjuvant, it may be that a recombinant protein containing 32 tandem copies of the tetrapeptide repeat combined with alum could be a candidate malarial vaccine suitable for human trials.     

Use of long synthetic peptides to study the antigenicity and immunogenicity of the Plasmodium vivax circumsporozoite protein

Three long synthetic peptides corresponding to amino (N), repeat (R) and carboxyl (C) regions of the Plasmodium vivax circumsporozoite (CS) protein were synthesised and used to assess their potential as vaccine candidates. Antigenicity studies were carried out using human blood samples from residents of a malaria-endemic area of Colombia, and immunogenicity was tested in Aotus monkeys. The N and C peptides spanned the total native amino and carboxyl flanking regions, whereas the R peptide corresponded to a construct based on the first central nona-peptide repeated in tandem three times and colinearly linked to a universal T-cell epitope (ptt-30) derived from tetanus toxin. All three peptides had been shown previously to contain several B-, T-helper (Th) and Cytotoxic T Lymphocytes (CTL) epitopes. Sixty-one percent of the human sera reacted with the R region, whereas 35 and 39% of the samples had antibodies against the N and C peptides, respectively. Human Peripheral Blood Mononuclear Cells (PBMC) showed higher levels of IFN-gamma than IL-4 when stimulated with peptides containing Th epitopes. Aotus monkeys immunised with the peptides formulated in either Montanide ISA720 or Freund's adjuvants produced strong antibody responses that recognised the peptide immunogens and the native circumsporozoite protein on sporozoites. Additionally, high IFN-gamma production was induced when Aotus lymphocytes were stimulated in vitro with each of the three peptides. We observed boosting of antibody responses and IFN-gamma production by exposure to live sporozoites. These results confirm the high antigenicity and immunogenicity of such synthetic polypeptides and underline their vaccine potential.     

Generation of rubella virus-neutralising antibodies by vaccination with synthetic peptides

Abstract Four short peptides from rubella virus proteins E1 and E2, predicted to contain B cell epitopes, were used to vaccinate BALB/c mice. Sera from peptide-vaccinated animals reacted with viral antigens in ELISA and three of the four induced virus-neutralising antibody (nAb) responses. Peptide PY4, in contrast to the others, induced IgG2a responses upon vaccination and stimulated spleen cells in vitro produced IFNγ in the absence of IL-5. It was reasoned that vaccination with PY4 caused Th1 subset activation, the appropriate type of response for anti-viral immunity and hence the efficient neutralising antibody response. Presentation of peptide for vaccination proved to be as important as the sequence. Similar profiles of IgG1 and IgG2a were detected in the sera of mice vaccinated with PY4 in Freund's complete adjuvant or alum; however nAb responses were not found when alum was used.     

Use of long synthetic peptides to study the antigenicity and immunogenicity of the Plasmodium vivax circumsporozoite protein

Three long synthetic peptides corresponding to amino (N), repeat (R) and carboxyl (C) regions of the Plasmodium vivax circumsporozoite (CS) protein were synthesised and used to assess their potential as vaccine candidates. Antigenicity studies were carried out using human blood samples from residents of a malaria-endemic area of Colombia, and immunogenicity was tested in Aotus monkeys. The N and C peptides spanned the total native amino and carboxyl flanking regions, whereas the R peptide corresponded to a construct based on the first central nona-peptide repeated in tandem three times and colinearly linked to a universal T-cell epitope (ptt-30) derived from tetanus toxin. All three peptides had been shown previously to contain several B-, T-helper (Th) and Cytotoxic T Lymphocytes (CTL) epitopes. Sixty-one percent of the human sera reacted with the R region, whereas 35 and 39% of the samples had antibodies against the N and C peptides, respectively. Human Peripheral Blood Mononuclear Cells (PBMC) showed higher levels of IFN-γ than IL-4 when stimulated with peptides containing Th epitopes. Aotus monkeys immunised with the peptides formulated in either Montanide ISA720 or Freund's adjuvants produced strong antibody responses that recognised the peptide immunogens and the native circumsporozoite protein on sporozoites. Additionally, high IFN-γ production was induced when Aotus lymphocytes were stimulated in vitro with each of the three peptides. We observed boosting of antibody responses and IFN-γ production by exposure to live sporozoites. These results confirm the high antigenicity and immunogenicity of such synthetic polypeptides and underline their vaccine potential.     

Carrier-specific unresponsiveness in reaginic antibody formation. II. Suppression of hapten and carrier responsiveness in presensitized rats.

By inducing carrier-specific tolerance to sheep γ-globulin (SGG) in rats challenged with TNP-SGG in alum, it has been possible to study the effect of helper T-cell Unresponsiveness on IgE anti-TNP antibody formation. Rats primed to either the carrier (SGG) or the hapten (TNP as TNP-KLH) were treated with a single high dose (10 mg) of soluble SGG resulting in a suppression of both IgE anti-TNP and anti-SGG antibody which was maintained following a normally immunogenic secondary challenge with TNP-SGG in alum. This suppression was relatively long lasting, with no detectable IgE responsiveness to hapten or carrier observed for up to 8 weeks after tolerance induction. Suppressed animals were able to respond to the hapten when challenged with TNP-KLH, indicating that the induced effect did not directly involve the IgE antibody producing cells, but rather the carrier-specific helper cells. These results parallel our previous findings for IgM and IgG responses in a similar system. Such relatively long lasting and easily induced suppression in IgE antibody formation to specific protein antigens in primed animals may eventually provide a clinically useful means of allergic desensitization to large protein allergens.     

Saponin adjuvant enhancement of antigen-specific immune responses to an experimental HIV-1 vaccine.

The adjuvant activity of a single highly purified saponin from the soap bark tree Quillaja saponaria was evaluated by using it as a component in an experimental vaccine containing rHIV-1 envelope protein (HIV-1 160D) adsorbed to alum. BALB/c mice immunized with experimental vaccine formulations containing the saponin adjuvant QS-21 produced significantly higher titers of antibodies than mice vaccinated with only the alum-adsorbed HIV-1 160D. Potent amnestic antibody responses to HIV-1 viral proteins were also induced. Ag-specific proliferative responses to recombinant proteins and to three variants of HIV-1 were significantly increased using QS-21 as an adjuvant. Alum-adsorbed HIV-1 160D failed to induce measurable proliferative responses to inactivated HIV-1 viruses, but group-specific proliferative responses were raised when the QS-21 adjuvant was used in the vaccine formulation. MHC class I restricted CTL specific for the immunodominant V-3 loop were induced but only when the QS-21 adjuvant was included in the vaccine formulation. The production of serine esterase by Ag-activated splenic mononuclear cells, indicating the maturation of precursor CTL, was used as a secondary measure of CTL activity, and this response was also increased. The specificity of antibody responses was not significantly broadened using QS-21; the adjuvant increased the immune recognition of epitopes throughout the HIV-1 glycoprotein 160. However, the specificity of the proliferation and serine esterase responses was broadened, suggesting that the QS-21 augmented cell-mediated immune responses specific for epitopes outside of the V-3 loop. Additionally, the QS-21 adjuvant appeared to induce recognition of weakly immunogenic epitopes that were not recognized using only alum-adsorbed HIV-1 160D. The ability of QS-21 to augment both antibody and cell-mediated immune responses suggests that this adjuvant could be a valuable component in subunit vaccines.     

Comparative immunological properties of enantiomeric peptides

Summary The immunogenicity of a peptide composed of only d-amino acids is compared with that of the corresponding l-peptide enantiomer. Following three administrations of 100 g of individual peptide formulated with different adjuvants (Freund's complete adjuvant, QS21, or alum) to BALB/c mice, guinea pigs and rabbits, the l-peptide elicited strong l-peptide-specific IgG antibody responses in all formulations, whereas the d-peptide-induced d-peptide-specific IgG antibodies in the Freund's complete adjuvant and QS21 formulations, but was nonimmunogenic in the alum formulation. Mouse T-cell lines induced by the d-peptide formulated in Freund's complete adjuvant were found to express significant amounts of IL-2 when they were stimulated by the d-peptide. When an equal amount of both enantiomers was mixed and administered in Freund's complete adjuvant, only an l-peptide-specific IgG antibody response was observed. These results suggest that (i) d-peptide is immunogenic when strong adjuvant is provided; (ii) the immune system has preferential recognition of l-amino acid peptide; and (iii) the d-peptide can elicit d-peptide-specific T-cell responses.     

Carrier-specific unresponsiveness in reaginic antibody formation. I. Induction of helper cell tolerance in rats.

Rats pretreated with 10 mg soluble sheep gamma globulin (soluble SGG or SGGSo) showed a marked reduction in IgE anti-TNP antibody upon challenge with TNP-SGG in alum. This effect was found to be carrier-specific since SGGSo tolerant rats gave normal IgE anti-TNP responses when challenged with TNP-KLH. Carrier tolerance persisted when a secondary challenge with TNP-SGG was given. The degree of tolerance induction was shown to be tolerogen dose-dependent. As expected, IgE anti-SGG responses were also reduced in this system by pretreatment with SGGSo. These results indicate that carrier-specific helper cells for IgE antibody responses can be rendered functionally unresponsive. However, in contrast to the long duration of carrier-specific tolerance for IgM and IgG responses, IgE tolerance in this system appeared to be only short-lived. This difference suggests that IgE helper and/or suppressor T cells may represent a separate subclass from those involved in IgM and IgG responses.     

Phase I trial of an alhydrogel adjuvanted hepatitis B core virus-like particle containing epitopes of Plasmodium falciparum circumsporozoite protein

The objectives of this non-randomized, non-blinded, dose-escalating Phase I clinical trial were to assess the safety, reactogenicity and immunogenicity of ICC-1132 formulated with Alhydrogel (aluminum hydroxide) in 51 healthy, malaria-naive adults aged 18 to 45 years. ICC-1132 (Malariavax) is a recombinant, virus-like particle malaria vaccine comprised of hepatitis core antigen engineered to express the central repeat regions from Plasmodium falciparum circumsporozoite protein containing an immunodominant B [(NANP)(3)] epitope, an HLA-restricted CD4 (NANPNVDPNANP) epitope and a universal T cell epitope (T*) (amino acids 326-345, NF54 isolate). We assessed an Alhydrogel (aluminum hydroxide)-adjuvanted vaccine formulation at three ICC-1132 dose levels, each injected intramuscularly (1.0 mL) on study days 0, 56 and 168. A saline vaccine formulation was found to be unstable after prolonged storage and this formulation was subsequently removed from the study. Thirty-two volunteers were followed for one year. Local and systemic adverse clinical events were measured and immune responses to P. falciparum and hepatitis B virus core antigens were determined utilizing the following assays: IgG and IgM ELISA, indirect immunofluorescence against P. falciparum sporozoites, circumsporozoite precipitin (CSP) and transgenic sporozoite neutralization assays. Cellular responses were measured by proliferation and IL-2 assays. Local and systemic reactions were similarly mild and well tolerated between dose cohorts. Depending on the ICC-1132 vaccine concentration, 95 to 100% of volunteers developed antibody responses to the ICC-1132 immunogen and HBc after two injections; however, only 29-75% and 29-63% of volunteers, respectively, developed malaria-specific responses measured by the malaria repeat synthetic peptide ELISA and IFA; 2 of 8 volunteers had positive reactions in the CSP assay. Maximal transgenic sporozoite neutralization assay inhibition was 54%. Forty-seven to seventy-five percent demonstrated T cell proliferation in response to ICC-1132 or to recombinant circumsporozoite protein (rCS) NF-54 isolate. This candidate malaria vaccine was well tolerated, but the vaccine formulation was poorly immunogenic. The vaccine may benefit from a more powerful adjuvant to improve immunogenicity. TRIAL REGISTRATION: ClinicalTrials.gov NCT00587249.     

Targeting the R domain of coagulase by active vaccination protects mice against lethal Staphylococcus aureus infection

Coagulase (Coa) secreted by Staphylococcus aureus is associated with the establishment of staphylococcal disease, which activates host prothrombin and generates fibrin shields. The R domain of Coa, consisting of several conserved repeats, is important in immune evasion during S. aureus infection. However, previous research showed that the Coa R domain induced very weak specific antibody responses. In this study, we constructed a new R domain, CoaR6, consisting of 6 repeats that occur most frequently in clinical isolates. By fusing CoaR6 with Hc, the C-terminal fragment of the heavy chain of tetanus neurotoxin, we successfully increased anti-CoaR6 IgG levels in immunized mice which were hardly detected in mice immunized with CoaR6 plus alum. To further improve anti-CoaR6 responses, the combination adjuvants alum plus CpG were formulated with the antigen and exhibited a significantly higher specific antibody response. Moreover, active Th1/Th17 immune responses were observed in Hc-CoaR6 immunized group rather than CoaR6. Active immunization of Hc-CoaR6 with alum plus CpG showed protective effects in a peritonitis model induced by two S. aureus strains with different coagulase types. Our results provided strategies to improve the immunogenicity of R domain and supporting evidences for R domain to be an S. aureus vaccine candidate.     

The synthesis, cloning and expression of a repeating segment of the circumsporozoite surface protein of Plasmodium falciparum

Repeats of the tetrapeptide (NANP) of the circumsporozoite protein of P. falciparum have been found to be immunogenic and possibly may act as vaccines against malaria infection. The DNA duplex encoding for eight of the (NANP) repeating unit and two of the (NVDP) unit have been synthesized, cloned and expressed in E. coli as a fused protein. The recombinant protein was shown to be immunogenic and to have the antigenic activity of the circumsporozoite.     

A novel vaccine adjuvant for recombinant flu antigens

Many new vaccines under development consist of rationally designed recombinant proteins that are relatively poor immunogens unless combined with potent adjuvants. There is only one adjuvant in common use in the U.S., aluminum phosphate or hydroxide (e.g. alum). This adjuvant, however, has significant limitations, particularly regarding the generation of strong cell-mediated (T-cell) immune responses. A novel adjuvant, JVRS-100, composed of cationic liposome–DNA complexes (CLDC) has been evaluated for immune enhancing activity. The JVRS-100 adjuvant has been shown to elicit robust immune responses compared to CpG oligonucleotides, alum, and MPL adjuvants, and efficiently enhances both humoral and cellular immune responses. Safety has been evaluated in preclinical studies, and the adjuvant is now in early-stage clinical development. One application of this novel adjuvant is to augment the immune responses to recombinant subunit antigens, which are often poorly immunogenic. The JVRS-100 adjuvant, when combined with a recombinant influenza hemagglutinin (H1), elicited increased specific antibody and T-cell responses in mice. Single-dose vaccination and prime/boost vaccinations with JVRS-100-H1 were both shown to be protective (i.e., survival, reduced weight loss) following H1N1 (PR/8/34) virus challenge. Enhanced immunological responses could be critically important for improved efficacy and dose-sparing of a recombinant influenza vaccine.     

Evaluation of the immune responses induced by four targeted DNA vaccines encoding the juvenile liver fluke antigen, cathepsin B in a mouse model

ABSTRACT: BACKGROUND: Liver fluke can infect cattle and sheep, and is also emerging as a human pathogen in developing countries. Cathepsin B (Cat B2) is a major cysteine protease secreted by the juvenile flukes. To enhance the immune responses of Cat B2, the cDNA sequence was fused with four different DNA vaccine vectors. The induced cellular and antibody responses were compared in vaccinated mice. METHODS: The following recombinant DNA vaccine constructs were constructed: empty vector VR1012 as negative control, cytoplasmic construct pVR1012 Cat B2, secretory construct pVR1020 Cat B2, chemokine-fused construct pMCP3 Cat B2 and lymph node targeting construct pCTLA-4 Cat B2. Plasmids were constructed using standard procedures, and positive constructs screened and selected using restriction digestion analysis followed by sequence analysis. The constructs were then tested in Cos - 7 cells for in vitro expression, which was analysed using immunoblotting. Subsequently, female BALB/c mice were immunised with DNA constructs as vaccines. Elicited antibody responses were measured using ELISA. The ratio between IgG1 and IgG2a antibody responses was estimated among different vaccine groups. IgG antibody avidity assay was performed and the relative avidity index was calculated. The induced cytokine production from splenocytes of vaccinated animals was estimated using ELISPOT. RESULTS: DNA vaccine constructs carrying Cat B2 were expressed in Cos-7 cell lines and encoded protein was recognised using western blotting using rat anti- cathepsin B antibody. DNA vaccines elicited high Cat B2- specific IgG, IgG1, IgE and also modest IgG2a antibody responses. Cat B2 specific IL-4 T cell responses were also observed in Cat B2 vaccinated mice. The comparison of immunogenic potential in each of these constructs was demonstrated as enhanced antibody responses on the lymph-node targeting vector pCTLA-4 Cat B2, the high antibody avidity of chemo-attractant pMCP3 Cat B2 and stronger T cellular responses of non-secretory DNA vaccine pVR1012 Cat B2 in vaccinated animals. CONCLUSION: This study showed that the targeting DNA vaccine strategies enhanced specific immune responses to juvenile fluke Cat B2. The results of our current study have demonstrated that a gene-based vaccine as an immunotherapeutic approach to combat Fasciola infection may be feasible.     

Construction of immunogens for synthetic malaria vaccines

The immunogenicity of a peptide consisting of eight repeats of the tetrapeptide sequence NANP (Asn-Ala-Asn-Pro) contained in the circumsporozoite protein of Plasmodium falciparum was investigated in mice under different modes of presentation. This peptide was able to produce biologically active antibodies when administered with adjuvant and linked to a protein carrier. However, a (NANP) peptide polymerized by carbodiimide was found to be immunogenic in the absence of protein carrier in H-2b mice. In contrast, the (NANP)8 peptide polymerized by glutaraldehyde was not immunogenic in the same strain. Furthermore, the efficacy of murabutide in saline, as an immunological adjuvant, was compared to the efficacy of Freund's complete adjuvant.     

Tailoring Subunit Vaccine Immunity with Adjuvant Combinations and Delivery Routes Using the Middle East Respiratory Coronavirus (MERS-CoV) Receptor-Binding Domain as an Antigen

The development of an effective vaccine is critical for prevention of a Middle East respiratory syndrome coronavirus (MERS-CoV) pandemic. Some studies have indicated the receptor-binding domain (RBD) protein of MERS-CoV spike (S) is a good candidate antigen for a MERS-CoV subunit vaccine. However, highly purified proteins are typically not inherently immunogenic. We hypothesised that humoral and cell-mediated immunity would be improved with a modification of the vaccination regimen. Therefore, the immunogenicity of a novel MERS-CoV RBD-based subunit vaccine was tested in mice using different adjuvant formulations and delivery routes. Different vaccination regimens were compared in BALB/c mice immunized 3 times intramuscularly (i.m.) with a vaccine containing 10 µg of recombinant MERS-CoV RBD in combination with either aluminium hydroxide (alum) alone, alum and polyriboinosinic acid (poly I:C) or alum and cysteine-phosphate-guanine (CpG) oligodeoxynucleotides (ODN). The immune responses of mice vaccinated with RBD, incomplete Freund’s adjuvant (IFA) and CpG ODN by a subcutaneous (s.c.) route were also investigated. We evaluated the induction of RBD-specific humoral immunity (total IgG and neutralizing antibodies) and cellular immunity (ELISpot assay for IFN-γ spot-forming cells and splenocyte cytokine production). Our findings indicated that the combination of alum and CpG ODN optimized the development of RBD-specific humoral and cellular immunity following subunit vaccination. Interestingly, robust RBD-specific antibody and T-cell responses were induced in mice immunized with the rRBD protein in combination with IFA and CpG ODN, but low level of neutralizing antibodies were elicited. Our data suggest that murine immunity following subunit vaccination can be tailored using adjuvant combinations and delivery routes. The vaccination regimen used in this study is promising and could improve the protection offered by the MERS-CoV subunit vaccine by eliciting effective humoral and cellular immune responses.     

Quantitation of Human Seroresponsiveness to Merkel Cell Polyomavirus

Merkel cell carcinoma (MCC) is a relatively uncommon but highly lethal form of skin cancer. A majority of MCC tumors carry DNA sequences derived from a newly identified virus called Merkel cell polyomavirus (MCV or MCPyV), a candidate etiologic agent underlying the development of MCC. To further investigate the role of MCV infection in the development of MCC, we developed a reporter vector-based neutralization assay to quantitate MCV-specific serum antibody responses in human subjects. Our results showed that 21 MCC patients whose tumors harbored MCV DNA all displayed vigorous MCV-specific antibody responses. Although 88% (42/48) of adult subjects without MCC were MCV seropositive, the geometric mean titer of the control group was 59-fold lower than the MCC patient group (p<0.0001). Only 4% (2/48) of control subjects displayed neutralizing titers greater than the mean titer of the MCV-positive MCC patient population. MCC tumors were found not to express detectable amounts of MCV VP1 capsid protein, suggesting that the strong humoral responses observed in MCC patients were primed by an unusually immunogenic MCV infection, and not by viral antigen expressed by the MCC tumor itself. The occurrence of highly immunogenic MCV infection in MCC patients is unlikely to reflect a failure to control polyomavirus infections in general, as seroreactivity to BK polyomavirus was similar among MCC patients and control subjects. The results support the concept that MCV infection is a causative factor in the development of most cases of MCC. Although MCC tumorigenesis can evidently proceed in the face of effective MCV-specific antibody responses, a small pilot animal immunization study revealed that a candidate vaccine based on MCV virus-like particles (VLPs) elicits antibody responses that robustly neutralize MCV reporter vectors in vitro. This suggests that a VLP-based vaccine could be effective for preventing the initial establishment of MCV infection.     

Lack of Ir gene control in the immune response to malaria. I. A thymus-independent antibody response to the repetitive surface protein of sporozoites

The anamnestic antibody response to synthetic peptide antimalarial vaccines is under Ir gene control. It has therefore been inferred that the development of antibody responses to the native repetitive Ag of malaria parasites also requires linkage of T and B cell epitopes, presentation of Ag in the context of MHC class II components, and cognate T cell help for antibody production. In this study, we sought to test this assumption, by utilizing classical protocols to determine whether the antibody response to the repetitive surface Ag of malaria sporozoites, the circumsporozoite (CS) protein, is under Ir gene control. In contrast to vaccine constructs, such as recombinant proteins or synthetic peptides, secondary responses to the repetitive oligomeric domains of the native CS protein of intact malaria sporozoites do not require the presence of Ag-specific Th cells. Conferral of CS-specific Th cells does not appear to influence the magnitude of this thymus-independent response to sporozoites. In further contrast to synthetic CS analogs, exposure to the parasite appears to be associated with low levels of Ag-specific Th cell sensitization. These observations suggest a functional role in immune evasion for the immunodominant repetitive domains found within protein Ag of malaria and other parasites.     

Plasmodium falciparum: recombinant baculoviruses direct the expression of circumsporozoite proteins in Spodoptera frugiperda cell cultures

The DNA coding for the circumsporozoite protein (CPS) of Plasmodium falciparum has been cloned into the baculovirus expression vector pAcYM1 and expressed in Spodoptera frugiperda (Sf9) insect cells. Three DNA constructs have been made: the first one directs the synthesis of the complete CSP (aa 1–412), the second leads to the production of a species devoid of the anchor domain (aa 1–391) and the third one to a molecule lacking both signal and membrane anchor sequences (aa 18–391). All three recombinant CPS were produced at about 3 g per 10⁶ infected cells and were characterized in terms of immunoreactivity and apparent molecular weight. Analytical purification of the recombinant proteins was achieved by a combination of heat treatment, acidification, isoelectric focusing and ion exchange chromatography. The purified material, when injected into mice, generated only modest antibody responses, although antisera from immunized mice reacted with control CSP antigens carrying or not the major immunodominant repeat region.Abbreviations AcNPV Autographa californica nuclear polyhedrosis virus - CSP circumsporozoite protein