Identification of a conserved region of Plasmodium falciparum MSP3 targeted by biologically active antibodies to improve vaccine design

Merozoite surface protein 3 (MSP3) is a target of antibody-dependent cellular inhibition (ADCI), a protective mechanism against Plasmodium falciparum malaria. From the C-terminal half of the molecule, 6 overlapping peptides were chosen to characterize human immune responses. Each peptide defined at least 1 non-cross-reactive B cell epitope. Distinct patterns of antibody responses, by level and IgG subclass distribution, were observed in inhabitants of a malaria-endemic area. Antibodies affinity purified toward each peptide differed in their functional capacity to mediate parasite killing in ADCI assays: 3 of 6 overlapping peptides had a major inhibitory effect on parasite growth. This result was confirmed by the passive transfer of anti-MSP3 antibodies in vivo in a P. falciparum mouse model. T helper cell epitopes were identified in each peptide. Antigenicity and functional assays identified a 70-amino acid conserved domain of MSP3 as a target of biologically active antibodies to be included in future vaccine constructs based on MSP3.     

猪带绦虫Ts14-3-3.2重组蛋白诱导小鼠免疫应答的研究

目的 观察猪带绦虫Ts143-3.2重组蛋白在小鼠体内诱导的免疫应答情况.方法 将60只雌性昆明小鼠随机分为5组,分别为Ts14-3-3.2重组蛋白50 μg剂量组、100 μg剂量组和150 μg剂量组以及弗氏佐剂对照组和磷酸盐缓冲液(phosphate buffered saline,PBS)对照组,于首次免疫后0...     

Antibodies to Plasmodium falciparum and Plasmodium vivax merozoite surface protein 5 in Indonesia: species-specific and cross-reactive responses

BACKGROUND: Merozoite surface protein (MSP) 5 is a candidate antigen for a malaria vaccine. In cross-sectional and longitudinal studies, we measured MSP5 antibody responses in Papuans with acute Plasmodium falciparum malaria, Plasmodium vivax malaria, and mixed P. falciparum and P. vivax malaria and in those with past exposure. METHODS: Enzyme-linked immunosorbant assay (ELISA) was used to quantitate antibody responses to P. falciparum MSP5 (PfMSP5) and P. vivax MSP5 (PvMSP5) in 82 subjects with P. falciparum infection, 86 subjects with P. vivax infection, 85 subjects with mixed infection, and 87 asymptomatic individuals. Longitudinal responses through day 28 were tested in 20 persons. Cross-reactivity was tested by competition ELISA. RESULTS: PfMSP5 or PvMSP5 immunoglobulin (Ig)Gwas detected in 39%-52% of subjects, and IgM was detected in 44%-72%. IgG responses were distributed equally between IgG3 and IgG1 for PfMSP5 but were predominantly IgG3 for PvMSP5. Although IgG responses were generally specific for PfMSP5 or PvMSP5, cross-species reactivity was found in 7 of 107 dual-positive responders. No significant difference was seen in the magnitude, frequency, or subclass of PfMSP5 or PvMSP5 IgG antibodies between groups. There was no significant association between antibody responses and therapeutic response. CONCLUSION: PfMSP5 and PvMSP5 were frequently recognized by short-lived, species-specific antibodies. Although infrequent, the cross-reactive MSP5 antibodies indicate that an appropriately formulated vaccine may elicit and/or enhance cross-species recognition, which may be very useful in areas where both parasites are endemic.     

Enhancement of Immune Responses by Co-delivery of CCL19/MIP-3beta Chemokine Plasmid With HCV Core DNA/Protein Immunization

Background:

Using molecular adjuvants offers an attractive strategy to augment DNA vaccine-mediated immune responses. Several studies have revealed that an efficient HCV vaccine model should be able to induce both humoral and cell mediated immune responses targeting the conserved regions of the virus to circumvent the immune escape mutants. The beta chemokine Macrophage Inflammatory Protein 3-beta (MIP-3beta) is a key modulator of dendritic cells (DCs) and T-cells interaction, functions during immune response induction and is secreted specifically by cells in the lymphoid tissues.

Objectives:

In the present study, we questioned whether co-administration of MIP-3beta gene could enhance the immune responses to HCV core in DNA vaccination.

Materials and Methods:

Expression and biological activity of MIP-3beta expressing plasmid were evaluated by ELISA and transwell migration assays, respectively. HCV core DNA vaccine ± plasmid expressing MIP-3beta were electroporated subcutaneously to the front foot pads of BALB/c mice on days 0 and 14, and HCV core protein booster was applied to all core-DNA-vaccine received mice on the day 28. Both cell mediated immunity (proliferation, IFN-γ and IL-4 cytokine release, IFN-γ ELISpot and cytotoxic Granzyme B release assays) and humoral immune responses (total IgG and IgG2a/IgG1 subtyping) were evaluated ten days after final immunization.

Results:

Mice covaccinated with MIP-3beta elicited an enhanced Th1 biased systemic immune response as evidenced by higher IFN-γ/IL-4 and anti-core IgG2a/IgG1 ratio, lymphoproliferation, strong cytolytic GrzB release and enhanced population of IFN-γ producing immunocytes. Likewise, the humoral immune response assumed as the total anti-core IgG level was augmented by MIP-3beta co-delivery.

Conclusions:

These results exhibited the immuno potentiator effects of MIP-3beta plasmid when coadministrated with the HCV core DNA vaccine. Complimentary studies integrating MIP-3beta as a genetic adjuvant in HCV-core-DNA vaccination models are warranted.     

Naturally acquired antibodies to polymorphic and conserved epitopes of Plasmodium falciparum merozoite surface protein 3

Many studies on the role of merozoite surface protein 3 (MSP3) in immunity against malaria have focused on a conserved section of MSP3. New evidence suggests that polymorphic sequences within MSP3 are under immune selection. We report a detailed analysis of naturally-acquired antibodies to allele-specific and conserved parts of MSP3 in a Kenyan cohort. Indirect and competition ELISA to heterologous recombinant MSP3 proteins were used for antibody assays, and parasites were genotyped for msp3 alleles. Antibody reactivity to allele-specific and conserved epitopes of MSP3 was heterogeneous between individuals. Overall, the prevalence of allele-specific antibody reactivity was significantly higher (3D7-specific 54%, K1-specific 41%) than that to a recombinant protein representing a conserved portion of C-terminal MSP3 (24%, P < 0.01). The most abundant IgG subclass was IgG3, followed by IgG1. Allele-specific reactivity to the K1-type of MSP3 was associated with a lower risk of clinical malaria episodes during a 6-month follow-up in individuals who were parasitized at the start of the malaria transmission season (Relative risk 0.41 with 95% confidence interval 0.20-0.81, P = 0.011). The potential importance of allele-specific immunity to MSP3 should be considered in addition to immunity to conserved epitopes, in the development of an MSP3 malaria vaccine.     

Plasmodium falciparum merozoite surface protein 1 (MSP1): genotyping and humoral responses to allele-specific variants.

The present study is the first to investigate Plasmodium falciparum merozoite surface protein 1 (MSP1) allele-specific humoral responses in residents of central Africa. In endemic areas, acquired immune responses to malaria are assumed to reflect the need to be infected with a large number of antigenically diverse parasite populations. In the work presented here, the relationship between antibody specificity and the infecting parasite genotype was investigated in asymptomatic subjects and patients with uncomplicated malaria in order to possibly clarify the relationship between anti-MSP1 block2 antibodies and clinical malaria. Overall isolates were typed by nested PCR using allele-specific primers of the P. falciparum MSP1 gene to identify the infecting parasite genotype. The K1 type was the predominant allelic family in both clinical groups. Polyinfection (number of isolates with more than one parasite genotype) and the complexity of infections (mean number of parasite genotype per infected subject) were higher in isolates from asymptomatic individuals. Total immunoglobulins G (IgG) responses to schizont crude extract antigens and to MSP1 variant-specific peptides were assessed by ELISA test. More than 90% of the sera reacted against schizont extract, whatever the clinical group and the K1 seroprevalence was the highest in both clinical groups. Our results showed an age-dependence in the number of different variants of MSP1 block2 recognised by serum. Indeed, isolates from older (>14 years) subjects showed lower multiplicity of infection and higher was the mean number of different MSP1 variants recognised by their serum. This corresponded to the age reported for the acquisition of anti-parasite immunity under high malaria endemicity. The contribution of variant-specific immunity in asymptomatic malaria infections is discussed.     

Enhancement of immune responses to an HIV env DNA vaccine by a C-terminal segment of listeriolysin O

An effective vaccine against AIDS should induce both cellular and humoral immune responses. Here we report that immunization of mice with a DNA plasmid encoding a chimeric protein consisting of HIV89.6 Env gp140 and the listeriolysin O (LLO) C-terminal segment (59 amino acids) significantly enhanced both humoral and cellular immune responses against the HIV89.6 Env protein. Plasmid DNA expression vectors with genes codon-optimized for mammalian expression were synthesized for HIV89.6 gp140 as well as for chimeric protein gp140-LLO, in which the coding sequence for the C-terminal 59 amino acids of LLO were fused in frame to the 3' end of the codon-optimized gene for gp140. All plasmid vectors produced high levels of protein expression, and the gp140-LLO chimeric protein was cleaved and secreted as efficiently as gp140. Analysis of humoral immune responses by ELISA showed that the chimeric gp140-LLO construct induced higher antibody responses than the gp140 construct in immunized mice, more notably in the IgG2a antibody subtype. Intracellular cytokine staining and flow cytometry analysis showed that the gp140-LLO construct induced significantly higher levels of cytotoxic T lymphocyte immune responses against the HIV 89.6 Env protein than those observed with the gp140 construct. Our results thus demonstrate that the C-terminal segment of LLO can be effectively employed to enhance both cellular and humoral immune responses against the HIV89.6 Env antigen in the context of a DNA vaccine.     

Short report: IgG1/IgG3 antibody responses to various analogs of recombinant ypfmsp119--a study in immune adults living in areas of Plasmodium falciparum transmission.

To further characterize protective-type (IgG1/IgG3) antibody responses to Plasmodium falciparum blood stage in putatively immune individuals' plasma, we have tested for various analogs of the 19 kDa C-terminus of the MSP1 antigen obtained as secreted recombinant proteins from Saccharomyces cerevisiae. One of four proteins was then identified on the basis of consistent IgG3, along with less variable IgG1 recognition. This protein has thus been selected for further functional assays of IgG1/IgG3 antibodies.     

Naturally acquired antibody responses to the components of the Plasmodium falciparum merozoite surface protein 1 complex

Merozoite surface protein 6 (MSP6) and 7 (MSP7) of Plasmodium falciparum are peripheral membrane proteins whose cleaved products, MSP636, MSP722 and MSP719, are found on the merozoite surface as components of a non-covalently bound complex which also contains four polypeptides derived from merozoite surface protein 1 (MSP1). We have expressed both the precursor regions and the processed mature products of MSP6 and MSP7 in Escherichia coli and showed that these recombinant proteins react with human immune sera. In a set of sera collected from individuals living in malaria-endemic areas of Southern-central Vietnam, antibodies to the mature polypeptides of MSP636 and MSP722 were detected in 50.6 and 85.6% of the serum samples, whereas antibodies to the precursor regions of MSP6 and MSP7 were detected in only 12.1 and 42.5% of the serum samples, respectively. The predominant subclass of anti-MSP6 antibodies was IgG1, whereas the predominant subclass of anti-MSP7 antibodies was IgG3. In the same set of serum samples, the antibody responses to MSP119 are predominantly IgGI, whereas antibodies to merozoite surface protein 4 (MSP4) are mainly IgG3. This data is consistent with the proposition that, during malaria infection, variable proteins induce responses that are predominantly of the IgG3 isotype, and conserved proteins induce responses that are predominantly IgG1. The antibodies to MSP6, MSP7 and MSP119 all decreased at the time of infection, but increased during the convalescent period. No correlation was observed between the antibodies at the commencement of the study and absence of parasitaemia during surveillance in this population.     

Dose-dependent neutralizing-antibody responses to vaccinia

To evaluate the humoral immune responses to smallpox-vaccine stocks currently available in the United States (Dryvax; Wyeth) and to generate data for comparison of responses to newly produced lots of smallpox vaccine, we evaluated dose-response effects, using undiluted and diluted smallpox vaccine. At 28 and 56 days after vaccination, serum samples were obtained from vaccinated subjects (N=674) who had participated in a randomized, single-blinded trial of an undiluted or a 1 : 5 or 1 : 10 dilution of smallpox vaccine and who subsequently were tested for plaque-reduction neutralizing-antibody titer. All subjects who developed a vesicle after vaccination also developed neutralizing antibodies by day 28. Subjects given either a 1 : 5 or 1 : 10 dilution of vaccinia had significantly higher neutralizing-antibody titers than did subjects given undiluted vaccine. Larger lesion size and fever after vaccination were associated with significantly higher neutralizing-antibody titers after vaccination.     

猪带绦虫重组Bb-TSO45W-4B-TSOL18疫苗诱导仔猪免疫应答的动态观察

目的 研究猪带绦虫重组Bb-TSO45W-4B-TSOL18疫苗免疫仔猪后诱导免疫应答的动态变化。方法 将16头40 d龄健康仔猪均分为4组:重组Bb-TSO45W-4B-TSOL18疫苗组、重组Bb-TSO45W-4B疫苗组、重组Bb-TSOL18疫苗组和双歧杆菌液体培养基(MRS)对照组。各疫苗组均以1011CFU灌胃免疫,间隔2周免疫1次,共免疫2次。在免疫后0、2、4、6、8周采集仔猪前腔静脉血,分离血清和外周血淋巴细胞(PBMC)。采用ELISA法检测仔猪血清IgG、IgG1及IgG2a水平和PBMC培养上清液IL-2、IFN-γ、IL-4及IL-10水平;MTT比色法检测PBMC增殖水平;FCM检测CD₄⁺和CD₈⁺T细胞亚群。结果 　各疫苗组血清IgG、IgG1、IgG2a水平均在免疫后2~8周升高,均在免疫后4周、6周、4周达较高水平;PBMC增殖水平均在免疫后2~8周升高,均在免疫后6周达较高水平CD₄⁺和CD₈⁺T细胞水平均在免疫后2~8周升高,均在免疫后8周和6周达较高水平;PBMC培养上清液IL-2、IFN-γ、IL-4、IL-10水平分别在免疫后2~6周、2~8周、4~6周和2~8周升高,分别在免疫后4周、6周、4周和8周达较高水平。各疫苗组上述指标与MRS对照组比较差异均有统计学意义(P<0.05);重组Bb-TSO45W-4B-TSOL18疫苗组与重组Bb-TSO45W-4B疫苗组和重组Bb-TSOL18疫苗组比较差异均有统计学意义(P<0.05)。结论 猪带绦虫重组Bb-TSO45W-4B-TSOL18疫苗免疫仔猪可诱导产生特异性的免疫应答,且TSO45W-4B-TSOL18融合抗原疫苗组优于TSO45W-4B或TSOL18单一抗原疫苗组。     

Short report: differential evolution of immunoglobulin G1/G3 antibody responses to Plasmodium falciparum MSP1(19) over time in malaria-immune adult Senegalese patients

This study examined the evolution of immunoglobulin (Ig) G1 and IgG3 antibodies against the asexual stage Plasmodium falciparum protein, MSP1(19), before and after a heavy malaria transmission period in clinically immune Senegalese subjects living under different epidemiological conditions. Plasma was tested for antibodies to a yeast-produced, recombinant PfMSP1(19) antigen (the Q-KNG allelic variant) that has previously been demonstrated to react with IgG1, IgG3, or both in the majority of these people. Anti-P. falciparum antibodies of the IgG1 and IgG3 subclasses, previously reported to be associated with protection, were shown to evolve independently one from another after the transmission period in both settings. These results suggest differential regulation of MSP1(19)-specific IgG1 and IgG3. The precise role of these antibody isotypes in maintaining malaria immunity remains to be determined.     

Reactivity of sera from cases of Plasmodium vivax malaria towards three recombinant antigens based on the surface proteins of the parasite

Sera collected in South Korea, from 61 cases of Plasmodium vivax malaria and, as controls, 40 healthy volunteers, were tested in ELISA for IgG or IgM reacting with any of three recombinant P. vivax proteins. The antigens used, representing the parasite's major merozoite surface protein (MSP), circumsporozoite surface protein (CSP) and Duffy-binding protein (DBP), had all been expressed in an Escherichia coli system and purified. The ELISA results were recorded as optical densities (OD). The highest ratio observed between the mean OD for a malaria serum and that for a control serum was that for IgG against MSP, although CSP gave a higher ratio than MSP or DBP in the IgM ELISA. In the ELISA for IgG, the OD for MSP were found to be correlated with those for DBP (r = 0.53; P < 0.5) but the OD for CSP were not correlated with those for MSP or DBP. As the most intense reactions observed were those between the IgG from the malaria sera and the recombinant MSP, the latter antigen may be useful in diagnostic tests and as a component of any vaccine used to protect against P. vivax malaria.     

Acquisition of antibody isotypes against Plasmodium falciparum blood stage antigens in a birth cohort

Information on the period during which infants lose their maternally derived antibodies to malaria and begin to acquire naturally their own immune responses against parasite antigens is crucial for understanding when malaria vaccines may be best administered. This study investigated the rates of decline and acquisition of serum antibody isotypes IgG1, IgG2, IgG3, IgG4, IgM and IgA to Plasmodium falciparum antigens apical membrane antigen (AMA1), merozoite surface proteins (MSP1‐19, MSP2 and MSP3) in a birth cohort of 53 children living in an urban area in the Gambia, followed over the first 3 years of life (sampled at birth, 4, 9, 18 and 36 months). Antigen‐specific maternally transferred antibody isotypes of all IgG subclasses were detected at birth and were almost totally depleted by 4 months of age. Acquisition of specific antibody isotypes to the antigens began with IgM, followed by IgG1 and IgA. Against the MSP2 antigen, IgG1 but not IgG3 responses were observed in the children, in contrast with the maternally derived antibodies to this antigen that were mostly IgG3. This confirms that IgG subclass responses to MSP2 are strongly dependent on age or previous malaria experience, polarized towards IgG1 early in life and to IgG3 in older exposed individuals.     

以恶性疟原虫MSP1和AMA1疫苗组合免疫小鼠诱导保护性免疫

目的以MSP1和AMA1的DNA疫苗、重组痘苗病毒疫苗和重组蛋白疫苗组合免疫小鼠,诱导针对疟疾红内期抗原MSP1和AMA1的保护性抗体。方法将编码恶性疟原虫MSP1全片段和AMA1胞外域的DNA免疫质粒(VR1020/190.3和VR1020/E)、痘苗病毒载体(rMVA/190.3和rMVA/E)及重组蛋白(d-GX190H和E)的同种类型疫苗混合,作为核酸疫苗(D)、病毒疫苗(V)及蛋白疫苗(P)按照“初始-强化”策略免疫小鼠。间接ELISA测血清中抗MSP1和AMA1抗体;用免疫血清进行体外原虫入侵红细胞抑制实验;由转基因伯氏疟原虫Pb-PfM19和P.bANKA株分别对免疫鼠进行体内攻击。结果各组免疫血清中均产生了较强的抗体应答,抗MSP1抗体与抗AMA1抗体滴度的变化趋势一致。实验组免疫小鼠血清在体外对两株原虫入侵红细胞均有较大程度的抑制。体内攻击实验中实验组小鼠平均存活时间较对照组略长。结论采用以MSP1和AMA1为基础的DNA、重组痘苗病毒和重组蛋白疫苗的组合免疫小鼠能诱导出有效的保护性抗体。以上结果为疟疾红内期疫苗合理免疫方案提供了重要的实验依据。     

Investigation of the kinetics of histidine-rich protein 2 and of the antibody responses to this antigen, in a group of malaria patients from India

Although immunological tests based on the detection of histidine-rich protein 2 (HRP2) from the parasites permit the rapid diagnosis of Plasmodium falciparum malaria, such tests are not yet sufficiently sensitive to detect every bloodsmear-positive case. Some individuals infected with P. falciparum may appear test-negative because of the presence of anti-HRP2 antibodies in their sera. A longitudinal follow-up of HRP2 antigenaemia and antibody responses to this antigen has now been conducted in a group of 45, bloodsmear-positive malaria cases of various ages, both during acute infection with P. falciparum and after antimalarial treatment. Pre-treatment, 'day-0' samples of fingerprick blood were tested for HRP2 (in antigen-capture ELISA) and for antigen-specific IgM and IgG (in indirect ELISA). The patients were then treated, with standard doses of chloroquine, before being retested, for HRP2 and anti-HRP2 antibodies, on days 7, 15 and 28. The level of antigenaemia, which on day 0 was found to be positively correlated with parasitaemia (r = 0.741; P < 0.001), had only fallen by an insignificant amount by day 7 but showed further, significant falls between days 7 and 15 (P < 0.001) and between days 15 and 28 (P < 0.01). Although no significant relationship was observed between the blood concentrations of HRP2 and anti-HRP2 IgM or IgG on days 0 or 7, the level of HRP2 antigenaemia was found to be positively correlated with the concurrent titre of anti-HRP2 IgM on day 15 (r = 0.612; P < 0.001) and day 28 (r = 0.501; P < 0.001). The titres of HRP2-specific IgG gradually increased over the 28 days of follow-up but were not found to be significantly correlated with the decreasing levels of HRP2 antigenaemia.When the 45 day-0 samples of blood were tested for HRP2 in a rapid diagnostic test (RDT), three appeared negative, probably because of interference from the circulating, free, anti-HRP2 antibodies in the plasma. The three RDT-negative samples were significantly different from the 42 RDT-positive, having relatively low HRP2 antigenaemias (P < 0.001) and relatively high titres of anti-HRP2 IgM (P < 0.05) and IgG (P < 0.001). Control samples of blood, from four patients infected with P. vivax and five healthy, normal individuals, were considered ELISA-negative for HRP2 and anti-HRP2 IgM or IgG.It appears that, during human infection with P. falciparum, serum levels of HRP2 antigen remain elevated for at least 7 days post-treatment, despite the host's development of antigen-specific immune responses both before and after treatment.     

Anti-merozoite surface protein-1 19-kDa IgG in mother-infant pairs naturally exposed to Plasmodium falciparum: subclass analysis with age, exposure to asexual parasitemia, and protection against malaria. V. The Asembo Bay Cohort Project

The anti-merozoite surface protein-1 19-kDa IgG (anti-MSP119KD) IgG responses of 33 parasitemic infants, aged 6-14 months, were compared with those of their mothers at the time of the infant's delivery and at the time the infants were sampled; the antimalaria protection associated with these responses was also compared. IgG1 and IgG3 were the predominant subclasses. Infants <300 days old and pregnant mothers had the lowest cytophilic-to-noncytophilic IgG ratio. By 300 days of age, the infants had IgG subclass compositions and levels similar to those of their mothers at the same date. Among infants, older infants with only 1 or 2 detected asexual parasitemias had the highest cytophilic-to-noncytophilic IgG ratio and IgG1 levels. IgG1 level was negatively correlated with protection. The findings suggest that the MSP119KD antibody response develops with age, not with multiple experiences with parasitemia, and, thus, that an antimalaria vaccine strategy for pregnant mothers could delay infants' first parasitemias until they are more capable of mounting a favorable anti-MSP119KD response.     

Compartmentalization of the IgG immune response to HIV-1 in breast milk.

OBJECTIVE: To evaluate the IgG immune response to HIV-1 in colostrum. METHODS: Paired serum and colostrum were collected from 16 asymptomatic HIV-1-infected women. IgG to gp160 and to four peptides (gp41 immunodominant DI domain, gp41/Id; EDLKWA epitope of DIII domain, gp41/K; gp120 C-terminus, gp120/Ct; V3 loop, gp120/V3) were evaluated in all samples. Functional activity of purified IgG was assessed for the ability to block transcytosis of cell-associated HIV-1 through a tight monolayer of endometrial epithelial cell line HEC1. RESULTS: IgG antibody to gp160 and to the four env-encoded synthetic peptides were detected in all specimens. The mean specific activity of IgG to gp41/K was 4.2 fold higher in colostrum than in paired serum. In contrast, mean specific activities of IgG to gp160 and gp41/Id were twofold higher in serum than in paired colostrum. Mean specific activities of IgG to gp120/V3 and to gp120/Ct were similar in systemic and milk compartments. Functional activity of IgG was evaluated in six paired serum and colostrum: in two women, serum IgG was 3.0 and 7.6 fold more efficient in blocking transcytosis than colostrum IgG; in one patient, colostrum IgG exhibited a 28 fold higher inhibitory capacity than serum IgG; in the remaining patients, serum and colostrum IgG demonstrated similar inhibitory activities against transcytosis of HIV. CONCLUSION: These features are consistent with a compartmentalization of the humoral IgG immune response to HIV within the mammary gland. Some HIV-1 antigens are able to induce a strong humoral mucosal immune response which may be of relevance for the design of a mucosal vaccine against HIV-1.     

Assessment of the role of the humoral response to Plasmodium falciparum MSP2 compared to RESA and SPf66 in protecting Papua New Guinean children from clinical malaria

The prevalence and concentration of naturally acquired humoral response (IgG) to merozoite surface protein 2 (MSP2), RESA, SPf66 and crude schizont extract were measured in a population living in a malaria highly endemic area of Papua New Guinea. A prospective longitudinal study in 0–5–15 year old children was conducted for one year in order to examine the relationship between the humoral response to these antigens and subsequent susceptibility to clinical malaria using a series of clinical definitions. The prevalence and concentration of antibodies to all antigens increased with age. Such correlation with age was most marked for MSP2 recombinant proteins. When age and previous exposure were controlled for, only antibody levels to MSP2 recombinant proteins (3D7 andd3D7) and to RESA predicted a reduction in incidence rate of episodes of clinical malaria. Our results support the inclusion of the recombinant proteins of the 3D7 allelic family of merozoite surface antigen 2 and RESA into a subunit vaccine against malaria.,     

The effect of chloroquine prophylaxis on yellow fever vaccine antibody response: comparison of plaque reduction neutralization test and enzyme-linked immunosorbent assay

Weekly oral chloroquine prophylaxis for malaria has been associated with impaired antibody response to intradermal rabies vaccination. Experimental data indicate that chloroquine may inhibit yellow fever virus in vitro, yet there has been no clinical evidence to suggest that antibody response to yellow fever vaccine is impaired by concomitant oral administration of chloroquine. A prospective trial was undertaken to evaluate the antibody response to yellow fever 17D vaccine (Connaught Laboratories) of volunteers who were randomized to taking either chloroquine or no drug. Of fifty subjects, 28 were randomized to taking chloroquine, 22 were randomized to taking no drug. Yellow fever 17D vaccine was administered on day 0 and blood sampled on days 0, 14, 35 and 210. Chloroquine was administered weekly for four weeks. There was no significant difference in peak antibody titer by plaque reduction neutralization testing (PRNT) between the group that took chloroquine (mean log peak of reciprocal titer 1.43 +/- SD 0.60) with vaccine subcutaneously compared to vaccine-only group (mean log peak of reciprocal titer = 1.21 +/- 0.55). All fifty subjects seroconverted to yellow fever vaccine by day 210. ELISA testing was also performed on all subjects. The two tests showed good correlation (Spearman r = 0.675), although ELISA readings were positive by day 14 in significantly more subjects (p = .01). We conclude that routine anti-malarial doses of chloroquine do not affect antibody response to yellow fever 17D vaccine. ELISA testing, a less complex and less time-consuming test, correlates well with PRNT and is proposed for additional trials to measure yellow fever 17D vaccine response in flavivirus non-immune subjects.