Broad and potent immune responses to a low dose intradermal HIV-1 DNA boosted with HIV-1 recombinant MVA among healthy adults in Tanzania

Background

We conducted a phase I/II randomized placebo-controlled trial with the aim of exploring whether priming with a low intradermal dose of a multiclade, multigene HIV-1 DNA vaccine could improve the immunogenicity of the same vaccine given intramuscularly prior to boosting with a heterologous HIV-1 MVA among healthy adults in Dar es Salaam, Tanzania.

Methods

Sixty HIV-uninfected volunteers were randomized to receive DNA plasmid vaccine 1 mg intradermally (id), n = 20, or 3.8 mg intramuscularly (im), n = 20, or placebo, n = 20, using a needle-free injection device. DNA plasmids encoding HIV-1 genes gp160 subtype A, B, C; rev B; p17/p24 gag A, B and Rtmut B were given at weeks 0, 4 and 12. Recombinant MVA (10⁸ pfu) expressing HIV-1 Env, Gag, Pol of CRF01_AE or placebo was administered im at month 9 and 21.

Results

The vaccines were well tolerated. Two weeks after the third HIV-DNA injection, 22/38 (58%) vaccinees had IFN-γ ELISpot responses to Gag. Two weeks after the first HIV-MVA boost all 35 (100%) vaccinees responded to Gag and 31 (89%) to Env. Two to four weeks after the second HIV-MVA boost, 28/29 (97%) vaccinees had IFN-γ ELISpot responses, 27 (93%) to Gag and 23 (79%) to Env. The id-primed recipients had significantly higher responses to Env than im recipients. Intracellular cytokine staining for Gag-specific IFN-γ/IL-2 production showed both CD8⁺ and CD4⁺ T cell responses. All vaccinees had HIV-specific lymphoproliferative responses. All vaccinees reacted in diagnostic HIV serological tests and 26/29 (90%) had antibodies against gp160 after the second HIV-MVA boost. Furthermore, while all of 29 vaccinee sera were negative for neutralizing antibodies against clade B, C and CRF01_AE pseudoviruses in the TZM-bl neutralization assay, in a PBMC assay, the response rate ranged from 31% to 83% positives, depending upon the clade B or CRF01_AE virus tested.

Conclusions

This vaccine approach is safe and highly immunogenic. Low dose, id HIV-DNA priming elicited higher and broader cell-mediated immune responses to Env after HIV-MVA boost compared to a higher HIV-DNA priming dose given im. Three HIV-DNA priming immunizations followed by two HIV-MVA boosts efficiently induced Env-antibody responses.     

Cellular and humoral responses to an HIV DNA prime by electroporation boosted with recombinant vesicular stomatitis virus expressing HIV subtype C Env in a randomized controlled clinical trial

BackgroundHIV subtypes B and C together account for around 60% of HIV-1 cases worldwide. We evaluated the safety and immunogenicity of a subtype B DNA vaccine prime followed by a subtype C viral vector boost.MethodsFourteen healthy adults received DNA plasmid encoding HIV-1 subtype B nef/tat/vif and env (n = 11) or placebo (n = 3) intramuscularly (IM) via electroporation (EP) at 0, 1, and 3 months, followed by IM injection of recombinant vesicular stomatitis virus encoding subtype C Env or placebo at 6 and 9 months. Participants were assessed for safety, tolerability of EP, and Env-specific T-cell and antibody responses.ResultsEP was generally well tolerated, although some device-related adverse events did occur, and vaccine reactogenicity was mild to moderate. The vaccine stimulated Env-specific CD4 + T-cell responses in greater than 80% of recipients, and CD8 + T-cell responses in 30%. Subtype C Env-specific IgG binding antibodies (bAb) were elicited in all vaccine recipients, and antibody-dependent cell-mediated cytotoxicity (ADCC) responses to vaccine-matched subtype C targets in 80%. Negligible V1/V2 and neutralizing antibody (nAb) responses were detected.ConclusionsThis prime/boost regimen was safe and tolerable, with some device-related events, and immunogenic. Although immunogenicity missed targets for an HIV vaccine, the DNA/rVSV platform may be useful for other applications.Trial registration.Clinicaltrials.gov: NCT02654080.     

Characterization of immune responses induced by inactivated,live attenuated and DNA vaccines against Japanese encephalitis virus in mice

Vaccination is the most effective countermeasure for protecting individuals from Japanese encephalitis virus (JEV) infection. There are two types of JEV vaccines currently used in China: the Vero cell-derived inactivated vaccine and the live attenuated vaccine. In this study, we characterized the immune response and protective efficacy induced in mice by the inactivated vaccine, live attenuated vaccine and the DNA vaccine candidate pCAG-JME, which expresses JEV prM-E proteins. We found that the live attenuated vaccine conferred 100% protection and resulted in the generation of high levels of specific anti-JEV antibodies and cytokines. The pCAG-JME vaccine induced protective immunity as well as the live attenuated vaccine. Unexpectedly, immunization with the inactivated vaccine only induced a limited immune response and partial protection, which may be due to the decreased activity of dendritic cells and the expansion of CD4+CD25+Foxp3+ regulatory T cells observed in these mice. Altogether, our results suggest that the live attenuated vaccine is more effective in providing protection against JEV infection than the inactivated vaccine and that pCAG-JME will be a potential JEV vaccine candidate.     

Electroporation enhances immune responses and protection induced by a bovine viral diarrhea virus DNA vaccine in newborn calves with maternal antibodies

Bovine viral diarrhea virus (BVDV) is one of the major pathogens in cattle. In this study, newborn calves with maternal antibodies were vaccinated with a BVDV DNA vaccine, either by conventional intramuscular (IM) injection or with the TriGrid™ Delivery System for IM delivery (TDS-IM). The calves vaccinated with the TDS-IM developed more rapidly and effectively BVDV-specific humoral and cell-mediated immune responses in the presence of maternal antibodies. Overall, the immune responses induced by delivery with the TDS-IM remained stronger than those elicited by conventional IM injection of the BVDV DNA vaccine. Accordingly, electroporation-mediated delivery of the BVDV DNA vaccine resulted in close to complete protection from clinical signs of disease, while conventional IM administration did not fully prevent morbidity and mortality following challenge with BVDV-2. These results demonstrate the TDS-IM to be effective as a delivery system for a BVDV DNA vaccine in newborn calves in the presence of maternal antibodies, which supports the potential of electroporation as a delivery method for prophylactic DNA vaccines.     

Integration of needle-free jet injection with advanced electroporation delivery enhances the magnitude,kinetics, and persistence of engineered DNA vaccine induced immune responses

The combination of optimized DNA constructs, improved formulations and advanced in vivo electroporation (EP) has been shown to generate potent and efficacious immune responses in the clinic. Needle-free jet injection has also been reported to improve DNA vaccine delivery over standard needle and syringe in clinical trials. Here we investigated the impact of combined jet injection and EP (Jet-EP) delivery on muscle transfection efficiency and DNA vaccine immunogenicity in rabbits and nonhuman primates (NHPs) compared to jet injection alone. Our results show that the addition of EP significantly enhanced in vivo DNA transfection efficiency of rabbit muscle over jet injection alone. Jet-EP delivery augmented the rate and magnitude of DNA vaccine induced humoral and cellular responses over jet injection alone in both rabbits and NHPs. Jet-EP delivery also resulted in higher proportions of polyfunctional antigen specific T cells producing IFNγ, IL-2, and/or TNFα. Elevated antibody levels were sustained nine months post immunization in NHPs immunized with a DNA vaccine using Jet-EP delivery, far outperforming jet delivery alone. Our results provide proof-of-concept that addition of advanced EP to needle-free jet injection delivery improves in vivo DNA transfection efficiency, increasing the magnitude, rate and duration of cellular and humoral immune responses to DNA vaccines. This combination likely has significant advantages in important vaccine and immunotherapy settings.     

Evaluation of a DNA vaccine candidate expressing prM-E-NS1 antigens of dengue virus serotype 1 with or without granulocyte-macrophage colony-stimulating factor (GM-CSF) in immunogenicity and protection

Dengue is one of the most important mosquito-borne viral diseases. In past years, although considerable effort has been put into the development of a vaccine, there is currently no licensed dengue vaccine. In this study, we constructed DNA vaccines that carried the prM-E-NS1 genes of dengue virus serotype 1 (DV1) with or without the granulocyte-macrophage colony-stimulating factor (GM-CSF) gene, an attractive DNA vaccine adjuvant. Immunization with the plasmid pCAG-DV1/E/NS1, which expresses viral prM-E-NS1, or the bicistronic plasmid pCAG-DV1-GM, which co-expresses viral prM-E-NS1 and GM-CSF, resulted in long-term IgG response, high levels of splenocyte-secreted interferon-γ and interleukin-2, strong cytotoxic T lymphocyte activity and sufficient protection in the DV1-challenged mice. This suggested that both humoral and cellular immune responses were induced by the immunizations and that they played important roles in protection against the DV1 challenge. Interestingly, the magnitude, quality and protective capacity of the immune responses induced by immunization with pCAG-DV1/E/NS1 or pCAG-DV1-GM seemed stronger than those induced by pCAG-DV1/E (expressing viral prM-E alone). Taken together, we demonstrated that prM/E plus NS1 would be a suitable solution for the development of a DNA vaccine against DV.     

Priming with a DNA vaccine delivered by attenuated Salmonella typhimurium and boosting with a killed vaccine confers protection of chickens against infection with the H9 subtype of avian influenza virus

Control of the circulation of H9 low-pathogenic avian influenza virus (LPAIV) is a major concern for both animal and public health. To improve vaccine efficacy against H9 LPAIV, we have utilized a novel prime–boost vaccination strategy. Specific-pathogen free (SPF) chickens were first orally immunized with a hemagglutinin (HA) DNA vaccine delivered by attenuated Salmonella typhimurium, followed by boosting with a killed avian influenza (AI) vaccine. Chickens in this combined vaccination group were completely protected against both oropharyngeal and cloacal virus shedding after intranasal challenge with H9N2 AIV, while viruses were detected from these sites in other vaccination groups. Prior to challenge, chickens in the prime–boost group also had higher (P < 0.05) serum hemagglutination inhibition (HI) titers and intestinal mucosal IgA ELISA titers against AIV, and higher lymphoproliferation stimulation indices than those from other groups. Thus, we have demonstrated the efficacy of a novel prime–boost vaccination strategy against H9N2 avian influenza virus, which could be also applied for the development of vaccines against other mucosally infectious pathogens.     

Comparison of AS03 and Alum on immune responses elicited by A/H3N2 split influenza vaccine in young,mature and aged BALB/c mice

IntroductionThere is great interest in developing more effective influenza vaccines for the elderly. Oil-in-water adjuvants can boost humoral responses to seasonal vaccines in elderly subjects but relatively little is known about their mechanism of action.MethodsWe compared humoral and cellular immune profiles in young adult (2 months), mature (11–12 months) or aged (16–17 month) female BALB/c mice following two doses of Alum or AS03-adjuvanted A/H3N2 split-virus antigen (A/Uruguay/716/2007) at 0.75 or 3 μg hemagglutinin (HA) per dose intramuscularly versus 3 μg HA without adjuvant.ResultsOverall, hemagglutination inhibition (HAI), microneutralization (MN) and end-point ELISA titres were higher in the young mice and when an adjuvant was used. Both adjuvants increased humoral responses in older animals but the highest titres across all groups were observed in the AS03-adjuvanted groups. Neither IgG avidity nor A/H3N2-specific splenocyte proliferation was influenced by age, antigen dose or adjuvant. In contrast, cytokine production by ex vivo-stimulated splenocytes differed widely between groups. Most cytokine levels in older mice vaccinated with antigen alone (3 μg HA/dose) were ≤50% of those in young animals. In young mice, cytokine levels increased modestly with Alum and significantly with AS03. Increases tended to be greatest at the lower antigen dose (0.75 μg versus 3 μg HA). In the older animals, Alum had little impact on cytokine production but responses in the AS03 groups paralleled those of the young mice (broad activation of Th1, Th2, and Th17-type cytokines) and the greatest increases were seen with the higher antigen dose (3 μg HA).ConclusionsIn both young and aged mice, Alum and AS03 increased the magnitude of humoral and cellular responses to split influenza virus vaccination. Overall, these effects were most pronounced in the younger animals and the groups receiving AS03. These data support the use of oil-in-water adjuvants in influenza vaccines targeting the elderly.     

Safety and immunogenicity of a single dose of a tetravalent dengue vaccine with two different serotype-2 potencies in adults in Singapore: A phase 2, double-blind,randomised, controlled trial

BackgroundEarly formulations of Takeda’s tetravalent dengue vaccine candidate (TAK-003) have demonstrated notably higher neutralizing antibody responses against serotype 2 than other serotypes. Here, we assessed the immunogenicity and tolerability in adults living in Singapore of two TAK-003 formulations: an early formulation, referred to as HD-TDV, and a new formulation with 10-fold lower serotype 2 potency, referred to as TDV (NCT02425098).MethodsSubjects aged 21–45 years were stratified by baseline dengue serostatus and randomised 1:1 to receive a single dose of either HD-TDV or TDV. Immunogenicity was evaluated at Days 15, 30, 90, 180, and 365 post-vaccination as geometric mean titres (GMTs) of neutralising antibodies and seropositivity rates. Viremia was assessed per vaccine strain. Solicited and unsolicited adverse events (AEs) were assessed by severity and causality.ResultsOf 351 subjects randomised, 176 received HD-TDV and 175 received TDV. Peak GMTs against all serotypes were observed at Day 30, with highest GMTs against DENV-2 in both groups. In subjects seronegative at baseline, the response to DENV-2 was less dominant with TDV (Day 30 GMTs: 813 for TDV, 10,966 for HD-TDV). In these subjects, DENV-4 seropositivity rates and GMTs were higher with TDV (Day 30 GMTs: 58 for TDV, 21 for HD-TDV; seropositivity rates: 76% for TDV, 60% for HD-TDV). Viremia mainly occurred for TDV-2 in both vaccine groups, with a lower incidence in TDV recipients, and mostly resolved by Day 30. Both vaccine formulations showed an acceptable safety profile with similar overall rates of solicited and unsolicited AEs across vaccine groups.ConclusionsThese results suggest a more balanced immune response with the new formulation TDV compared with the early formulation HD-TDV, particularly in subjects who were seronegative prior to vaccination, and support the choice of the new formulation for the phase 3 efficacy assessment.     

Co-delivery of amphipol-conjugated adjuvant with antigen,and adjuvant combinations,enhance immune protection elicited by a membrane protein-based vaccine against a mucosal challenge with Chlamydia

IntroductionChlamydial infections are spread worldwide and a vaccine is needed to control this pathogen. The goals of this study were to determine if the delivery of an adjuvant associated to the antigen, via a derivatized amphipol, and adjuvant combinations improve vaccine protection.MethodsA novel approach, trapping the Chlamydia muridarum (Cm) native MOMP (nMOMP) with amphipols (A8-35), bearing a covalently conjugated peptide (EP67), was used. Adjuvants incorporated were: EP67 either conjugated to A8-35, which was used to trap nMOMP (nMOMP/EP67-A8-35), or free as a control, added to nMOMP/A8-35 complexes (nMOMP/A8-35+EP67); Montanide ISA 720 to enhance humoral responses, and CpG-1826 to elicit robust cell-mediated immunity (CMI). BALB/c mice were immunized by mucosal and systemic routes. Intranasal immunization with live Cm was used as positive control and three negative controls were included. Mice were challenged intranasally with Cm and changes in body weight, lungs weight and number of Cm-inclusion forming units (IFU) recovered from the lungs were evaluated to establish protection. To assess local responses levels of IFN- γ and Cm-specific IgA were determined in lungs’ supernatants.ResultsStructural assays demonstrated that nMOMP secondary structure and thermal stability were maintained when A8-35 was covalently modified. Mice vaccinated with nMOMP/EP67-A8-35 were better protected than animals immunized with nMOMP/A8-35+EP67. Addition of Montanide enhanced Th2 responses and improved protection. Including CpG-1826 further broadened, intensified and switched to Th1-biased immune responses. With delivery of nMOMP and the three adjuvants, as determined by changes in body weight, lungs weight and number of IFU recovered from lungs, protection at 10 days post-challenge was equivalent to that induced by immunization with live Cm.ConclusionsCovalent association of EP67 to A8-35, used to keep nMOMP water-soluble, improves protection over that conferred by free EP67. Adjuvant combinations including EP67+Montanide+CpG-1826, by broadening and intensifying cellular and humoral immune responses, further enhanced protection.     

A single dose of inactivated hepatitis A vaccine promotes HAV-specific memory cellular response similar to that induced by a natural infection

Based on current studies on the effects of single dose vaccines on antibody production, Latin American countries have adopted a single dose vaccine program. However, no data are available on the activation of cellular response to a single dose of hepatitis A. Our study investigated the functional reactivity of the memory cell phenotype after hepatitis A virus (HAV) stimulation through administration of the first or second dose of HAV vaccine and compared the response to that of a baseline group to an initial natural infection. Proliferation assays showed that the first vaccine dose induced HAV-specific cellular response; this response was similar to that induced by a second dose or an initial natural infection. Thus, from the first dose to the second dose, increase in the frequencies of classical memory B cells, TCD8 cells, and central memory TCD4 and TCD8 cells were observed. Regarding cytokine production, increased IL-6, IL-10, TNF, and IFNγ levels were observed after vaccination. Our findings suggest that a single dose of HAV vaccine promotes HAV-specific memory cell response similar to that induced by a natural infection. The HAV-specific T cell immunity induced by primary vaccination persisted independently of the protective plasma antibody level. In addition, our results suggest that a single dose immunization system could serve as an alternative strategy for the prevention of hepatitis A in developing countries.     

Comparison of humoral and cellular immune responses to a pentavalent modified live virus vaccine in three age groups of calves with maternal antibodies,before and after BVDV type 2 challenge

The aim of this study was to evaluate the ability of a pentavalent (BVDV types 1 and 2, BHV-1, BRSV, and PI-3) modified live virus (MLV) vaccine given to 1–2-, 4–5-, and 7–8-week-old calves with maternal antibodies to induce humoral and cellular immune responses and protect calves from virulent BVDV type 2. Eight calves in each age group were vaccinated and four served as controls. All calves were challenged intranasally with BVDV type 2, 12 weeks after vaccination. SVN titers to all five viruses declined in all groups after vaccination (except 4–5-week-old calves to BVDV type 1). After challenge, the SVN titers for both types of BVDV showed anamnestic responses in calves vaccinated at 4–5 and 7–8 weeks, but not at 1–2 weeks of age. In all groups, T cell subsets responded specifically to BVDV types 1 and 2 but not to BHV-1, BRSV, or PI-3 after vaccination by increasing their expression of activation markers (CD25, IFN-γ and IL-4). All vaccinated calves were significantly protected from BVDV type 2 challenge.     

MAS-1, a novel water-in-oil adjuvant/delivery system,with reduced seasonal influenza vaccine hemagglutinin dose may enhance potency,durability and cross-reactivity of antibody responses in the elderly

BackgroundIncreased influenza vaccine efficacy is needed in the elderly at high-risk for morbidity and mortality due to influenza infection. Adjuvants may allow hemagglutinin (HA) dose-sparing with enhanced immunogenicity. MAS-1 is an investigational water-in-oil emulsion-based adjuvant/delivery system comprised of stable nanoglobular aqueous droplets.MethodsA phase 1, randomized, double-blind, safety and immunogenicity, adjuvant dose escalation trial was conducted in persons aged 65 years and older. MAS-1 adjuvant dose volumes at 0.3 mL or 0.5 mL containing 9 µg per HA derived from licensed seasonal trivalent influenza vaccine (IIV, Fluzone HD 60 µg per HA, Sanofi Pasteur) were compared to high dose (HD) IIV (Fluzone HD). Safety was measured by reactogenicity, adverse events, and safety laboratory measures. Immunogenicity was assessed by serum hemagglutination inhibition (HAI) antibody titers.ResultsForty-five subjects, aged 65–83 years, were randomly assigned to receive 9 µg per HA in 0.3 mL MAS-1 (15 subjects) or HD IIV (15 subjects) followed by groups randomly assigned to receive 9 µg per HA in 0.5 mL MAS-1 (10 subjects) or HD IIV (5 subjects). Injection site tenderness, induration, and pain, and headache, myalgia, malaise and fatigue were common, resolving before day 14 post-vaccination. Clinically significant late-onset injection site reactions occurred in four of ten subjects at the 0.5 mL adjuvant dose. Safety laboratory measures were within acceptable limits. MAS-1-adjuvanted IIV enhanced mean antibody titers, mean-fold increases in antibody titer, and seroconversion rates against vaccine strains for at least 168 days post-vaccination and enhanced cross-reactive antibodies against some non-study vaccine influenza viruses.ConclusionMAS-1 adjuvant provided HA dose-sparing without safety concerns at the 0.3 mL dose, but the 0.5 mL dose caused late injection site reactions. MAS-1-adjuvanted IIV induced higher HAI antibody responses with prolonged durability including against historical strains, thereby providing greater potential vaccine efficacy in the elderly throughout an influenza season.Clinical Trial Registry: ClinicalTrials.gov # NCT02500680.     

Safety, tolerability, and immunogenicity of inactivated trivalent seasonal influenza vaccine administered with a needle-free disposable-syringe jet injector

Background

Jet injectors (JIs) avoid safety drawbacks of needle-syringe (N-S) while generating similar immune responses. A new generation of disposable-syringe jet injectors (DSJIs) overcomes the cross-contamination risk of multi-use-nozzle devices used in 20th-century campaigns. In the first study in humans, the newly-US-licensed LectraJet^® model M3 RA DSJI was compared to N-S.

Methods

Sixty healthy adults received one 0.5 mL intramuscular dose of the 2009-2010 seasonal, trivalent, inactivated influenza vaccine (TIV) in randomized, double-masked fashion by either DSJI (n = 30) or N-S (n = 30). Adverse reactions were monitored for 90 days after injection, and serologic responses assayed by hemagglutination inhibition (HI) at days 28 and 90.

Results

There were no related serious adverse events (SAEs), nor differing rates of unsolicited AEs between DSJI and N-S. Solicited erythema and induration occurred more often after DSJI, but were transient and well-tolerated; a trend was noted for fewer systemic reactions by DSJI. Pre-vaccination HI geometric mean titers (GMT) increased by 28 days for H1N1, H3N2, and B antigens by 13-, 14-, and 8-fold via DSJI, and by 7-, 10-, and 7-fold for N-S, respectively. No trending differences in GMT, seroconversion, or seroprotection were noted; sample sizes precluded non-inferiority assessment.

Conclusions

DSJI delivery of TIV is well-tolerated and immunogenic.     

Assessment of immunogenicity and safety across two manufacturing lots of a 3-antigen hepatitis B vaccine,Sci-B-Vac®, compared with Engerix-B® in healthy Asian adults: A phase 3 randomized clinical trial

BackgroundSci-B-Vac®, a 3-antigen hepatitis B vaccine (3A-HBV), contains all three recombinant hepatitis B virus (HBV) envelope proteins (S, pre-S1, and pre-S2). In 2005, 3A-HBV manufacturing transferred facilities (A to B), where it continues to be manufactured.MethodsThis phase 3, single-blind, randomized study, conducted at one site in Vietnam, compared efficacy and safety among two 3A-HBV lots, lot A and lot B, and a single-antigen hepatitis B vaccine (1A-HBV), Engerix-B®. Primary objective was to demonstrate equivalence at day 210 of two 3A-HBV lots in seroprotection rate (SPR; defined as percentage of participants achieving hepatitis B surface antigen antibody [anti-HBs] titers ≥ 10 mIU/mL). Secondary objectives were assessing immunogenicity at days 180, 210, and 360, and safety of 3A-HBV.Results3A-HBV SPR equivalence was demonstrated at day 210 (lot A: 97.3% [95% CI: 92.4%, 99.4%] vs. lot B: 100.0% [97.0%, 100.0%]). Compared to 1A-HBV, lot B SPR was higher at day 180 (98.3% vs. 81.2%; difference: 17.1% [9.7%, 24.6%]) and non-inferior at day 210 (100% vs. 98.3%; difference: 1.7% [-0.6%, 4.1%]). 3A-HBV lot B showed the same SPR after 2 doses (98.3%) as 1A-HBV after 3 doses (98.3%). Adverse events (AEs) were comparable with both 3A-HBV lots (lot A: 68.7% vs. lot B: 54.2%), but higher than 1A-HBV (35.3%). Vaccination-related AEs included transient injection site pain (38.9%), myalgia (9.3%), and fatigue (7.5%). Eight serious AEs were reported (lot A: 3/134 [2.2%]; lot B: 1/134 [0.8%]; 1A-HBV: 4/133 [2.3%]). One serious AE, syncope, was noted as probably related to study vaccine, lot B.ConclusionsThe two 3A-HBV lots had equivalent immunogenicity, but lot B elicited faster onset of seroprotection and higher anti-HBs titers than both lot A and 1A-HBV in an Asian population. This supports 3A-HBV lot B as an effective choice for HBV vaccination, with a favorable safety profile.ClinicalTrials.gov: NCT04531098.