Project description:Hybrid immunity (vaccination + natural infection) to SARS-CoV-2 provides superior protection to re-infection. We performed immune profiling studies during breakthrough infections in mRNA-vaccinated hamsters to evaluate hybrid immunity induction. Vaccine was dosed to induce binding antibody titers against ancestral spike, but not efficient virus neutralization of ancestral SARS-CoV-2 or variants of concern (VoCs). Vaccination reduced morbidity and controlled lung virus titers for ancestral virus and Alpha but allowed breakthrough infections in Beta, Delta and Mu-challenged hamsters. Vaccination primed for T cell responses that were boosted by infection. Infection back-boosted neutralizing antibody responses against ancestral virus and VoCs. Hybrid immunity resulted in more cross-reactive sera, reflected by smaller antigenic cartography distances. Transcriptomics post infection reflects both vaccination status and disease course, and suggests a role for interstitial macrophages in vaccine-mediated protection. Therefore, protection by vaccination, even in the absence of neutralizing antibodies, correlates with recall of broadly reactive B- and T-cell responses.

Project description:Unmodified rabies mRNA vaccine elicits high cross-neutralizing antibody titers and diverse B cell memory responses

Project description:The durability of vaccine-induced immune memory to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is crucial for preventing infection, especially severe disease. This follow-up report after homologous booster vaccination in a phase 1/2 study of S-268019-b (a recombinant spike protein vaccine) confirms the long-term safety, tolerability, and immunogenicity. Booster vaccination of S-268019-b resulted in an enhancement of serum neutralizing antibody (NAb) titers and a broad range of viral neutralization. Single-cell immune profiling revealed persistent and mature antigen-specific memory B cells and T follicular helper cells, with increased B-cell receptor diversity. The expansion of B- and T-cell repertoires and cross-reactive NAbs targeting conserved epitopes within the receptor-binding domain following a booster, accounted for the broad-spectrum neutralizing activity. These finding highlights the potential of S-268019-b to provide broad and robust protection against a range of SARS-CoV-2 variants, addressing a critical challenge in the ongoing fight against coronavirus disease 2019 (COVID-19).

Project description:LAIV and TIV are effective for prevention of influenza infection in children, but the mechanisms associated with protection are still not well defined. We analyzed the differences in B cell responses and transcriptional profiles. Compared to baseline, LAIV elicited a significant increase in naïve, memory and transitional B cells on day 30, while vaccination with TIV elicited an increase in number of plasmablasts on day 7. Antibody titers against the three vaccine strains (H1N1, H3N2 and B) were significantly higher in the TIV group and correlated with number of antibody-secreting cells. Regarding transcriptional profiles, both vaccines induced expression of interferon signaling, but at different time points, TIV on 1 day, and LAIV on day 7 day post-vaccination, the last only in children younger than 5 years old. Interferon-related genes over expressed in both vaccinated groups correlated with antibody titers of H3N2 vaccines strain. These results suggest that LAIV and TIV induced significant different B cell responses in vaccinated children. Early induction on interferon genes appears important for development of effective antibody responses.

Project description:Human papilloma (HPV) virus-like particle (VLP) vaccines were recently licensed. Though neutralizing antibody titers are thought to be the main effectors of protection against infection, early predictors of long-term efficacy are not yet defined and a comprehensive understanding of innate and adaptive immune responses to vaccination is still lacking. Here, microarrays were used to compare the gene expression signature in HPV-16 L1 VLP-stimulated PBMC from 17 vaccine and 4 placebo recipients before vaccination, and 1 month after receiving the second immunization. Vaccination with HPV-16 L1 VLP was associated with modulation of genes involved in the inflammatory/defense response, cytokine, interferon and cell cycle pathways in VLP-stimulated PBMC. In addition, there was up-regulation of probesets associated with cytotoxic (GZMB, TNFSF10) and regulatory (INDO, CTLA4) activities. The strongest correlations with neutralizing antibody titers were found for cyclin d2 (CCND2) and galectin (LGALS2). Twenty-two differentially expressed probesets were selected for confirmation by RT-PCR in an independent sample set. Agreement with the microarray data was seen for over two-thirds of these probesets. Up-regulation of immune/defense response genes by VLP, in particular interferon-induced genes was observed in PBMC collected prior to vaccination, with many of these genes being further induced following vaccination. In conclusion, we used gene expression profiling to identify important innate and adaptive response related- genes induced by vaccination with HPV VLP. Further studies are needed to identify gene expression signatures of immunogenicity and long-term protection with potential utility in prediction of long-term HPV vaccination outcomes in clinical trials. Experiment Overall Design: Microarrays (Affymetrix Human Focus) were used to compare the gene expression signature in PBMCs stimulated for 3 days with media alone, Sf9/baculovirus insect cell lysate, and HPV-16 L1 VLP expressed from baculovirus-infected Sf9 insect cells from 17 vaccine and 4 placebo recipients before vaccination, and 1 month after receiving the second immunization (2 months after the initial immunization. Post-vaccination baculovirus sample for Pt078 and pre-vaccination baculovirus sample for Pt082 failed QC.

Project description:Human papilloma (HPV) virus-like particle (VLP) vaccines were recently licensed. Though neutralizing antibody titers are thought to be the main effectors of protection against infection, early predictors of long-term efficacy are not yet defined and a comprehensive understanding of innate and adaptive immune responses to vaccination is still lacking. Here, microarrays were used to compare the gene expression signature in HPV-16 L1 VLP-stimulated PBMC from 17 vaccine and 4 placebo recipients before vaccination, and 1 month after receiving the second immunization. Vaccination with HPV-16 L1 VLP was associated with modulation of genes involved in the inflammatory/defense response, cytokine, interferon and cell cycle pathways in VLP-stimulated PBMC. In addition, there was up-regulation of probesets associated with cytotoxic (GZMB, TNFSF10) and regulatory (INDO, CTLA4) activities. The strongest correlations with neutralizing antibody titers were found for cyclin d2 (CCND2) and galectin (LGALS2). Twenty-two differentially expressed probesets were selected for confirmation by RT-PCR in an independent sample set. Agreement with the microarray data was seen for over two-thirds of these probesets. Up-regulation of immune/defense response genes by VLP, in particular interferon-induced genes was observed in PBMC collected prior to vaccination, with many of these genes being further induced following vaccination. In conclusion, we used gene expression profiling to identify important innate and adaptive response related- genes induced by vaccination with HPV VLP. Further studies are needed to identify gene expression signatures of immunogenicity and long-term protection with potential utility in prediction of long-term HPV vaccination outcomes in clinical trials. Keywords: Time course - pre and post HPV immunizaton

Project description:SARS-CoV-2 vaccines have been used worldwide to combat COVID-19 pandemic. To elucidate the factors that determine the longevity of spike (S)-specific antibodies, we traced the characteristics of S-specific T cell clonotypes together with their epitopes and anti-S antibody titers before and after BNT162b2 vaccination over time. T cell receptor (TCR) alpha/beta sequences and mRNA expression of the S-responded T cells were investigated using single-cell TCR- and RNA-sequencing. In donors exhibiting sustained anti-S antibody titers (designated as “sustainers”), S-reactive T cell clonotypes detected immediately after 2nd vaccination polarized to follicular helper T (Tfh) cells, which was less obvious in “decliners”. Even before vaccination, S-reactive CD4+ T cell clonotypes did exist, most of which cross-reacted with environmental or symbiotic bacteria. However, these clonotypes contracted after vaccination. Conversely, S-reactive clonotypes dominated after vaccination were undetectable in pre-vaccinated T cell pool, suggesting that highly-responding S-reactive T cells were established by vaccination from rare clonotypes. These results suggest that de novo acquisition of memory Tfh cells upon vaccination contributes to the longevity of anti-S antibody titers.

Project description:Antibody response following Omicron infection is reported to be less robust than that to other variants. Here we investigated how prior vaccination and/or prior infection modulates that response. Disease severity, antibody responses and immune transcriptomes were characterized in four groups of Omicron-infected outpatients (n=83): unvaccinated/no prior infection, vaccinated/no prior infection, unvaccinated/prior infection and vaccinated/prior infection. The percentage of patients with asymptomatic or mild disease was highest in the vaccinated/no prior infection group (87%) and lowest in the unvaccinated/no prior infection group (47%). Significant anti-Omicron spike antibody levels and neutralizing activity were detected in the vaccinated group immediately after infection but were not present in the unvaccinated/no prior infection group. Within two weeks, antibody levels against Omicron, increased. Omicron neutralizing activity in the vaccinated group exceeded that of the prior infection group. No increase in neutralizing activity in the unvaccinated/no prior infection group was seen. The unvaccinated/prior infection group showed an intermediate response. We then investigated the early transcriptomic response following Omicron infection in these outpatient populations and compared it to that found in unvaccinated hospitalized patients with Alpha infection. Omicron infected patients showed a gradient of transcriptional response dependent upon whether or not they were previously vaccinated or infected. Vaccinated patients showed a significantly blunted interferon response as compared to both unvaccinated Omicron infected outpatients and unvaccinated Alpha infected hospitalized patients typified by the response of specific gene classes such as OAS and IFIT that control anti-viral responses and IFI27, a predictor of disease outcome.

Project description:AS04 drives superior cross-protective antibody response by increased NOTCH signaling of Dendritic Cells and proliferation of memory B cells

Project description:The primary aim of this study was to characterize the transcriptomic differences between individuals with different follow-up geometric mean neutralizing antibody titers at one month