Heterologous boosting of neutralizing activity against Delta and Omicron SARS-CoV-2 variants in CoronaVac-primed adults; a randomized study with SCB-2019 vaccine (preprint)

Background: The global COVID-19 pandemic has peaked but some countries such as China are reporting serious infectious outbreaks due to SARS-CoV-2 variants. Waning vaccine-derived immunogenicity and mutations in variants allowing vaccine evasion require new booster immunization approaches. We compared homologous and heterologous boosting in adults previously fully primed with a whole-virus inactivated COVID-19 vaccine. Methods: At multiple sites in the Philippines we enrolled 430 adults (18-72 years) immunized with two doses of CoronaVac at least 3 months previously and randomly assigned them to receive homologous (CoronaVac, n = 216) or heterologous (recombinant protein vaccine, SCB-2019, n = 214) booster doses. Non-inferiority/superiority of the neutralizing antibody (NAb) response 15 days after boosting was measured by microneutralization against prototype SARS-CoV-2, and Delta and Omicron variants in subsets (50 per arm). Participants recorded solicited local and systemic adverse events for 7 days, unsolicited AEs until Day 29, and serious adverse events until Day 60. Results: NAb geometric mean titers (GMT) against prototype on Day 15 were 744 (95% CI: 669-828) and 164 (143-189) in heterologous and homologous groups, respectively, with a heterologous/homologous GMT ratio of 4.63 (3.95-5.41), meeting both pre-defined non-inferiority and superiority criteria. Similarly, geometric mean-fold rises for NAb against Delta and Omicron BA.1, BA.2, BA.4 and BA.5 variants were superior after heterologous SCB-2019 (range 3.01-4.66) than homologous CoronaVac (range 0.85-1.6) in an exploratory analysis. Reactogenicity and safety measures were evenly balanced between groups; the most frequent local reaction was mild or moderate injection site pain; mild or moderate headache and fatigue were the most frequent systemic adverse events. No vaccine-related serious adverse events were reported. Conclusion: Heterologous boosting of CoronaVac-immunized adults with SCB-2019 was well tolerated with superior immunogenicity than homologous boosting, particularly for newly emerged variants, supporting use of SCB-2019 for booster vaccination.

Impact of vaccination with SCB-2019 COVID-19 vaccine on transmission of SARS-CoV-2 infection: a household contact study in the Philippines (preprint)

Background: An exploratory household transmission study was nested in SPECTRA, the phase 2/3 efficacy study of the adjuvanted recombinant protein-based COVID-19 vaccine SCB-2019. We compared occurrence of confirmed COVID-19 infections between households and household contacts of infected SPECTRA participants who were either placebo or SCB-2019 recipients. Methods: SPECTRA trial participants at eight study sites in the Philippines who developed rRT-PCR-confirmed COVID-19 were contacted by a study team blinded to assignment of index cases to vaccine or placebo groups to enroll in this household transmission study. Enrolled households and household contacts were monitored for three weeks using rRT-PCR and rapid antigen testing to detect new COVID-19 infections. Results: Observation of the households of 154 eligible COVID-19 index cases, 130 symptomatic and 24 asymptomatic at diagnosis, revealed household secondary attack rates for any COVID-19 infection of SCB-2019 index cases of 0.76% (90% CI: 0.15-3.90) compared with 5.88% (90% CI: 3.20-10.8) in placebo index case households, a relative risk reduction of 79% (90% CI: -28-97). The relative risk reduction of symptomatic COVID-19 was 84% (90% CI: 28-97) for household contacts of all COVID-19 infected index cases, and 80% (90% CI: 7-96) for household contacts of index cases with symptomatic COVID-19. Conclusions: In this prospective household contact study vaccination with SCB-2019 reduced SARS-CoV-2 transmission in households, so decreasing infections of household contacts, compared with placebo.

Homologous and heterologous boosting of the ChAdOx1-S1-S COVID-19 vaccine with the SCB-2019 vaccine candidate: a randomized, observer-blinded, controlled, phase 2 study (preprint)

Background: Ongoing outbreaks of COVID-19 have been associated with waning immunity following primary immunizations and emergence of new SARS-CoV-2 variants. Heterologous boosters have been suggested to maintain population immunity. Methods: In this study of heterologous boosters we assessed immunogenicity and reactogenicity of booster doses of different formulations of alum-adjuvanted SCB-2019 vaccine (9 g SCB-2019 with or without CpG-1018 adjuvant, or 30 g SCB-2019 with CpG-1018) in Brazilian adults primed with ChAdOx1-S vector vaccine. S-protein and ACE2 binding antibodies were measured by ELISA on Days 1, 15 and 29. Participants self-reported solicited adverse events and reactions. Results: All SCB-2019 formulations increased ELISA antibodies against S-protein and ACE2 to a greater extent than ChAdOx1-S. After 30 g SCB-2019+CpG+alum titers against wild-type S-protein and ACE2 were significantly higher than after ChAdOx1-S on Days 15 and 29, as were GMTs for neutralizing antibodies against wild-type strain and Beta, Gamma, Delta, and Omicron variants. Boosting with SCB-2019 or ChAdOx1-S was well tolerated with no vaccine-related serious or severe adverse events. Conclusions: Heterologous boosting with SCB-2019 of ChAdOx1-S-primed adults was more efficient in increasing immunity against wild-type strain and SARS-CoV-2 variants than a homologous ChAdOx1-S booster, highest responses being with the 30 g SCB-2019+CpG+alum formulation.

Protection from Omicron and other VOCs by Bivalent S-Trimer COVID-19 Vaccine (preprint)

The Omicron variant of SARS-COV-2 (GISAID GRA clade [B.1.1.529, BA.1 and BA.2]) is now the single dominant Variant of Concern (VOC). The high number of mutations in the Omicron Spike (S) protein promotes humoral immunological escape. Although a third homologous boost with S, derived from the ancestral strain, was able to increase neutralizing antibody titers and breadth including to Omicron, the magnitude of virus neutralization could benefit from further optimization. Moreover, combining SARS-COV-2 strains as additional valences may address the current antigenicity range occupied by VOCs. Using Trimer-TagTM platform we have previously demonstrated phase 3 efficacy and safety of a prototypic vaccine SCB-2019 in the SPECTRA trial and have submitted applications for licensure. Here, we successfully generated a bivalent vaccine candidate including both Ancestor and Omicron variant S-proteins. Preclinical studies demonstrate this SARS-CoV-2 bivalent S-Trimer subunit vaccine elicits high titers of neutralizing antibodies against all VOCs, with markedly enhanced Omicron specific neutralizing antibody responses.

Immunogenicity of SCB-2019 COVID-19 Vaccine Compared to Four Approved Vaccines (preprint)

A significant correlation has been shown between the binding antibody responses against original SARS-CoV-2-S-protein all performed in one laboratory and vaccine efficacy of four approved COVID-19 vaccines. We therefore assessed the immune response against original SARS-CoV-2 elicited by the adjuvanted S-Trimer vaccine, SCB-2019 + CpG/alum, in the same assay and laboratory. When compared with four approved vaccines immune responses to SCB-2019 predicted 81% − 94% efficacy against the original strain and 75–94% against the Alpha variant (B.1.1.7). Immunogenicity comparisons to original strain and variants of concern (VOC) should be considered as a basis for authorization of vaccines because efficacy studies now have predominantly VOC cases.

Broad neutralization against SARS-CoV-2 variants induced by a modified B.1.351 protein-based COVID-19 vaccine candidate (preprint)

Beginning in late 2020, the emergence and spread of multiple variant SARS-CoV-2 strains harboring mutations which may enable immune escape necessitates the rapid evaluation of second generation COVID-19 vaccines, with the goal of inducing optimized immune responses that are broadly protective. Here we demonstrate in a mouse immunogenicity study that two doses of a modified B.1.351 spike (S)-Trimer vaccine (B.1.351 S-Trimer) candidate can induce strong humoral immune responses that can broadly neutralize both the original SARS-CoV-2 strain (Wuhan-Hu-1) and Variants of Concern (VOCs), including the UK variant (B.1.1.7), South African variant (B.1.351) and Brazil variant (P.1). Furthermore, while immunization with two doses (prime-boost) of Prototype S-Trimer vaccine (based on the original SARS-CoV-2 strain) induced lower levels of cross-reactive neutralization against the B.1.351 variant, a third dose (booster) administered with either Prototype S-Trimer or B.1.351 S-Trimer was able to increase neutralizing antibody titers against B.1.351 to levels comparable to neutralizing antibody titers against the original strain elicited by two doses of Prototype S-Trimer.

A first-in-human evaluation of the safety and immunogenicity of SCB-2019, an adjuvanted, recombinant SARS-CoV-2 trimeric S-protein subunit vaccine for COVID-19 in healthy adults; a phase 1, randomised, double-blind, placebo-controlled trial (preprint)

BackgroundAs part of the accelerated development of prophylactic vaccines against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) we report a first-in-human dose-finding and adjuvant justification study of SCB-2019, a novel protein subunit vaccine candidate composed of a stabilised trimeric form of the spike (S)-protein produced in CHO-cells, combined with two different adjuvants. MethodsThis phase 1 study was done in one centre in Western Australia in 151 healthy adult volunteers in two age groups (18-54 and 55-75 years), allocated to 15 groups (nine young and six older adults) to receive two doses, 21 days apart, of placebo, or 3 g, 9 g or 30 g SCB-2019, alone or adjuvanted with AS03 or CpG/Alum. Reactogenicity was assessed for 7 days after each vaccination. Humoral responses were measured as SCB-2019 binding and ACE2-competitive binding IgG antibodies by ELISA, and as neutralising antibodies by wild-type SARS-CoV-2 microneutralisation assay; cellular responses to pooled S-protein peptides were measured by flow-cytometric intracellular cytokine staining. FindingsWe report on 148 participants with at least 4 weeks follow-up post dose 2. Three participants withdrew, two for personal reasons and one with an unrelated SAE (pituitary adenoma). Vaccination was well tolerated, with few Grade 3 solicited adverse events (AE). Most local AEs were mild injection site pain, which were more frequent with formulations containing AS03 than CpG/Alum or unadjuvanted SCB-2019. Systemic AEs, mostly transient headache, fatigue or myalgia, were more frequent in young adults than older adults after the first dose, but similar after second doses. Unadjuvanted SCB-2019 elicited minimal immune responses, but SCB-2019 with fixed doses of AS03 or CpG/Alum induced high titres and seroconversion rates of binding and neutralising antibodies in both young and older adults. Titres were higher than those observed in a panel of COVID-19 convalescent sera in all AS03 groups and high dose CpG/Alum groups. Both adjuvanted formulations elicited Th1-biased CD4+ T cell responses. InterpretationSCB-2019 trimeric protein formulated with AS03 or CpG/Alum adjuvants elicited robust humoral and cellular immune responses against SARS-CoV-2 with high viral neutralising activity. Both adjuvanted formulations were well tolerated and are suitable for further clinical development. Clinical trial registrationClinicalTrials.gov identifier NCT04405908.