A phase 1 study of safety and immunogenicity following intradermal administration of a tetravalent dengue vaccine candidate

BackgroundAs part of the ongoing search for an effective dengue vaccine, Takeda performed a phase 1b study to investigate the safety and immunogenicity of an early low-dose tetravalent dengue vaccine candidate formulation (LD-TDV), based on an attenuated serotype 2 backbone, when administered intradermally with an injector device (PharmaJet®), or needle-syringe.MethodsThe study was performed in two centers in the US, in healthy 18–45 year old subjects with no history of dengue vaccination or disease. One or two vaccine doses were given on Day 0, and another dose or placebo on Day 90. Neutralizing antibodies were measured up to Day 270; safety was assessed as laboratory measurements and solicited and unsolicited adverse events on diary cards.ResultsChanges in World Health Organization prequalification guidance for new vaccines concerning storage conditions favored the use of lyophilized preparations, and led to the early cessation of enrolment, but not before 67 subjects were enrolled in four treatment groups. Sixty-five subjects completed the planned schedule. There were no safety signals or serious adverse events. All vaccination regimens elicited neutralizing antibodies. Titers of neutralizing antibodies against serotypes 1 and 2 were higher than those against serotypes 3 and 4. There were no consistent increases in responses with two doses given either concomitantly or 90 days apart.ConclusionsSimultaneous injection of two LD-TDV doses was shown to have the potential to improve seroconversion rates to serotypes 1 and 2, and to increase serotype 2 antibody titers. A primary dose of LD-TDV administered by PharmaJet was shown to induce more rapid seroconversion to serotypes 1, 2, and 3 compared with administration by needle-syringe (ClinicalTrials.gov: NCT01765426).     

Quality,immunogenicity and stability of meningococcal serogroup ACWY-CRM197, DT and TT glycoconjugate vaccines

A physicochemical and immunological study of the stability of three different meningococcal (Men) ACWY conjugate vaccines was performed to evaluate any patterns of serogroup oligo- or polysaccharide-specific or carrier protein-specific stability that would affect immunogenicity. Critical quality and stability-indicating characteristics were measured, with the study supporting the suitability of both HPLC-SEC and HPAEC-PAD methods to detect changes following inappropriate vaccine storage. All three final products, ACWY-CRM₁₉₇, -DT and -TT conjugate vaccines had expected quality indicator values and similar immunogenicity in a mouse model (anti-PS IgG and rSBA) when stored at +2–8 °C. When stored at ≥+37 °C, all conjugated carrier proteins and serogroup saccharides were affected. Direct correlations were observed between the depolymerization of the MenA saccharide as evidenced by a size-reduction in the MenA conjugates (CRM₁₉₇, DT and TT) and their immunogenicity. MenA was the most labile serogroup, followed by MenC; then MenW and Y, which were similar. At high temperatures, the conjugated carrier proteins were prone to unfolding and/or aggregation. The anti-MenC IgG responses of the multivalent conjugate vaccines in mice were equivalent to those observed in monovalent MenC conjugate vaccines, and were independent of the carrier protein. For any newly developing MenACWY saccharide-protein conjugate vaccines, a key recommendation would be to consider the lyophilization of final product to prevent deleterious degradation that would affect immunogenicity.     

Safety and immunogenicity of investigational recombinant botulinum vaccine,rBV A/B,in volunteers with pre-existing botulinum toxoid immunity

ObjectivesWe undertook an open-label, uncontrolled study of investigational recombinant botulinum vaccine for botulinum neurotoxin (BoNT) serotypes A and B (rBV A/B) to assess its safety and immunogenicity in healthy volunteers who had been previously immunized with investigational pentavalent botulinum toxoid. Study participants who wished to do so could donate their hyperimmune plasma for production of Human Botulism Immune Globulin Intravenous (BIG-IV, BabyBIG®).Study designA single 0.5 ml (mL), 40-microgram intramuscular injection of rBV A/B was administered to study participants. Post-vaccination sera collected at approximately 2-week intervals were evaluated for anti-BoNT/A and anti-BoNT/B neutralizing antibody concentrations (NAC). Local and systemic treatment-emergent adverse events (TEAEs) were identified by clinical and laboratory monitoring for 12 weeks post-vaccination with a final telephone follow-up for additional safety assessment at 6 months. The primary endpoint for immunogenicity was a ≥4-fold rise in NAC in ≥50% of participants by Week 4 post-vaccination.ResultsAll 45 enrolled participants completed the study. Forty-two of 45 participants (93.3%) experienced at least one TEAE. Overall, 138 of 218 (63.3%) reported TEAEs were treatment-related, the majority of which were mild injection-site reactions. No serious or unexpected adverse events occurred. The study achieved its primary immunogenicity endpoint with 37/45 (82.2%) participants and 39/45 (86.7%) participants having a ≥4-fold rise in NAC to anti-BoNT/A and to anti-BoNT/B, respectively, by Week 4 post-vaccination.ConclusionA single 0.5 mL dose of rBV A/B was safe, well-tolerated and immunogenic in participants previously immunized with pentavalent botulinum toxoid. The tolerability and immunogenicity characteristics of rBV A/B vaccination of individuals with existing BoNT immunity support its potential future use to provide occupational protection to botulism laboratory workers. Almost all study participants donated hyperimmune plasma for production of BIG-IV.ClinicalTrials.gov registration number: NCT01701999.     

Safety,tolerability, and immunogenicity of a 4-antigen Staphylococcus aureus vaccine (SA4Ag): Results from a first-in-human randomised,placebo-controlled phase 1/2 study

BackgroundA prophylactic Staphylococcus aureus four-antigen vaccine (SA4Ag) is under development for prevention of invasive S. aureus disease. A preliminary S. aureus three-antigen vaccine (SA3Ag) was reformulated to include a novel manganese transporter protein (MntC or rP305A). This study describes the first-in-human dose-finding, safety, and immunogenicity results for SA4Ag.MethodsIn this double-blind, sponsor-unblind, placebo-controlled, phase 1/2 study, 454 healthy adults aged 18–64 years were randomised to receive a single dose of one of three formulations of SA4Ag with escalating dose levels of rP305A or placebo. Functional immune responses were measured using opsonophagocytic activity (OPA) killing and fibrinogen-binding inhibition (FBI) assays; antigen-specific immunogenicity was assessed using a four-plex competitive Luminex® immunoassay (cLIA).ResultsA high proportion of SA4Ag recipients met the pre-defined antibody thresholds for each antigen at Day 29. A substantial and dose-level dependent immune response was observed for rP305A, with up to 18-fold rises in cLIA titres at Day 29. Robust functional responses were demonstrated, with >80-fold and >20-fold rises in OPA assay titres at Day 29 using S. aureus strains expressing capsular polysaccharide serotypes 5 and 8, respectively. Durable antibody responses were observed through month 12, gradually waning from peak levels achieved by days 11–15. SA4Ag was well tolerated, and no vaccine-related serious adverse events were reported.ConclusionsSingle-dose vaccination of SA4Ag in healthy adults aged 18–64 years safely induced rapid and robust functional immune responses that were durable through month 12, supporting further development of this vaccine. Trial registration number: NCT01364571     

Temperature-mediated recombinant anthrax protective antigen aggregate development: Implications for toxin formation and immunogenicity

Anthrax vaccines containing recombinant PA (rPA) as the only antigen face a stability issue: rPA forms aggregates in solution after exposure to temperatures ⩾40 °C, thus losing its ability to form lethal toxin (LeTx) with Lethal Factor. To study rPA aggregation’s impact on immune response, we subjected rPA to several time and temperature combinations. rPA treated at 50 °C for 30 min formed high mass aggregates when analyzed by gel electrophoresis and failed to form LeTx as measured by a macrophage lysis assay (MLA). Aggregated rPA-formed LeTx was about 30 times less active than LeTx containing native rPA. Mice immunized with heat-treated rPA combined with Al(OH)₃ developed antibody titers about 49 times lower than mice immunized with native rPA, as measured by a Toxicity Neutralization Assay (TNA). Enzyme Linked Immunosorbent Assay (ELISA) of the same immune sera showed anti-rPA titers only 2–7 times lower than titers elicited by native rPA. Thus, rPA’s ability to form LeTx correlates with its production of neutralizing antibodies, and aggregation significantly impairs the protein’s antibody response. However, while these findings suggest MLA has some value as an in-process quality test for rPA in new anthrax vaccines, they also confirm the superiority of TNA for use in vaccine potency.     

Long-term immunogenicity of an initial booster dose of an inactivated,Vero cell culture-derived Japanese encephalitis vaccine (JE-VC) and the safety and immunogenicity of a second JE-VC booster dose in children previously vaccinated with an inactivated,mouse brain-derived Japanese encephalitis vaccine

BackgroundThis study was performed with the aim of determining the long-term immunogenicity of an inactivated, Vero cell culture-derived Japanese encephalitis (JE) vaccine (JE-VC) and an inactivated, mouse brain-derived JE vaccine (JE-MB) after the 1st booster dose at 2 years of age, as well as the safety and immunogenicity of the 2nd booster dose of JE-VC at 6 years of age, in children primed and given a 1st booster dose of either JE-VC or JE-MB.MethodIn this multicenter, open-label clinical trial, the study population consisted of healthy Korean children (aged 6 years) who participated in the previous JE vaccine trial. All subjects were subcutaneously vaccinated once for the booster immunization with Boryung Cell Culture Japanese Encephalitis Vaccine® (JE-VC).ResultApproximately 4 years after the 1st booster dose of JE-VC, the seroprotection rate (SPR) and geometric mean titer (GMT) of the neutralizing antibody were 100% and 1113.8, respectively. In children primed and given a 1st booster dose of JE-MB, the SPR and GMT were 88.5% and 56.3, respectively. After the 2nd booster dose of JE-VC, all participants primed and given a 1st booster dose of either JE-MB or JE-VC were seroprotective against JE virus. The GMT of the neutralizing antibody was higher in children primed and given a 1st booster dose of JE-VC (8144.1) than in those primed and given a 1st booster dose of JE-MB (942.5) after the vaccination (p < 0.001). In addition, the 2nd booster dose of JE-VC showed a good safety profile with no serious vaccine-related adverse events.ConclusionThe 1st booster dose of JE-VC and JE-MB showed long-term immunogenicity of at least 4 years, and the 2nd booster dose of JE-VC showed a good safety and immunogenicity profile in children primed and given a 1st booster dose of either JE-VC or JE-MB.ClinicalTtrials.gov Identifier: NCT02532569     

A phase II randomized study to determine the safety and immunogenicity of the novel PIKA rabies vaccine containing the PIKA adjuvant using an accelerated regimen

BackgroundHuman Rabies infection continues to be potentially fatal despite the availability of post-exposure prophylaxis with rabies vaccine. The PIKA Rabies vaccine adjuvant is a TLR3 agonist and has been shown to be safe and immunogenic in clinical phase I studies.MethodsWe conducted a phase II, open label, randomized study in healthy adults to assess the safety and immunogenicity of the PIKA rabies vaccine under an accelerated regimen. 126 subjects were randomized into two groups: control vaccine classic regimen (“control-classic”) and PIKA vaccine accelerated regimen (“PIKA-accelerated”). Subjects were followed up for safety and rabies virus neutralizing antibodies (RVNA).ResultsBoth the control and PIKA vaccines were generally well tolerated. 57.6% of subjects in the PIKA vaccine group, compared with 43.8% of subjects in the control-classic group, achieved the target RVNA titer of ≥0.5 IU/mL by Day 7. All subjects achieved the target RVNA titer by Day 14. The RVNA geometric mean titer at Day 7 was 0.60 IU/ml in the PIKA vaccine group and 0.39 IU/ml in the control-classic group. At Day 14, the RVNA geometric mean titer was 18.25 IU/ml in the PIKA-accelerated group and 19.24 IU/ml in the control-classic group. The median time taken to reach the target RVNA titer level of ≥0.5 IU/mL was 7.0 days (95% CI: 7.0–42.0 days) in the PIKA-accelerated group and 14.0 days (95% CI: 7.0–42.0 days) in the control-classic group.ConclusionThe accelerated regimen using the investigational PIKA Rabies vaccine was well-tolerated and demonstrated non-inferior immunogenicity compared to the classic regimen using the commercially available vaccine in healthy adults.Clinical trial registry: The study was registered with clinicaltrials.gov (NCT02956421).     

Enhancement of Ag85B DNA vaccine immunogenicity against tuberculosis by dissolving microneedles in mice

Tuberculosis (TB) remains a major global public health problem. New immunization methods against TB are urgently needed. Plasmid DNA with a microneedle patch is a potentially attractive strategy to improve the immune effect. A DNA vaccine encoding the secreted protein Ag85B of Mycobacterium tuberculosis was immunized in the skin using microneedles, which can improve protective immunity compared to conventional intramuscular (IM) injection. There is no significant difference between microneedle patch (MNP) and IM immunization when the immunizing dose is low (4.2 μg). However, the results for detecting humoral immunity showed MNP immunization could better provoke an antibody response than IM when the dose is high (12.6 μg). A similar result was observed in cellular immune responses by measuring the cytokines in splenocytes. The effective protection of MNP can also be demonstrated by counting bacteria and analyzing the survival rate. This study indicated that DNA vaccination in the skin using dissolving microneedles may provide a new strategy against TB.     

Inactivated influenza vaccine stress can affect in vitro potency assay relationship to immunogenicity

Influenza vaccines are the most effective intervention to prevent the substantial public health burden of seasonal and pandemic influenza. The capability of hemagglutinin (HA), the main antigen in inactivated influenza vaccines (IIVs), to elicit functional neutralizing antibodies determines IIV effectiveness. When HA is subjected to environmental stress during manufacturing or while stored prior to administration, such as low pH and temperature excursions, the HA immunological activity can be affected. Single-radial immunodiffusion (SRID), the standard in vitro potency assay for IIVs, is believed to specifically detect immunologically active HA and has been applied to evaluate HA stability against stress. Here we report that transient low pH treatment and freeze/thaw cycles with HA in PBS abolish SRID-quantified in vitro potency for all HAs of multiple influenza strains. Raised temperature substantially decreases in vitro potency with more extensive HA structural changes. Chemical stress and mechanical stress moderately change SRID in vitro potency values in a strain-dependent manner. Trypsin digestion, which selectively degrades stressed HA, followed by RP-HPLC quantification as a candidate alternative in vitro potency assay yields results comparable to SRID. Mouse immunogenicity studies confirm that HA stressed by transient low pH treatment does not elicit functional antibodies in vivo, nor does it have a measureable SRID value. However, HA stressed by raised temperature elicits high titers of functional antibodies in vivo despite substantial loss of SRID in vitro potency. This discrepancy between SRID in vitro potency and vaccine immunogenicity suggests that SRID may not reliably indicate IIV potency under all conditions. Further efforts to develop alternate potency assays that can better predict in vivo immunogenicity should continue along with additional studies exploring HA conformation, SRID values and consequent immunogenicity.     

Antibody persistence and safety and immunogenicity of a second booster dose nine years after a first booster vaccination with a reduced antigen diphtheria-tetanus-acellular pertussis vaccine (Tdap) in adults

BackgroundOver the last decades, pertussis showed periodic increases in its incidence among adults, despite being a vaccine-preventable disease.MethodsThis phase III, multicenter, extension study (NCT00489970) was conducted in adults from the United States, followed at Year (Y) 5 and Y9 post-vaccination with a dose of reduced-antigen-content tetanus-diphtheria-acellular pertussis vaccine containing either 3 (Tdap-B group) or 5 pertussis components (Tdap-A group). Willing participants in Tdap groups and newly-recruited participants (Control group) received one Tdap-B dose at Y9. Antibody persistence (at Y5 and Y9) and safety of Tdap-B at Y9 were assessed. Non-inferiority of immune response elicited by 2 Tdap doses was evaluated at Y9: (i) versus one Tdap-B dose for diphtheria and tetanus in terms of seroprotection rates; (ii) for all antigens in terms of booster response rates (Tdap-B and Tdap-A groups versus Control group); and (iii) for pertussis antigens in terms of geometric mean concentrations (GMCs) versus a 3-dose series of a combined diphtheria-tetanus-acellular pertussis vaccine (DTPa) administered during infancy.Results1257 participants were enrolled at Y5 and 809 participants were vaccinated at Y9. Seroprotection rates in both Tdap groups were ≥98.4% and ≥98.0% (Y5) and ≥98.3% and ≥98.1% (Y9) for diphtheria and tetanus, respectively. For pertussis antigens, antibody concentrations above assay cut-offs were observed for ≥76.6% (Y5) and ≥84.9% (Y9) of participants in Tdap groups. At Y9, one month post-Tdap vaccination, comparable seroprotection/seropositivity rates and antibody GMCs were observed among groups. Non-inferiority of immune responses in both Tdap groups was demonstrated when compared to the Control group for diphtheria and tetanus and to a 3-dose DTPa series for pertussis antigens. Non-inferiority criteria in terms of booster response were not met for all antigens. No safety concerns were raised.ConclusionA second dose of Tdap-B administered in adults, 9 years after initial Tdap vaccination, is immunogenic and well-tolerated.     

Evaluation of a convenient vaccination schedule against hepatitis B in HIV-patients with undetectable HIV viral load

Vaccination against hepatitis B virus (HBV) is recommended for all HIV-positive individuals but the standard schedule is not satisfactory. High or more doses have also been studied with variable results. We compared a vaccination schedule with a higher dose but fewer shots to the standard scheme (HBVaxPro 40 μg versus Engerix 20 μg at 0, 1, and 6 months). Of the 63 patients vaccinated with HBVaxPro 79%, 65% and 47% seroconverted at month 1, 12 and 24 after vaccination, respectively. A total of 137 patients received Engerix and showed lower response rates (68%, 53% and 38%, respectively). Anti-HBs titers in the Engerix group were also lower with a statistically significant difference.In patients younger than 55 years HBVaxPro was 3 times more likely to provoke a response compared with Engerix (OR = 3, p = 0.006). In conclusion, HBVaxPro 40 μg at 3 doses could be proposed as a more robust and acceptable alternative.     

Integrated analysis of recombinant BPV-1 L1 protein for the production of a bovine papillomavirus VLP vaccine

Bovine papillomatosis is an infectious disease that is caused by bovine papillomavirus (BPV), which results in important economic losses. However, no BPV vaccines or effective treatment methods are commercially available to date. Moreover, the absence of papillomavirus replication in vitro makes the use of recombinant protein a promising candidate for vaccine formulations. Hence, we developed an integrated study on the L1 capsid protein of BPV-1, obtained from a bacterial expression system, regarding its purification, biosafety, thermostability and immunogenicity. The results indicated an absence of genotoxicity of the purified recombinant L1 protein, β-sheet prevalence of secondary structure folding, protein stability under high temperatures as well as the presence of capsomeres and VLPs. In addition, preliminary experimental vaccination of calves showed the production of specific antibodies against BPV-1 L1.     

Safety,tolerability and immunogenicity of intramuscular administration of PRP-CRM197 Hib vaccine to healthy Japanese children: An open-label trial

BackgroundJapan licensed the conjugate Haemophilus influenzae type b vaccine, Vaxem™ Hib, based on clinical studies using subcutaneous injection. The present study was performed to ensure this vaccine is suitable for intramuscular injection in Japanese children.MethodsThirty-one healthy 2–6-month-old infants received three doses of Vaxem™ Hib by intramuscular injection at 4-week intervals and a booster dose 1 year later, concomitant with routine infant (DTaP-IPV and pneumococcal) and toddler (measles–rubella) vaccines. Immunogenicity was assessed before and after the primary series and booster dose by enzyme-linked immunosorbent assay for anti-polyribosyl-ribitol-phosphate (PRP) antibodies. Safety was assessed by medical examination and diary cards completed by the subjects’ parents/legal guardians.ResultsThere were no vaccine-related serious adverse events or withdrawals; all children completed the study. Four weeks after the primary series, the geometric mean anti-PRP titer (GMT) was 19.68 μg/mL, and all children had seroprotective titers (≥0.15 μg/mL) that persisted until the booster dose. Proportions of titers indicative of long-term protection (≥1.0 μg/mL) were 100% after the primary series and 77.4% before the booster. Anamnestic responses to the booster had a GMT of 51.33 μg/mL, and 100% had titers ≥1.0 μg/mL. All but one subject reported injection site reactions as resolved within 3 days of vaccination; systemic reactions due to Hib and routine vaccines were also resolved within this period.ConclusionsVaxem™ Hib was generally well tolerated and immunogenic in Japanese children when administered by intramuscular injection in a three-dose primary series and as a booster with concomitant routine vaccines.Clinical trial registry: Registered on Clinical Trials.gov: NCT02074345.     

Safety and immunogenicity of a trivalent recombinant PcpA,PhtD, and PlyD1 pneumococcal protein vaccine in adults,toddlers, and infants: A phase I randomized controlled study

BackgroundPneumococcal protein vaccines (PPrVs) may provide improved protection over currently available polysaccharide and conjugated polysaccharide vaccines. Here, we examined the safety and immunogenicity of a trivalent recombinant PPrV containing PcpA, PhtD, and PlyD1.MethodsThis was a phase I, single-center, randomized, observer-blind study with safety review between cohorts. Adults (18–50 years; n = 30) and then toddlers (12–13 months; n = 30) were randomized 2:1 to receive aluminum-adjuvanted trivalent PPrV (PPrV + adj) containing 50 μg per antigen or placebo. Infants (42–49 days; n = 220) were next randomized to be injected at 6, 10, and 14 weeks of age with 10 μg PPrV + adj or placebo (n = 60; 2:1); 25 μg PPrV + adj, 25 μg unadjuvanted PPrV, or placebo (n = 100; 2:2:1); and 50 μg PPrV + adj or placebo (n = 60; 2:1). Solicited reactions were recorded for 7 days and unsolicited adverse events for 30 days after each vaccination. Concentrations of antibodies to the three vaccine antigens were measured by enzyme-linked immunosorbent assay.ResultsTenderness/pain was the most frequent injection-site reaction. Abnormal crying and irritability (infants), loss of appetite (toddlers), and headache, malaise, and myalgia (adults) were the most frequent systemic reactions. Reactions were mostly mild or moderate, resolved within 3 days, were not adjuvant- or dose-dependent, and were not increased by repeated vaccination. No immediate adverse events, hypersensitivity reactions, or treatment-related serious adverse events were reported. In all PPrV + adj cohorts, at least 75% of subjects had a ≥2-fold increase in all three antibody concentrations. In infants, antibody concentrations were higher with PPrV + adj than with unadjuvanted PPrV, higher with three than two vaccinations, and similar at the different vaccine doses.ConclusionsThe candidate trivalent PPrV was safe and immunogenic in adults, toddlers, and infants. Addition of aluminum adjuvant improved immunogenicity in infants without changing the safety profile.     

Immunogenicity,reactogenicity and safety of 2 doses of an adjuvanted herpes zoster subunit vaccine administered 2, 6 or 12 months apart in older adults: Results of a phase III,randomized, open-label,multicenter study

BackgroundIn phase III trials, 2 doses of a herpes zoster (HZ) subunit vaccine (HZ/su; 50 µg varicella-zoster virus glycoprotein E [gE] and AS01_B Adjuvant System) administered 2-months apart in older adults (≥50 and ≥70 years) demonstrated >90% efficacy in preventing HZ and had a clinically acceptable safety profile. Here we report immunogenicity, reactogenicity and safety following administration of 2 HZ/su doses at intervals longer than 2 months.MethodsIn this Phase III, open-label trial conducted in the US and Estonia, 354 adults ≥50 years were randomized 1:1:1 to receive 2 HZ/su doses 2, 6, or 12 months apart. gE-specific humoral immune responses were evaluated at pre-vaccination, 1 and 12 months post-dose 2. Co-primary objectives were to compare immune responses to HZ/su 1 month post-dose 2 when given 6-months or 12-months apart to those administered 2-months apart. For each participant, safety information was collected from dose 1 to 12 months post-dose 2.Results346 participants completed the study and 343 were included in the according-to-protocol cohort for immunogenicity. One month post-dose 2, vaccine response rates were 96.5% (97.5% confidence interval [CI]: 90.4; 99.2) and 94.5% (97.5% CI: 87.6; 98.3) for the 0, 6- and 0, 12-month schedules, respectively, both schedules meeting the pre-defined criterion. Non-inferiority of anti-gE geometric mean concentrations was demonstrated for HZ/su administered on 0, 6-month compared to a 0, 2-month schedule; however, HZ/su administered on a 0, 12-month schedule did not meet the non-inferiority criterion. Injection site pain was the most commonly reported solicited adverse event (AE). 26 participants each reported at least 1 serious AE; none were assessed as related to vaccination.ConclusionsImmune responses to HZ/su administered at 0, 6-month were non-inferior to those elicited by a 0, 2-month schedule. HZ/su exhibited a clinically acceptable safety profile for all dosing intervals.Clinical Trials Registration: Clinicaltrials.gov (NCT01751165).     

Immunogenicity and safety of an AS03-adjuvanted H7N1 vaccine in adults 65 years of age and older: A phase II,observer-blind,randomized, controlled trial

BackgroundH7 influenza strains can cause severe and often fatal human infections, especially in the elderly. This phase II, observer-blind, randomized trial (www.ClinicalTrials.gov: NCT01949090) assessed the immunogenicity and safety of a novel AS03-adjuvanted H7N1 vaccine that may serve as a model H7-subtype vaccine.Methods360 adults ≥65 years of age in stable health received either 1 of 4 adjuvanted A/mallard/Netherlands/12/2000 split virion vaccine formulations (3.75 μg or 7.5 μg hemagglutinin adjuvanted with either AS03_A or AS03_B) or saline placebo, given as a 2-dose series. Immunogenicity was assessed using hemagglutination-inhibition (HI) and microneutralization (MN) assays for the per-protocol cohort, comprising 332 participants at 21 days post-each dose, 332 at month 6, and 309 at month 12 (HI assay only). Safety was assessed up to month 12 for all participants who had received ≥1 dose (360 participants).ResultsFor H7N1 HI antibody assessment at day 42 (21 days post-dose 2), seroprotection rates (SPR) in the vaccinated groups were 69.6%–88.7%, seroconversion rates (SCR) 69.6%–88.5%, mean geometric increase (MGI) 11.0–18.9, and HI geometric mean titers (GMTs) 55.0–104.8. These parameters declined by month 6 and month 12. Microneutralization GMTs were 46.2–74.7 in the vaccinated groups at day 42, while vaccine response rate (VRR; proportion with ≥4-fold increase in MN titer) was 46.4%–81.5%. For the cross-reactive H7N9 strain, at day 42, HI GMT were 64.3–201.3, SPR 78.6%–96.3%, SCR 79.3%–96.3%, and MGI 14.1–37.7; MN GMTs were 44.0–85.6, and VRR 46.4–85.2%.The most frequent solicited symptom was injection site pain (41.7%–65.0% of vaccine recipients). In total, 40 participants reported 67 serious adverse events; none were considered causally related to vaccination.ConclusionsIn adults aged ≥65 years, the adjuvanted H7N1 vaccine was immunogenic after 2 doses, and had an acceptable safety profile.www.ClinicalTrials.gov: NCT01949090.     

A cell culture-derived whole virus influenza A vaccine based on magnetic sulfated cellulose particles confers protection in mice against lethal influenza A virus infection

Downstream processing and formulation of viral vaccines employs a large number of different unit operations to achieve the desired product qualities. The complexity of individual process steps involved, the need for time consuming studies towards the optimization of virus yields, and very high requirements regarding potency and safety of vaccines results typically in long lead times for the establishment of new processes. To overcome such obstacles, to enable fast screening of potential vaccine candidates, and to explore options for production of low cost veterinary vaccines a new platform for whole virus particle purification and formulation based on magnetic particles has been established. Proof of concept was carried out with influenza A virus particles produced in suspension Madin Darby canine kidney (MDCK) cells. The clarified, inactivated, concentrated, and diafiltered virus particles were bound to magnetic sulfated cellulose particles (MSCP), and directly injected into mice for immunization including positive and negative controls. We show here, that in contrast to the mock-immunized group, vaccination of mice with antigen-loaded MSCP (aMSCP) resulted in high anti-influenza A antibody responses and full protection against a lethal challenge with replication competent influenza A virus. Antiviral protection correlated with a 400-fold reduced number of influenza nucleoprotein gene copies in the lungs of aMSCP immunized mice compared to mock-treated animals, indicating the efficient induction of antiviral immunity by this novel approach. Thus, our data proved the use of MSCP for purification and formulation of the influenza vaccine to be fast and efficient, and to confer protection of mice against influenza A virus infection. Furthermore, the method proposed has the potential for fast purification of virus particles directly from bioreactor harvests with a minimum number of process steps towards formulation of low-cost veterinary vaccines, and for screening studies requiring fast purification protocols.     

Fibroblast-stimulating lipopeptide-1 as a potential mucosal adjuvant enhances mucosal and systemic immune responses to enterovirus 71 vaccine

To prevent viral infection at the site of entry, mucosal vaccines are potent tools for inducing IgA secretion for defense. Because Toll-like receptor (TLR) ligands serve as strong adjuvants, two ligands that mimic the structure of mycoplasmal and bacterial lipopeptides represent interesting vaccine candidates. Pam3CSK4, a synthetic triacylated lipopeptide, interacts with TLR2/1. Because fibroblast-stimulating lipopeptide-1 (FSL-1), a synthetic diacylated lipopeptide, is recognized by TLR2/6, we targeted the potential immuno-inducibility of Pam3CSK4 and FSL-1 as adjuvants of an enterovirus 71 (EV71) mucosal vaccine. Naïve BALB/c mice were used for intranasal immunization three times over a 3-week interval, with results showing that EV71-specific IgG and IgA in serum, nasal washes, bronchoalveolar lavage fluid, and feces from the EV71 + FSL-1 group were significantly higher than levels observed in mice treated with EV71 + Pam3CSK4, EV71 alone, or the control group treated with phosphate-buffered saline. Furthermore, we observed more EV71-specific IgG and IgA-producing cells in treatments using EV71 formulated with FSL-1. Additionally, T cell-proliferative responses and interferon-γ and interleukin-17 secretion were significantly increased when inactivated EV71 was formulated using FSL-1. Moreover, serum from immunized mice was capable of neutralizing the infectivity of EV71 (C2 genotype) and was able to cross-neutralize the B4 and B5 genotypes of EV71. Our data suggested that FSL-1 could be used as an efficient adjuvant for intranasal EV71-vaccine immunization.     

A novel vaccinological evaluation of intranasal vaccine and adjuvant safety for preclinical tests

Vaccines are administered to healthy humans, including infants, so the safety and efficacy must be very high. Therefore, evaluating vaccine safety in preclinical and clinical studies, according to World Health Organization guidelines, is crucial for vaccine development and clinical use. A change in the route of administration is considered to alter a vaccine’s immunogenicity. Several adjuvants have also been developed and approved for use in vaccines. However, the addition of adjuvants to vaccines may cause unwanted immune responses, including facial nerve paralysis and narcolepsy. Therefore, a more accurate and comprehensive strategy must be used to develope next-generation vaccines for ensuring vaccine safety. Previously, we have developed a system with which to evaluate vaccine safety in rats using a systematic vaccinological approach and 20 marker genes. In this study, we developed a safety evaluation system for nasally administered influenza vaccines and adjuvanted influenza vaccines using these marker genes. Expression of these genes increased dose-dependent manner when mice were intranasally administered the toxicity reference vaccine. When the adjuvant CpG K3 or a CpG-K3-combined influenza vaccine was administered intranasally, marker gene expression increased in a CpG-K3-dose-dependent way. A histopathological analysis indicated that marker gene expression correlated with vaccine- or adjuvant-induced phenotypic changes in the lung and nasal mucosa. We believe that the marker genes expression analyses will be useful in preclinical testing, adjuvant development, and selecting the appropriate dose of adjuvant in nasal administration vaccines.