Safety and immunogenicity of pneumococcal protein vaccine candidates: Monovalent choline-binding protein A (PcpA) vaccine and bivalent PcpA–pneumococcal histidine triad protein D vaccine

Background

Pneumococcal vaccines based on protein antigens may provide expanded protection against Streptococcus pneumoniae.

Objective

To evaluate safety and immunogenicity in adults of pneumococcal vaccine candidates comprising S. pneumoniae pneumococcal histidine triad protein D (PhtD) and pneumococcal choline-binding protein A (PcpA) in monovalent and bivalent formulations.

Methods

This was a phase I, randomized, observer-blinded, placebo-controlled, step-wise dose-escalation study. Following a pilot safety study in which participants received one intramuscular injection of either aluminum hydroxide (AH)–adjuvanted PcpA (25 μg) or PhtD–PcpA (10 μg each), participants in the main study received AH–adjuvanted PcpA (25 μg), AH–adjuvanted PhtD–PcpA (10, 25, or 50 μg each), unadjuvanted PhtD–PcpA (25 μg each), or placebo as 2 injections 30 days apart. Assignment of successive dose cohorts was made after blinded safety reviews after each dose level. Safety endpoints included rates of solicited injection site and systemic reactions, unsolicited adverse events (AEs), serious AEs (SAEs), and safety laboratory tests. Immunogenicity endpoints included levels of anti-PhtD and anti-PcpA antibodies (ELISA).

Results

Six adults 18–50 years of age were included in the pilot study and 125 in the main study. No obvious increases in solicited reactions or unsolicited AEs were reported with escalating doses (adjuvanted vaccine) after either injection, or with repeated administration. Adjuvanted vaccine candidates were associated with a higher incidence of solicited reactions (particularly injection site reactions) than unadjuvanted vaccine candidates. However, no SAE or discontinuation due to an AE occurred. Geometric mean concentrations of anti-PhtD IgG and anti-PcpA IgG increased significantly after injection 2 compared with injection 1 at each dose level. No enhancement of immune responses was shown with adjuvanted vaccine candidates compared with the unadjuvanted vaccine candidate. In the dose-escalating comparison, a plateau effect at the 25 μg dose was observed as measured by geometric mean concentrations and by fold increases.

Conclusions

Promising safety profiles and immunogenicity of these monovalent and bivalent protein vaccine candidates were demonstrated in an adult population (ClinicalTrials.gov registry no. NCT01444339).     

Safety and immunogenicity of three different formulations of an adjuvanted varicella-zoster virus subunit candidate vaccine in older adults: A phase II,randomized, controlled study

Background

This study investigated the safety and immunogenicity of different formulations and schedules of a candidate subunit herpes zoster vaccine containing varicella-zoster virus glycoprotein E (gE) with or without the adjuvant system AS01_B.

Methods

In this phase II, single-blind, randomized, controlled study, adults aged ≥60 years (N = 714) received one dose of 100 μg gE/AS01_B, two doses, two months apart, of 25, 50, or 100 μg gE/AS01_B, or two doses of unadjuvanted 100 μg gE/saline. Frequencies of CD4⁺ T cells expressing ≥2 activation markers following induction with gE were measured by intracellular cytokine staining and serum anti-gE antibody concentrations by ELISA.

Results

Frequencies of gE-specific CD4⁺ T cells were >3-fold higher after two doses of all gE/AS01_B formulations than after one dose of 100 μg gE/AS01_B or two doses of 100 μg gE/saline. Frequencies were comparable after two doses of 25, 50, or 100 μg gE/AS01_B. Serum anti-gE antibody concentrations were comparable after two doses of 50 or 100 μg gE/AS01_B and higher than in the other groups. Immune responses persisted for at least 36 months. Reactogenicities of all gE/AS01_B formulations were similar but greater than with gE/saline.

Conclusions

The three formulations of gE/AS01_B were immunogenic and well tolerated in adults aged ≥60 years. Two vaccinations with gE/AS01_B induced higher immune responses than one and the dose of gE impacted humoral but not cellular immune responses (NCT00434577).     

Antibody response to an eight-site intradermal rabies vaccination in patients infected with Human Immunodeficiency Virus

Objective

To investigate the rabies virus neutralizing antibody response in HIV-1-infected patients with CD4+ cell count ≤200 cells/μL or >200 cells/μL after post-exposure prophylaxis using an eight-site intradermal rabies vaccination regimen.

Methods

In a prospective cohort study, 27 HIV-1 infected patients were recruited, none of which had a history of rabies vaccination. All patients provided informed consent and were separated into two groups according to their CD4+ cell count (patients with CD4+ counts of ≤200 cells/μL and patients with CD4+ counts of >200 cells/μL). All patients received Purified Chick Embryo Cell rabies Vaccine (PCECV) using a modified eight-site regimen in which 0.1 mL of vaccine was injected intradermally on each of days 0, 3, 7, 14, and 30 (8–8–8–8–8). CD4+ cell counts, HIV-1 viral load and rabies virus neutralizing antibody (RVNAb) concentrations as determined by the Rapid Fluorescent Focus Inhibition Test (RFFIT) were evaluated on blood samples taken on days 0, 3, 7, 14, 30, 90, 180 and 365 after vaccination.

Results

Of the 27 patients included in the study, 18 patients (67%) had CD4+ cell counts of >200 cells/μL and 9 patients (33%) had CD4+ counts of ≤200 cells/μL. No patients had detectable RVNAb concentrations on day 0. By day 14, all patients had adequate RVNAb concentrations (≥0.5 IU/mL). There was no statistically significant difference in RVNAb concentrations between the two groups on days 3, 7, 14, 30, 90, 180 and 365 after vaccination.

Conclusion

PCECV is immunogenic in HIV-1-infected patients with CD4+ cell counts below 200 cells/μL when administered in a modified eight-site intradermal PEP regimen.     

Synthetic Influenza vaccine (FLU-v) stimulates cell mediated immunity in a double-blind, randomised, placebo-controlled Phase I trial

Objectives

Current Influenza vaccines elicit antibody mediated prophylactic immunity targeted to viral capsid antigens. Despite their global use these vaccines must be administered yearly to the population, cannot be manufactured until the circulating viral strain(s) have been identified and have limited efficacy. A need remains for Influenza vaccines addressing these issues and here we report the results of a Phase Ib trial of a novel synthetic Influenza vaccine (FLU-v) targeting T cell responses to NP, M1 and M2.

Methods

Forty-eight healthy males aged 18–40 were recruited for this single-centre, randomised, double blind study. Volunteers received one single low (250 μg) or high (500 μg) dose of FLU-v, either alone or adjuvanted. Safety, tolerability and basic immunogenicity (IgG and IFN-γ responses) parameters were assessed pre-vaccination and for 21 days post-vaccination.

Results

FLU-v was found to be safe and well tolerated with no vaccine associated severe adverse events. Dose-dependent IFN-γ responses >2-fold the pre-vaccination level were detected in 80% and 100% of volunteers receiving, respectively, the low and high dose adjuvanted FLU-v formulations. No formulation tested induced any significant FLU-v antibody response.

Conclusion

FLU-v is safe and induces a vaccine-specific cellular immunity. Cellular immune responses are historically known to control and mitigate infection and illness during natural infection.     

Serum IgG titres,but not avidity,correlates with neutralizing antibody response after H5N1 vaccination

Background

Influenza H5N1 virus constitutes a pandemic threat and development of effective H5N1 vaccines is a global priority. Anti-influenza antibodies directed towards the haemagglutinin (HA) define a correlate of protection. Both antibody concentration and avidity may be important for virus neutralization and resolving influenza disease.

Methods

We conducted a phase I clinical trial of a virosomal H5N1 vaccine adjuvanted with the immunostimulating complex Matrix M™. Sixty adults were intramuscularly immunized with two vaccine doses (21 days apart) of 30 μg HA alone or 1.5, 7.5 or 30 μg HA adjuvanted with Matrix M™. Serum H5 HA1-specific antibodies and virus neutralization were determined at days 0, 21, 42, 180 and 360 and long-term memory B cells at day 360 post-vaccination. The binding of the HA specific antibodies was measured by avidity NaSCN-elution ELISA and surface plasmon resonance (SPR).

Results

The H5 HA1-specific IgG response peaked after the second dose (day 42), was dominated by IgG1 and IgG3 and was highest in the adjuvanted vaccine groups. IgG titres correlated significantly with virus neutralization at all time points (Spearman r ≥ 0.66, p < 0.0001). By elution ELISA, serum antibody avidity was highest at days 180 and 360 post vaccination and did not correlate with virus neutralization. Long-lasting H5 HA1-specific memory B cells produced high IgG antibody avidity similar to serum IgG.

Conclusions

Maturation of serum antibody avidity continued up to day 360 after influenza H5N1 vaccination. Virus neutralization correlated with serum H5 HA1-specific IgG antibody concentrations and not antibody avidity.     

DNA vaccination protects against an influenza challenge in a double-blind randomised placebo-controlled phase 1b clinical trial

Background

We have developed a Trivalent DNA vaccine for influenza consisting of three plasmids expressing haemagglutinin from different seasonal influenza virus strains delivered using PMED™ (particle mediated epidermal delivery). We set out to determine whether this vaccine (with and without a molecular adjuvant DNA Encoded Immunostimulator-Labile Toxin (DEI-LT)) could protect subjects from a controlled influenza virus challenge.

Methods

Healthy adult subjects were screened for susceptibility to infection with influenza A/H3 Panama/2007/99 then vaccinated with 4 μg Trivalent influenza DNA vaccine, 2 μg Trivalent influenza DNA vaccine plus DEI-LT or placebo. Safety and serological responses to vaccination were assessed and on Day 56 subjects were challenged with A/H3 Panama/2007/99 virus.

Results

Vaccination with 4 μg Trivalent or 2 μg Trivalent/DEI-LT was well tolerated and induced antibody responses to two of the three influenza virus vaccine strains. Post challenge, subjects in the 4 μg Trivalent group (N = 27) showed reductions in disease symptoms and viral shedding compared to placebo (N = 27), with an overall vaccine efficacy of 41% (95% confidence interval (CI) = −1.5, 67.7) for ‘Any illness with or without fever’ and 53% for ‘Upper respiratory tract infection’ (95% CI = 8.0, 77.7).

Conclusion

It was concluded that PMED vaccination with 4 μg Trivalent influenza DNA vaccine was safe and elicited immunological responses that protected human subjects from influenza; this is the first report of protection of human subjects from disease by DNA vaccination.     

Protein-energy malnutrition alters IgA responses to rotavirus vaccination and infection but does not impair vaccine efficacy in mice

Background

Conflicting evidence links malnutrition to the reduced efficacy of rotavirus vaccines in developing countries, where diarrhea and undernutrition remain leading causes of child deaths. Here, we adapted mouse models of rotavirus vaccination (rhesus rotavirus, RRV), rotavirus infection (EDIM), and protein-energy malnutrition (PEM) to test the hypothesis that undernutrition reduces rotavirus vaccine immunogenicity and efficacy.

Methods

We randomized wild type Balb/C dams with 3-day-old pups to a control diet (CD) or an isocaloric, multideficient regional basic diet (RBD) that produces PEM. At 3 weeks of age, we weaned CD and RBD pups to their dams’ diet and subrandomized weanlings to receive a single dose of either live oral rotavirus vaccine (RRV) or PBS. At 6 weeks of age, we orally challenged all groups with murine rotavirus (EDIM). Serum and stool specimens were collected before and after RRV and EDIM administration to measure viral shedding and antibody responses by ELISA.

Results

RBD pups and weanlings exhibited significant failure to thrive compared to age-matched CD mice (P < .0001). RRV vaccination induced higher levels of serum anti-RV IgA responses in RBD vs. CD mice (P < .0001). Vaccination protected CD and RBD mice equally against EDIM infection, as measured by viral shedding. In unvaccinated RBD mice, EDIM shedding peaked 1 day earlier (P < .05), however we detected no effects of undernutrition on viral clearance nor of infection on bodyweight. EDIM infection provoked higher anti-RV serum IgA levels in RBD vs. CD mice, regardless of vaccination (P < .0001). Last, RRV vaccination mitigated stool IgA responses to EDIM more in CD vs. RBD mice (P < .0001).

Conclusions

Despite modulated IgA responses to vaccination and infection, undernutrition does not impair rotavirus vaccine efficacy nor exacerbate infection in this mouse model of protein-energy malnutrition. Alternative models are needed to elucidate host-pathogen factors undermining rotavirus vaccine effectiveness in high-risk global settings.     

Predictors of advanced disease and late presentation in new HIV diagnoses reported to the surveillance system in Spain

Objective

To present surveillance data on advanced disease (AD) and late presentation (LP) of HIV in Spain and their determinants.

Methods

We included all new HIV diagnoses notified by the autonomous regions that consistently reported such cases throughout the period 2007–2011. Coverage was 54% of the total Spanish population. Data sources consisted of clinicians, laboratories and medical records. AD was defined as the presence of a CD4 cell count <200 cells/μL in the first test after HIV diagnosis, while LP was defined as the presence of a CD4 cell count <350 cells/μL after HIV diagnosis. Odds ratios and their 95% confidence intervals (OR, 95% CI) were used as the measure of association. Logistic regressions were fit to identify predictors of AD and LP.

Results

A total of 13,021 new HIV diagnoses were included. Among these, data on the outcome variable were available in 87.7%. The median CD4 count at presentation was 363 (interquartile range, 161–565). Overall, 3356 (29.4%) patients met the definition of AD and 5494 (48.1%) were classified as LP. Both AD and LP increased with age and were associated with male sex and infection through drug use or heterosexual contact. All immigrants except western Europeans were more prone to AD and LP. Multivariate models disaggregated by sex showed that the effect of age and region of origin was weaker in women than in men.

Conclusions

Despite universal health care coverage in Spain, men, immigrants and people infected through drug use or heterosexual contact seem to be experiencing difficulties in gaining timely access to HIV care.     

A Phase I,randomized, open-label study to evaluate the safety and immunogenicity of an enterovirus 71 vaccine

Background

Large-scale outbreaks of enterovirus 71 (EV71) infections have occurred in Asia-Pacific regions. Severe complications include encephalitis and poliomyelitis-like paralysis, cardiopulmonary collapse, and death, necessitating an effective vaccine against EV71.

Methods

In this randomized Phase I study, we evaluated the safety and immunogenicity of an inactivated alum-adjuvanted EV71 whole-virus vaccine produced on Vero cell cultures. Sixty healthy volunteers aged 20–60 years received two doses of vaccine, administered 21 days apart. Each dose contained either 5 μg of EV71 antigen with 150 μg of adjuvant (Group A05) or 10 μg of EV71 antigen with 300 μg of adjuvant (Group B10). Serologic analysis was performed at baseline, day 21, and day 42.

Results

There were no serious adverse events. Mild injection site pain and myalgia were the most common adverse events with either vaccine formulation. The immunogenicity data showed that 90% of vaccine recipients have a 4-fold or greater increase in neutralization antibody titers (NT) after the first dose, without a further increase in NT after the second dose. The seroconversion rates on day 21 and day 42 were 86.7% and 93.1% respectively, in Group A05, and 92.9% and 96.3%, respectively, in Group B10. Thus, 5 μg and 10 μg of the EV71 vaccine can induce a remarkable immune response in healthy adults after only the first vaccination.

Conclusion

The 5 μg and 10 μg adjuvanted EV71 vaccines are generally safe and immunogenic in healthy adults. (ClinicalTrials.gov number, NCT01268787).     

Safety and immunogenicity of a pneumococcal histidine triad protein D vaccine candidate in adults

Background

Pneumococcal vaccines based on conserved protein antigens have the potential to offer expanded protection against Streptococcus pneumoniae.

Objective

To explore safety and immunogenicity of a recombinant protein vaccine candidate against S. pneumoniae composed of adjuvanted pneumococcal histidine triad protein D (PhtD).

Methods

This phase I, exploratory, open-label, single-center clinical study enrolled adults (18–50 years). Participants in a pilot safety cohort received a single intramuscular injection of 6 μg. Following safety review, 3 dose cohorts were enrolled (6, 25, and 100 μg); participants received 2 injections administered approximately 30 days apart. Assignment of the second injection and successive dose cohorts were made after blinded safety reviews after each injection at each dose level. Safety endpoints included rates of solicited injection site and systemic reactions, unsolicited adverse events, serious adverse events, and safety laboratory tests. Immunogenicity endpoints included levels of anti-PhtD antibodies as measured by ELISA.

Results

Sixty-three participants were enrolled and received the pilot safety dose (n = 3) or at least 1 dose of PhtD vaccine candidate at 6 μg (n = 20), 25 μg (n = 20), or 100 μg (n = 20). No safety concerns were identified. No vaccine-related serious adverse event was reported. The most common solicited injection site reaction was pain and most common solicited systemic reactions were myalgia and headache; most reactions were mild and transient. Observed geometric mean concentrations (95% CI) were 200.99 ELISA units (148.46, 272.10), 352.07 (193.49, 640.63), and 699.15 (405.49, 1205.48) post-injection 1 in the 6, 25, and 100 μg dose cohorts, respectively, and 378.25 (275.56, 519.21), 837.32 (539.29, 1300.04), and 1568.62 (1082.92, 2272.16) post-injection 2.

Conclusions

All dose levels were safe and immunogenic. The frequency of solicited reactions was highest at the 100 μg dose. Administration of a second injection significantly increased the levels of anti-PhtD antibodies (ClinicalTrials.gov registry no. NCT01444001).     

The epidemiology of hepatitis B virus infection in HIV-infected and HIV-uninfected pregnant women in the Western Cape,South Africa

Objectives

Persistent hepatitis B virus (HBV) infection is a major cause of morbidity and mortality in sub-Saharan Africa. The HIV epidemic has the potential to affect its biology. Immunisation protocols established in the pre-HIV era are based upon data showing predominantly horizontal infant transmission. This study aimed to determine whether HIV co-infection will change the epidemiology of HBV both by increasing infectivity and by favouring the escape of viruses bearing phenotypically altered HBsAg.

Methods

This retrospective cross-sectional study used antenatal samples from the 2008 Antenatal Sentinel HIV and Syphilis Prevalence Survey in the Western Cape, South Africa. All HIV-infected women were age and race-matched to HIV-uninfected women. Samples were tested for serological markers of HBV and HDV infection. HBV viral load, consensus sequencing and genotyping were performed. Luminex technology was used to determine HBsAg phenotype. All samples from HIV-infected women were tested for traces of antiretroviral drugs by mass spectrometry.

Results

This study showed a trend toward loss of immune control of HBV in HIV-infected women with 3.4% of samples containing HBsAg, 18.9% contained HBeAg. In contrast, 2.9% of samples from HIV-uninfected women contained HBsAg and 17.1% of these HBeAg. The median HBV load in the HIV-infected group was 9.72 × 10⁷ IU/ml and in the HIV-uninfected group 1.19 × 10⁶ IU/ml. Genotyping showed 63/68 samples belonged to genotype A and the remainder genotype D. Mutations in the precore region were found in 35% and 33% of samples from HIV-infected and HIV-uninfected respectively. Although no major epitope ablation was found, marked variation in HBsAg profiles in HIV-infected group was demonstrated. No HDV infection was detected.

Conclusion

HIV-HBV co-infected women exhibit a degree of immune escape. One in six HBV-infected pregnant women, irrespective of HIV status is HBeAg seropositive. HBV immunization of newborns in sub-Saharan Africa should be implemented.     

Comparing the safety and immunogenicity of a candidate TB vaccine MVA85A administered by intramuscular and intradermal delivery

Background

New vaccines to prevent tuberculosis are urgently needed. MVA85A is a novel viral vector TB vaccine candidate designed to boost BCG-induced immunity when delivered intradermally. To date, intramuscular delivery has not been evaluated. Skin and muscle have distinct anatomical and immunological properties which could impact upon vaccine-mediated cellular immunity.

Methods

We conducted a randomised phase I trial comparing the safety and immunogenicity of 1 × 10⁸ pfu MVA85A delivered intramuscularly or intradermally to 24 healthy BCG-vaccinated adults.

Results

Intramuscular and intradermal MVA85A were well tolerated. Intradermally-vaccinated subjects experienced significantly more local adverse events than intramuscularly-vaccinated subjects, with no difference in systemic adverse events. Both routes generated strong and sustained Ag85A-specific IFNγ T cell responses and induced multifunctional CD4+ T cells. The frequencies of CD4+ T cells expressing chemokine receptors CCR4, CCR6, CCR7 and CXCR3 induced by vaccination was similar between routes.

Conclusions

In this phase I trial the intramuscular delivery of MVA85A was well tolerated and induced strong, durable cellular immune responses in healthy BCG vaccinated adults, comparable to intradermal delivery. These findings are important for TB vaccine development and are of relevance to HIV, malaria, influenza and other intracellular pathogens for which T cell-inducing MVA-based vaccine platforms are being evaluated.     

An observer-blind,randomized, multi-center trial assessing long-term safety and immunogenicity of AS03-adjuvanted or unadjuvanted H1N1/2009 influenza vaccines in children 10–17 years of age

Background

Vaccination is an effective strategy to prevent influenza. This observer-blind, randomized study in children 10–17 years of age assessed whether the hemagglutination inhibition (HI) antibody responses elicited by H1N1/2009 vaccines adjuvanted with AS03 (an adjuvant system containing α-tocopherol and squalene in an oil-in-water emulsion) or without adjuvant, met the European regulatory immunogenicity criteria at Days 21 and 182.

Methods

Three hundred and ten healthy children were randomized (3:3:3:5) to receive one dose of 3.75 μg hemagglutinin (HA) AS03_A-adjuvanted vaccine, one or two doses of 1.9 μg HA AS03_B-adjuvanted vaccine, or one dose of 15 μg HA pandemic vaccine. All children received a booster dose of the allocated vaccine at Day 182. Serum samples were tested for HI antibody response at Days 21, 42, 182 and 189.

Results

All vaccination regimens elicited HI antibody responses that met the European regulatory criteria at Days 21 and 42. HI antibody responses fulfilling European regulatory criteria were still observed six months after the first vaccine dose in all study vaccines groups. Two doses of 1.9 μg HA AS03_B-adjuvanted vaccine elicited the strongest HI antibody response throughout the study. The non-adjuvanted 15 μg HA vaccine elicited a lower HI antibody response than the AS03-adjuvanted vaccines. At Day 189, the European regulatory criteria were met for all vaccines with baseline HI antibody titers as reference. An anamnestic response for all vaccines was suggested at Day 189, based on the rapid increase in HI antibody geometric mean titers (1.5–2.5-fold increase). Injection site reactogenicity was higher following the AS03-adjuvanted vaccines compared with the non-adjuvanted vaccine. No safety concerns were identified for any study vaccine.

Conclusion

All study vaccines elicited HI antibody responses that persisted at purported protective levels through six months after vaccination and fulfilled the European regulatory criteria.     

Murine neutralizing antibody response and toxicity to synthetic peptides derived from E1 and E2 proteins of hepatitis C virus

Introduction

The highest estimated prevalence of HCV infection has been reported in Egypt, nearly 12% mostly type 4. Currently, a commercial vaccine to protect this high risk population as well as global HCV infected patients is not available.

Objectives

In the present study, we aim at: (1) examining the viral binding capacities of purified monospecific polyclonal murine antibodies raised against genetically conserved viral protein sequences, i.e. synthetic peptides derived from those sequences located within envelope proteins and (2) assessment of immunogenic properties and safety parameters of those peptides individually and in a vaccine format in mice.

Methods

Purified IgG Abs from immunized mice were used in immunocapture RT-PCR experiments to test viral neutralization by Abs raised against each of 4 peptides termed p35 (E1), p36 (E2), p37 (E2) and p38 (E2). Swiss mice were immunized with each of the 3 peptides (p35, p37 and p38) which generated neutralizing antibodies in immunocapture experiments. Antibody responses to corresponding peptides were determined using different routes of administration, different adjuvants, different doses and at different time points post-injection. To explore the dose range for future pharmacological studies, three doses namely 50 ng, 10 μg and 50 μg/25 gm mouse body weight were tested for biochemical and histopathological changes in several organs.

Results

Murine Abs against p35, p37 and p38 but not p36 showed HCV neutralization in immunocapture experiments. Subcutaneous injection of peptides elicited higher responses than i.m. and i.p. Immunization with Multiple Antigenic Peptide (MAP) form or coupled to Al PO4 elicited the highest Ab responses. Peptide doses of 50 ng/25 gm body weight or less were effective and safe, however dose assessment still requires further study. Histopathological changes were observed in animals that received doses ∼1000 times higher than the potential therapeutic dose.

Conclusion

Exploration of humoral immunogenicity, neutralization capacity and safety suggested that the peptides presented herein are candidate vaccine components for further preclinical assessment.     

Safety and immunogenicity of adjuvanted inactivated split-virion and whole-virion influenza A (H5N1) vaccines in children: A phase I–II randomized trial

Objective

Highly pathogenic avian influenza A virus H5N1 has the potential to cause a pandemic. Many prototype pandemic influenza A (H5N1) vaccines had been developed and well evaluated in adults in recent years. However, data in children are limited. Herein we evaluate the safety and immunogenicity of adjuvanted split-virion and whole-virion H5N1 vaccines in children.

Methods

An open-labelled phase I trial was conducted in children aged 3–11 years to receive aluminum-adjuvated, split-virion H5N1 vaccine (5–30 μg) and in children aged 12–17 years to receive aluminum-adjuvated, whole-virion H5N1 vaccine (5–15 μg). Safety of the two formulations was assessed. Then a randomized phase II trial was conducted, in which 141 children aged 3–11 years received the split-virion vaccine (10 or 15 μg) and 280 children aged 12–17 years received the split-virion vaccine (10–30 μg) or the whole-virion vaccine (5 μg). Serum samples were collected for hemagglutination-inhibition (HI) assays.

Findings

5–15 μg adjuvated split-virion vaccines were well tolerated in children aged 3–11 years and 5–30 μg adjuvated split-virion vaccines and 5 μg adjuvated whole-virion vaccine were well tolerated in children aged 12–17 years. Most local and systemic reactions were mild or moderate. Before vaccination, all participants were immunologically naïve to H5N1 virus. Immune responses were induced after the first dose and significantly boosted after the second dose. In 3–11 years children, the 10 and 15 μg split-virion vaccine induced similar responses with 55% seroconversion and seroprotection (HI titer ≥1:40) rates. In 12–17 years children, the 30 μg split-virion vaccine induced the highest immune response with 71% seroconversion and seroprotection rates. The 5 μg whole-virion vaccine induced higher response than the 10 μg split-virion vaccine did.

Interpretation

The aluminum-adjuvanted, split-virion prototype pandemic influenza A (H5N1) vaccine showed good safety and immunogenicity in children and 30 μg dose induced immune response complying with European Union licensure criteria. [ClinicalTrials.gov identifiers: NCT00900588 and NCT00900991].     

High expression of MAGE-A4 and MHC class I antigens in tumor cells and induction of MAGE-A4 immune responses are prognostic markers of CHP-MAGE-A4 cancer vaccine

Purpose

We conducted a cancer vaccine clinical trial with MAGE-A4 protein. Safety, clinical response, and antigen-specific immune responses were analyzed and the prognostic factors by vaccination were investigated.

Experimental design

Twenty patients with advanced esophageal, stomach or lung cancer were administered MAGE-A4 vaccine containing 300 μg protein subcutaneously once every 2 weeks in six doses. Primary endpoints of this study were safety and MAGE-A4 immune responses.

Results

The vaccine was well tolerated. Fifteen of 20 patients completed one cycle of vaccination and two patients showed SD. A MAGE-A4-specific humoral immune response was observed in four patients who had high expression of MAGE-A4 and MHC class I on tumor cells. These four patients showed significantly longer overall survival than patients without an antibody response after vaccination (p = 0.009). Patients with tumor cells expressing high MAGE-A4 or MHC class I antigen showed significantly longer overall survival than those with low expression. Induction of CD4 and CD8T cell responses was observed in three and six patients, respectively, and patients with induction of MAGE-A4-specific IFNγ-producing CD8T cells, but not CD4T cells, lived longer than those without induction.

Conclusions

The CHP-MAGE-A4 vaccine was safe. Expression of MAGE-A4 and MHC class I in tumor tissue and the induction of a MAGE-A4-specific immune response after vaccination would be feasible prognostic markers for patients vaccinated with MAGE-A4.     

Immune response after one or two doses of pandemic influenza A (H1N1) monovalent,AS03-adjuvanted vaccine in HIV infected adults

Introduction

Continued research is needed to evaluate and improve the immunogenicity of influenza vaccines in HIV infected patients. We aimed to determine the antibody responses after one or two doses of the AS03-adjuvanted pandemic influenza A (H1N1) vaccine in HIV infected patients.

Method

Following the influenza season 2009/2010, 219 HIV infected patients were included and divided into three groups depending on whether they received none (n = 60), one (n = 31) or two (n = 128) doses of pandemic influenza A (H1N1) vaccine. At inclusion, antibody titers for all patients were analyzed and compared to pre-pandemic antibody titers analyzed from serum samples in a local storage facility.

Results

4–9 months after a single immunization, we found a seroprotection rate of 77.4% and seroconversion rate of 67.7%. After two immunizations the rates increased significantly to seroprotection rate of 97.7% and seroconversion rate of 86.7%.

Conclusion

A single dose of AS03-adjuvanted pandemic influenza A (H1N1) vaccine created an adequate immune response in HIV infected patients lasting as long as 4–9 months. Two doses improved the immunogenicity further.     

Nanoparticle size influences the magnitude and quality of mucosal immune responses after intranasal immunization

Background

The development of nanoparticulate antigen-delivery systems is an important emerging area of vaccinology, being sought to amplify immune responses to recombinant antigens that are poorly immunogenic. Nanoparticle size may play an important role in influencing the activity of such particulate-based adjuvants.

Methods

To explore how the size of nanoparticles that are in the range of many common viruses can modulate the magnitude and quality of mucosal immune responses, the model antigen ovalbumin (OVA) was conjugated to 30 nm or 200 nm polypropylene sulfide nanoparticles (NPs) and administered intranasally to C57BL/6 mice.

Results

We show that by increasing the size of the NPs from 30 to 200 nm, OVA was more effectively delivered into both MHC class I and MHC class II-presentation pathways. Intranasal immunization with the 200 nm NPs increased the magnitude of CD4⁺ T cell responses in the lungs, as well as systemic and mucosal humoral responses. Most importantly, 200 nm NPs increased the proportion of antigen-specific polyfunctional CD4⁺ T cells as compared to 30 nm NPs.

Conclusions

The 200 nm NPs are a very interesting antigen nanocarrier for prophylactic vaccines against mucosal pathogens that require multifunctional CD4⁺ T cells for protection. These results contribute to our understanding of how the size of an antigen-conjugated nanoparticle modulates mucosal immune responses to a protein antigen and may be useful to engineer subunit vaccines able to elicit appropriate mucosal immune responses that correlate with protection.     

Evaluation of immune responses to combined hepatitis A and B vaccine in HIV-infected children and children on immunosuppressive medication

Objective

A phase IV interventional study with a combined hepatitis A and B vaccine was conducted in HIV-infected children and children receiving immunosuppressive medication for treatment of rheumatic diseases to evaluate immune responses.

Methods

Both groups (1–16 years of age) received combined (inactivated) HAV and (rDNA) HBV vaccine Ambirix^® at months 0 and 6. Serum samples were taken at four time points and tested for anti-HAV and anti-HBs antibodies. Anti-HAV concentrations ≥20 mIU/mL or anti-HBs concentrations ≥10 mIU/mL were considered protective. Seropositivity percentages were calculated and geometric mean concentrations (GMCs) were compared by nonparametric Mann–Whitney U-test or Kruskal–Wallis one-way-analysis-of-variance.

Results

Of 80 HIV-infected children who completed the study, 67 were HAV-susceptible and 68 HBV-susceptible at enrolment. Of 80 children with rheumatic diseases who completed the study, 65 were HAV-susceptible and 74 HBV-susceptible at enrolment. Immune responses to HAV after first dose of vaccine in both study groups were low: 71% and 55% respectively, whereas immune responses after the second dose were 99% and 100% respectively. Immune response to HBV after first dose of vaccine in both groups was also low: 27% and 17% respectively. Immune responses after the second dose were 97% and 93%, respectively. A larger proportion of children on combination antiretroviral therapy (cART) and of children with viral load <50 copies/mL responded to HBV, and also showed a significantly higher GMC.

Conclusions

Although immune response after full series of combined HAV and HBV vaccine in both groups was excellent and comparable to healthy children, a substantial proportion of both groups was not protected for HAV after first dose of vaccine. This protection gap is especially important for HAV in travel health and postexposure prophylactic treatment: both groups of children should be serologically tested for anti-HAV prior to travel to ensure protection if there is no time to await second dose of vaccine.