Microbiology & Immunology - Research Publications
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ItemIntegrated immune networks in SARS-CoV-2 infected pregnant women reveal differential NK cell and unconventional T cell activation( 2021)Although pregnancy poses a greater risk for severe COVID-19, the underlying immunological changes associated with SARS-CoV-2 infection during pregnancy are poorly understood. We defined immune responses to SARS-CoV-2 in pregnant and non-pregnant women during acute and convalescent COVID-19 up to 258 days post symptom onset, quantifying 217 immunological parameters. Additionally, matched maternal and cord blood were collected from COVID-19 convalescent pregnancies. Although serological responses to SARS-CoV-2 were similar in pregnant and non-pregnant women, cellular immune analyses revealed marked differences in key NK cell and unconventional T cell responses during COVID-19 in pregnant women. While NK, γδ T cells and MAIT cells displayed pre-activated phenotypes in healthy pregnant women when compared to non-pregnant age-matched women, activation profiles of these pre-activated NK and unconventional T cells remained unchanged at acute and convalescent COVID-19 in pregnancy. Conversely, activation dynamics of NK and unconventional T cells were prototypical in non-pregnant women in COVID-19. In contrast, activation of αβ CD4 + and CD8 + T cells, T follicular helper cells and antibody-secreting cells was similar in pregnant and non-pregnant women with COVID-19. Elevated levels of IL-1β, IFN-γ, IL-8, IL-18 and IL-33 were also found in pregnant women in their healthy state, and these cytokine levels remained elevated during acute and convalescent COVID-19. Collectively, our study provides the first comprehensive map of longitudinal immunological responses to SARS-CoV-2 infection in pregnant women, providing insights into patient management and education during COVID-19 pregnancy.
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ItemImmune responses to SARS-CoV-2 in children of parents with symptomatic COVID-19( 2020)Compared to adults, children with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have mild or asymptomatic infection, but the underlying immunological differences remain unclear. We describe clinical features, virology, longitudinal cellular and cytokine immune profile, SARS-CoV-2-specific serology and salivary antibody responses in a family of two parents with PCR-confirmed symptomatic SARS-CoV-2 infection and their three children, who were repeatedly SARS-CoV-2 PCR negative. Cellular immune profiles and cytokine responses of all children were similar to their parents at all timepoints. All family members had salivary anti-SARS-CoV-2 antibodies detected, predominantly IgA, that coincided with symptom resolution in 3 of 4 symptomatic members. Plasma from both parents and one child had IgG antibody detected against the S1 protein and virus neutralising activity ranging from just detectable to robust titers. Using a systems serology approach, we show that all family members demonstrated higher levels of SARS-CoV-2-specific antibody features than healthy controls. These data indicate that children can mount an immune response to SARS-CoV-2 without virological evidence of infection. This raises the possibility that despite chronic exposure, immunity in children prevents establishment of SARS-CoV-2 infection. Relying on routine virological and serological testing may therefore not identify exposed children, with implications for epidemiological and clinical studies across the life-span.
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ItemAltered microRNA expression in COVID-19 patients enables identification of SARS-CoV-2 infection( 2021)The host response to SARS-CoV-2 infection provide insights into both viral pathogenesis and patient management. The host-encoded microRNA (miRNA) response to SARS-CoV-2 infection, however, remains poorly defined. Here we profiled circulating miRNAs from ten COVID-19 patients sampled longitudinally and ten age and gender matched healthy donors. We observed 55 miRNAs that were altered in COVID-19 patients during early-stage disease, with the inflammatory miR-31-5p the most strongly upregulated. Supervised machine learning analysis revealed that a three-miRNA signature (miR-423-5p, miR-23a-3p and miR-195-5p) independently classified COVID-19 cases with an accuracy of 99.9%. In a ferret COVID-19 model, the three-miRNA signature again detected SARS-CoV-2 infection with 99.7% accuracy, and distinguished SARS-CoV-2 infection from influenza A (H1N1) infection and healthy controls with 95% accuracy. Distinct miRNA profiles were also observed in COVID-19 patients requiring oxygenation. This study demonstrates that SARS-CoV-2 infection induces a robust host miRNA response that could improve COVID-19 detection and patient management
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ItemHigh expression of CD38 and MHC class II on CD8+T cells during severe influenza disease reflects bystander activation and trogocytosis( 2021)Although co-expression of CD38 and HLA-DR on CD8 + T cells reflects activation during influenza, SARS-CoV-2, Dengue, Ebola and HIV-1 viral infections, high and prolonged CD38 + HLA-DR + expression can be associated with severe and fatal disease outcomes. As the expression of CD38 + HLA-DR + is poorly understood, we used mouse models of influenza A/H7N9, A/H3N2 and A/H1N1 infection to investigate the mechanisms underpinning CD38 + MHC-II + phenotype on CD8 + T-cells. Our analysis of influenza-specific immunodominant D b NP 366 +CD8 + T-cell responses showed that CD38 + MHC-II + co-expression was detected on both virus-specific and bystander CD8 + T-cells, with increased numbers of both CD38 + MHC-II + CD8 + T-cell populations observed in the respiratory tract during severe infection. To understand the mechanisms underlying CD38 and MHC-II expression, we also used adoptively-transferred transgenic OT-I CD8 + T-cells recognising the ovalbumin-derived K b SIINFEKL epitope and A/H1N1-SIINKEKL infection. Strikingly, we found that OT-I cells adoptively-transferred into MHC-II −/− mice did not display MHC-II after influenza virus infection, suggesting that MHC-II was acquired via trogocytosis in wild-type mice. Additionally, detection of CD19 on CD38 + MHC II + OT-I cells further supports that MHC-II was acquired by trogocytosis, at least partially, sourced from B-cells. Our results also revealed that co-expression of CD38 + MHC II + on CD8 + T-cells was needed for the optimal recall ability following secondary viral challenge. Overall, our study provides evidence that both virus-specific and bystander CD38 + MHC-II + CD8 + T-cells are recruited to the site of infection during severe disease, and that MHC-II expression occurs via trogocytosis from antigen-presenting cells. Our findings also highlight the importance of the CD38 + MHC II + phenotype for CD8 + T-cell memory establishment and recall.
Summary
Co-expression of CD38 and MHC-II on CD8 + T cells is recognized as a classical hallmark of activation during viral infections. High and prolonged CD38 + HLA-DR + expression, however, can be associated with severe disease outcomes and the mechanisms are unclear. Using our established influenza wild-type and transgenic mouse models, we determined how disease severity affected the activation of influenza-specific CD38 + MHC-II + CD8 + T cell responses in vivo and the antigenic determinants that drive their activation and expansion. Overall, our study provides evidence that both virus-specific and bystander CD38 + MHC-II + CD8 + T-cells are recruited to the site of infection during severe disease, and that MHC-II expression occurs, at least in part, via trogocytosis from antigen-presenting cells. Our findings also highlight the importance of the CD38 + MHC II + phenotype for CD8 + T-cell memory establishment and recall. -
ItemDistinct systems serology features in children, elderly and COVID patients( 2020)SARS-CoV-2, the pandemic coronavirus that causes COVID-19, has infected millions worldwide, causing unparalleled social and economic disruptions. COVID-19 results in higher pathogenicity and mortality in the elderly compared to children. Examining baseline SARS-CoV-2 cross-reactive coronavirus immunological responses, induced by circulating human coronaviruses, is critical to understand such divergent clinical outcomes. The cross-reactivity of coronavirus antibody responses of healthy children (n=89), adults (n=98), elderly (n=57), and COVID-19 patients (n=19) were analysed by systems serology. While moderate levels of cross-reactive SARS-CoV-2 IgG, IgM, and IgA were detected in healthy individuals, we identified serological signatures associated with SARS-CoV-2 antigen-specific Fcγ receptor binding, which accurately distinguished COVID-19 patients from healthy individuals and suggested that SARS-CoV-2 induces qualitative changes to antibody Fc upon infection, enhancing Fcγ receptor engagement. Vastly different serological signatures were observed between healthy children and elderly, with markedly higher cross-reactive SARS-CoV-2 IgA and IgG observed in elderly, whereas children displayed elevated SARS-CoV-2 IgM, including receptor binding domain-specific IgM with higher avidity. These results suggest that less-experienced humoral immunity associated with higher IgM, as observed in children, may have the potential to induce more potent antibodies upon SARS-CoV-2 infection. These key insights will inform COVID-19 vaccination strategies, improved serological diagnostics and therapeutics.
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ItemBreadth of concomitant immune responses underpinning viral clearance and patient recovery in a non-severe case of COVID-19( 2020)We report the kinetics of the immune response in relation to clinical and virological features of a patient with mild-to-moderate coronavirus disease-19 (COVID-19) requiring hospitalisation. Increased antibody-secreting cells, follicular T-helper cells, activated CD4 + and CD8 + T-cells and IgM/IgG SARS-CoV-2-binding antibodies were detected in blood, prior to symptomatic recovery. These immunological changes persisted for at least 7 days following full resolution of symptoms, indicating substantial anti-viral immunity in this non-severe COVID-19.