Your search keyword '"Koutsakos, M"' showing total 98 results

1. Durable reprogramming of neutralizing antibody responses following Omicron breakthrough infection

Author

Lee, WS, Tan, H-X, Reynaldi, A, Esterbauer, R, Koutsakos, M, Nguyen, J, Amarasena, T, Kent, HE, Aggarwal, A, Turville, SG, Taiaroa, G, Kinsella, P, Liew, KC, Tran, T, Williamson, DA, Cromer, D, Davenport, MP, Kent, SJ, Juno, JA, Khoury, DS, Wheatley, AK, Lee, WS, Tan, H-X, Reynaldi, A, Esterbauer, R, Koutsakos, M, Nguyen, J, Amarasena, T, Kent, HE, Aggarwal, A, Turville, SG, Taiaroa, G, Kinsella, P, Liew, KC, Tran, T, Williamson, DA, Cromer, D, Davenport, MP, Kent, SJ, Juno, JA, Khoury, DS, and Wheatley, AK

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) breakthrough infection of vaccinated individuals is increasingly common with the circulation of highly immune evasive and transmissible Omicron variants. Here, we report the dynamics and durability of recalled spike-specific humoral immunity following Omicron BA.1 or BA.2 breakthrough infection, with longitudinal sampling up to 8 months after infection. Both BA.1 and BA.2 infections robustly boosted neutralization activity against the infecting strain while expanding breadth against BA.4, although neutralization activity was substantially reduced for the more recent XBB and BQ.1.1 strains. Cross-reactive memory B cells against both ancestral and Omicron spike were predominantly expanded by infection, with limited recruitment of de novo Omicron-specific B cells or antibodies. Modeling of neutralization titers predicts that protection from symptomatic reinfection against antigenically similar strains will be durable but is undermined by new emerging strains with further neutralization escape.

Published

2023

2. Robust immunity to influenza vaccination in haematopoietic stem cell transplant recipients following reconstitution of humoral and adaptive immunity

Author

Zhang, W, Rowntree, LC, Muttucumaru, R, Damelang, T, Aban, M, Hurt, AC, Auladell, M, Esterbauer, R, Wines, B, Hogarth, M, Turner, SJ, Wheatley, AK, Kent, SJ, Patil, S, Avery, S, Morrissey, O, Chung, AW, Koutsakos, M, Nguyen, THO, Cheng, AC, Kotsimbos, TC, Kedzierska, K, Zhang, W, Rowntree, LC, Muttucumaru, R, Damelang, T, Aban, M, Hurt, AC, Auladell, M, Esterbauer, R, Wines, B, Hogarth, M, Turner, SJ, Wheatley, AK, Kent, SJ, Patil, S, Avery, S, Morrissey, O, Chung, AW, Koutsakos, M, Nguyen, THO, Cheng, AC, Kotsimbos, TC, and Kedzierska, K

Abstract

OBJECTIVES: Influenza causes significant morbidity and mortality, especially in high-risk populations. Although current vaccination regimens are the best method to combat annual influenza disease, vaccine efficacy can be low in high-risk groups, such as haematopoietic stem cell transplant (HSCT) recipients. METHODS: We comprehensively assessed humoral immunity, antibody landscapes, systems serology and influenza-specific B-cell responses, together with their phenotypes and isotypes, to the inactivated influenza vaccine (IIV) in HSCT recipients in comparison to healthy controls. RESULTS: Inactivated influenza vaccine significantly increased haemagglutination inhibition (HAI) titres in HSCT recipients, similar to healthy controls. Systems serology revealed increased IgG1 and IgG3 antibody levels towards the haemagglutinin (HA) head, but not to neuraminidase, nucleoprotein or HA stem. IIV also increased frequencies of total, IgG class-switched and CD21loCD27+ influenza-specific B cells, determined by HA probes and flow cytometry. Strikingly, 40% of HSCT recipients had markedly higher antibody responses towards A/H3N2 vaccine strain than healthy controls and showed cross-reactivity to antigenically drifted A/H3N2 strains by antibody landscape analysis. These superior humoral responses were associated with a greater time interval after HSCT, while multivariant analyses revealed the importance of pre-existing immune memory. Conversely, in HSCT recipients who did not respond to the first dose, the second IIV dose did not greatly improve their humoral response, although 50% of second-dose patients reached a seroprotective HAI titre for at least one of vaccine strains. CONCLUSIONS: Our study demonstrates efficient, although time-dependent, immune responses to IIV in HSCT recipients, and provides insights into influenza vaccination strategies targeted to immunocompromised high-risk groups.

Published

2023

3. SARS-CoV-2 breakthrough infection induces rapid memory and de novo T cell responses

Author

Koutsakos, M, Reynaldi, A, Lee, WS, Nguyen, J, Amarasena, T, Taiaroa, G, Kinsella, P, Liew, KC, Tran, T, Kent, HE, Tan, H-X, Rowntree, LC, Nguyen, THO, Thomas, PG, Kedzierska, K, Petersen, J, Rossjohn, J, Williamson, DA, Khoury, D, Davenport, MP, Kent, SJ, Wheatley, AK, Juno, JA, Koutsakos, M, Reynaldi, A, Lee, WS, Nguyen, J, Amarasena, T, Taiaroa, G, Kinsella, P, Liew, KC, Tran, T, Kent, HE, Tan, H-X, Rowntree, LC, Nguyen, THO, Thomas, PG, Kedzierska, K, Petersen, J, Rossjohn, J, Williamson, DA, Khoury, D, Davenport, MP, Kent, SJ, Wheatley, AK, and Juno, JA

Abstract

Although the protective role of neutralizing antibodies against COVID-19 is well established, questions remain about the relative importance of cellular immunity. Using 6 pMHC multimers in a cohort with early and frequent sampling, we define the phenotype and kinetics of recalled and primary T cell responses following Delta or Omicron breakthrough infection in previously vaccinated individuals. Recall of spike-specific CD4+ T cells was rapid, with cellular proliferation and extensive activation evident as early as 1 day post symptom onset. Similarly, spike-specific CD8+ T cells were rapidly activated but showed variable degrees of expansion. The frequency of activated SARS-CoV-2-specific CD8+ T cells at baseline and peak inversely correlated with peak SARS-CoV-2 RNA levels in nasal swabs and accelerated viral clearance. Our study demonstrates that a rapid and extensive recall of memory T cell populations occurs early after breakthrough infection and suggests that CD8+ T cells contribute to the control of viral replication in breakthrough SARS-CoV-2 infections.

Published

2023

4. Special Issue-Immunity to Influenza Viruses

Author

Koutsakos, M, Valkenburg, SA, Koutsakos, M, and Valkenburg, SA

Abstract

Influenza viruses remain a constant global threat with significant health and socioeconomic impact every year and have the potential to cause devastating pandemics [...].

Published

2022

5. T follicular helper cells in the humoral immune response to SARS-CoV-2 infection and vaccination

Author

Koutsakos, M, Lee, WS, Wheatley, AK, Kent, SJ, Juno, JA, Koutsakos, M, Lee, WS, Wheatley, AK, Kent, SJ, and Juno, JA

Abstract

Vaccination remains the most effective mechanism to reduce the impact of COVID-19. Induction of neutralizing antibodies is a strong correlate of protection from infection and severe disease. An understanding of the cellular events that underpin the generation of effective neutralizing antibodies is therefore key to the development of efficacious vaccines that target emerging variants of concern. Analysis of the immune response to Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) infection and vaccination has identified circulating T follicular helper cells (cTFH ) as a robust correlate of the neutralizing antibody response. Here, we discuss the analysis of cTFH cells and their lymphoid counterparts in human humoral immune responses during COVID-19, and in response to vaccination with SARS-CoV-2 spike. We discuss the phenotypic heterogeneity of cTFH cells and the utility of cTFH subsets as informative biomarkers for development of humoral immunity. We posit that the analysis of the most effective cTFH will be critical to inducing durable immunity to new variants of SARS-CoV-2.

Published

2022

6. The magnitude and timing of recalled immunity after breakthrough infection is shaped by SARS-CoV-2 variants

Author

Koutsakos, M, Lee, WS, Reynaldi, A, Tan, H-X, Gare, G, Kinsella, P, Liew, KC, Taiaroa, G, Williamson, DA, Kent, HE, Stadler, E, Cromer, D, Khoury, DS, Wheatley, AK, Juno, JA, Davenport, MP, Kent, SJ, Koutsakos, M, Lee, WS, Reynaldi, A, Tan, H-X, Gare, G, Kinsella, P, Liew, KC, Taiaroa, G, Williamson, DA, Kent, HE, Stadler, E, Cromer, D, Khoury, DS, Wheatley, AK, Juno, JA, Davenport, MP, and Kent, SJ

Abstract

Vaccination against SARS-CoV-2 protects from infection and improves clinical outcomes in breakthrough infections, likely reflecting residual vaccine-elicited immunity and recall of immunological memory. Here, we define the early kinetics of spike-specific humoral and cellular immunity after vaccination of seropositive individuals and after Delta or Omicron breakthrough infection in vaccinated individuals. Early longitudinal sampling revealed the timing and magnitude of recall, with the phenotypic activation of B cells preceding an increase in neutralizing antibody titers. While vaccination of seropositive individuals resulted in robust recall of humoral and T cell immunity, recall of vaccine-elicited responses was delayed and variable in magnitude during breakthrough infections and depended on the infecting variant of concern. While the delayed kinetics of immune recall provides a potential mechanism for the lack of early control of viral replication, the recall of antibodies coincided with viral clearance and likely underpins the protective effects of vaccination against severe COVID-19.

Published

2022

7. SATB1 ensures appropriate transcriptional programs within naive CD8+ T cells

Author

Nussing, S, Miosge, LA, Lee, K, Olshansky, M, Barugahare, A, Roots, CM, Sontani, Y, Day, EB, Koutsakos, M, Kedzierska, K, Goodnow, CC, Russ, BE, Daley, SR, Turner, SJ, Nussing, S, Miosge, LA, Lee, K, Olshansky, M, Barugahare, A, Roots, CM, Sontani, Y, Day, EB, Koutsakos, M, Kedzierska, K, Goodnow, CC, Russ, BE, Daley, SR, and Turner, SJ

Abstract

Special AT-binding protein 1 (SATB1) is a chromatin-binding protein that has been shown to be a key regulator of T-cell development and CD4+ T-cell fate decisions and function. The underlying function for SATB1 in peripheral CD8+ T-cell differentiation processes is largely unknown. To address this, we examined SATB1-binding patterns in naïve and effector CD8+ T cells demonstrating that SATB1 binds to noncoding regulatory elements linked to T-cell lineage-specific gene programs, particularly in naïve CD8+ T cells. We then assessed SATB1 function using N-ethyl-N-nitrosourea-mutant mice that exhibit a point mutation in the SATB1 DNA-binding domain (termed Satb1m1Anu/m1Anu ). Satb1m1Anu/m1Anu mice exhibit diminished SATB1-binding, naïve, Satb1m1Anu/m1Anu CD8+ T cells exhibiting transcriptional and phenotypic characteristics reminiscent of effector T cells. Upon activation, the transcriptional signatures of Satb1m1Anu/m1Anu and wild-type effector CD8+ T cells converged. While there were no overt differences, primary respiratory infection of Satb1m1Anu/m1Anu mice with influenza A virus (IAV) resulted in a decreased proportion and number of IAV-specific CD8+ effector T cells recruited to the infected lung when compared with wild-type mice. Together, these data suggest that SATB1 has a major role in an appropriate transcriptional state within naïve CD8+ T cells and ensures appropriate CD8+ T-cell effector gene expression upon activation.

Published

2022

8. Evaluation of Human Circulating T Follicular Helper Cells in Influenza- and SARS-CoV-2-Specific B Cell Immunity.

Author

Koutsakos, M, Kedzierska, K, Nguyen, THO, Koutsakos, M, Kedzierska, K, and Nguyen, THO

Abstract

Generation of effective immune protection against viral infection and vaccination depends greatly on a successful engagement and stimulation of adaptive immune B cells and a specialized CD4+ T cell subset called T follicular helper cells (TFH cells). Since TFH cells primarily reside in lymphoid tissues, they can be challenging to study in human settings. However, a counterpart of these cells, circulating TFH (cTFH) cells, can be detected in peripheral blood. Assessment of cTFH cells serves as an informative marker of humoral responses following viral infection and vaccination and can be predictive of antibody titers. Here, we describe a comprehensive flow cytometry detection method for dissecting cTFH subsets and activation, together with the assessment of antibody-secreting cells (ASCs), from a small volume of human whole blood. This approach allows the investigation of cellular events that underpin successful immune responses following influenza and SARS-CoV-2 infection/vaccination in humans and is applicable to other viral disease settings.

Published

2022

9. Establishment and recall of SARS-CoV-2 spike epitope-specific CD4+ T cell memory

Author

Wragg, KM, Lee, WS, Koutsakos, M, Tan, H-X, Amarasena, T, Reynaldi, A, Gare, G, Konstandopoulos, P, Field, KR, Esterbauer, R, Kent, HE, Davenport, MP, Wheatley, AK, Kent, SJ, Juno, JA, Wragg, KM, Lee, WS, Koutsakos, M, Tan, H-X, Amarasena, T, Reynaldi, A, Gare, G, Konstandopoulos, P, Field, KR, Esterbauer, R, Kent, HE, Davenport, MP, Wheatley, AK, Kent, SJ, and Juno, JA

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection and vaccination elicit CD4+ T cell responses to the spike protein, including circulating follicular helper T (cTFH) cells that correlate with neutralizing antibodies. Using a novel HLA-DRB1*15:01/S751 tetramer to track spike-specific CD4+ T cells, we show that primary infection or vaccination induces robust S751-specific CXCR5- and cTFH cell memory responses. Secondary exposure induced recall of CD4+ T cells with a transitory CXCR3+ phenotype, and drove expansion of cTFH cells transiently expressing ICOS, CD38 and PD-1. In both contexts, cells exhibited a restricted T cell antigen receptor repertoire, including a highly public clonotype and considerable clonotypic overlap between CXCR5- and cTFH populations. Following a third vaccine dose, the rapid re-expansion of spike-specific CD4+ T cells contrasted with the comparatively delayed increase in antibody titers. Overall, we demonstrate that stable pools of cTFH and memory CD4+ T cells established by infection and/or vaccination are efficiently recalled upon antigen reexposure and may contribute to long-term protection against SARS-CoV-2.

Published

2022

10. Integrated immune dynamics define correlates of COVID-19 severity and antibody responses

Author

Koutsakos, M, Rowntree, LC, Hensen, L, Chua, BY, van de Sandt, CE, Habel, JR, Zhang, W, Jia, X, Kedzierski, L, Ashhurst, TM, Putri, GH, Marsh-Wakefield, F, Read, MN, Edwards, DN, Clemens, EB, Wong, CY, Mordant, FL, Juno, JA, Amanat, F, Audsley, J, Holmes, NE, Gordon, CL, Smibert, OC, Trubiano, JA, Hughes, CM, Catton, M, Denholm, JT, Tong, SYC, Doolan, DL, Kotsimbos, TC, Jackson, DC, Krammer, F, Godfrey, D, Chung, AW, King, NJC, Lewin, SR, Wheatley, AK, Kent, SJ, Subbarao, K, McMahon, J, Thevarajan, I, Thi, HON, Cheng, AC, Kedzierska, K, Koutsakos, M, Rowntree, LC, Hensen, L, Chua, BY, van de Sandt, CE, Habel, JR, Zhang, W, Jia, X, Kedzierski, L, Ashhurst, TM, Putri, GH, Marsh-Wakefield, F, Read, MN, Edwards, DN, Clemens, EB, Wong, CY, Mordant, FL, Juno, JA, Amanat, F, Audsley, J, Holmes, NE, Gordon, CL, Smibert, OC, Trubiano, JA, Hughes, CM, Catton, M, Denholm, JT, Tong, SYC, Doolan, DL, Kotsimbos, TC, Jackson, DC, Krammer, F, Godfrey, D, Chung, AW, King, NJC, Lewin, SR, Wheatley, AK, Kent, SJ, Subbarao, K, McMahon, J, Thevarajan, I, Thi, HON, Cheng, AC, and Kedzierska, K

Abstract

SARS-CoV-2 causes a spectrum of COVID-19 disease, the immunological basis of which remains ill defined. We analyzed 85 SARS-CoV-2-infected individuals at acute and/or convalescent time points, up to 102 days after symptom onset, quantifying 184 immunological parameters. Acute COVID-19 presented with high levels of IL-6, IL-18, and IL-10 and broad activation marked by the upregulation of CD38 on innate and adaptive lymphocytes and myeloid cells. Importantly, activated CXCR3+cTFH1 cells in acute COVID-19 significantly correlate with and predict antibody levels and their avidity at convalescence as well as acute neutralization activity. Strikingly, intensive care unit (ICU) patients with severe COVID-19 display higher levels of soluble IL-6, IL-6R, and IL-18, and hyperactivation of innate, adaptive, and myeloid compartments than patients with moderate disease. Our analyses provide a comprehensive map of longitudinal immunological responses in COVID-19 patients and integrate key cellular pathways of complex immune networks underpinning severe COVID-19, providing important insights into potential biomarkers and immunotherapies.

Published

2021

11. CD8+ T cell landscape in Indigenous and non-Indigenous people restricted by influenza mortality-associated HLA-A*24:02 allomorph

Author

Hensen, L, Illing, PT, Bridie Clemens, E, Nguyen, THO, Koutsakos, M, van de Sandt, CE, Mifsud, NA, Nguyen, AT, Szeto, C, Chua, BY, Halim, H, Rizzetto, S, Luciani, F, Loh, L, Grant, EJ, Saunders, PM, Brooks, AG, Rockman, S, Kotsimbos, TC, Cheng, AC, Richards, M, Westall, GP, Wakim, LM, Loudovaris, T, Mannering, SI, Elliott, M, Tangye, SG, Jackson, DC, Flanagan, KL, Rossjohn, J, Gras, S, Davies, J, Miller, A, Tong, SYC, Purcell, AW, Kedzierska, K, Hensen, L, Illing, PT, Bridie Clemens, E, Nguyen, THO, Koutsakos, M, van de Sandt, CE, Mifsud, NA, Nguyen, AT, Szeto, C, Chua, BY, Halim, H, Rizzetto, S, Luciani, F, Loh, L, Grant, EJ, Saunders, PM, Brooks, AG, Rockman, S, Kotsimbos, TC, Cheng, AC, Richards, M, Westall, GP, Wakim, LM, Loudovaris, T, Mannering, SI, Elliott, M, Tangye, SG, Jackson, DC, Flanagan, KL, Rossjohn, J, Gras, S, Davies, J, Miller, A, Tong, SYC, Purcell, AW, and Kedzierska, K

Abstract

Indigenous people worldwide are at high risk of developing severe influenza disease. HLA-A*24:02 allele, highly prevalent in Indigenous populations, is associated with influenza-induced mortality, although the basis for this association is unclear. Here, we define CD8+ T-cell immune landscapes against influenza A (IAV) and B (IBV) viruses in HLA-A*24:02-expressing Indigenous and non-Indigenous individuals, human tissues, influenza-infected patients and HLA-A*24:02-transgenic mice. We identify immunodominant protective CD8+ T-cell epitopes, one towards IAV and six towards IBV, with A24/PB2550-558-specific CD8+ T cells being cross-reactive between IAV and IBV. Memory CD8+ T cells towards these specificities are present in blood (CD27+CD45RA- phenotype) and tissues (CD103+CD69+ phenotype) of healthy individuals, and effector CD27-CD45RA-PD-1+CD38+CD8+ T cells in IAV/IBV patients. Our data show influenza-specific CD8+ T-cell responses in Indigenous Australians, and advocate for T-cell-mediated vaccines that target and boost the breadth of IAV/IBV-specific CD8+ T cells to protect high-risk HLA-A*24:02-expressing Indigenous and non-Indigenous populations from severe influenza disease.

Published

2021

12. The rise and fall of bone marrow plasma cells after influenza vaccination

Author

Koutsakos, M, Ellebedy, AH, Koutsakos, M, and Ellebedy, AH

Abstract

A recent report by Davis et al. shows that following vaccination, B-cell activation results in the emergence of a population of antibody-secreting cells (plasmablasts - PBs) in blood and a population of plasma cells (PCs) in the bone marrow, which likely originate from the day 7 PBs. However, these newly arrived PCs do not become long-lived and their abundance decreases by 1 year post-vaccination.

Published

2021

13. Robust correlations across six SARS-CoV-2 serology assays detecting distinct antibody features

Author

Rowntree, LC, Chua, BY, Nicholson, S, Koutsakos, M, Hensen, L, Douros, C, Selva, K, Mordant, FL, Wong, CY, Habel, JR, Zhang, W, Jia, X, Allen, L, Doolan, DL, Jackson, DC, Wheatley, AK, Kent, SJ, Amanat, F, Krammer, F, Subbarao, K, Cheng, AC, Chung, AW, Catton, M, Nguyen, THO, van de Sandt, CE, Kedzierska, K, Rowntree, LC, Chua, BY, Nicholson, S, Koutsakos, M, Hensen, L, Douros, C, Selva, K, Mordant, FL, Wong, CY, Habel, JR, Zhang, W, Jia, X, Allen, L, Doolan, DL, Jackson, DC, Wheatley, AK, Kent, SJ, Amanat, F, Krammer, F, Subbarao, K, Cheng, AC, Chung, AW, Catton, M, Nguyen, THO, van de Sandt, CE, and Kedzierska, K

Abstract

OBJECTIVES: As the world transitions into a new era of the COVID-19 pandemic in which vaccines become available, there is an increasing demand for rapid reliable serological testing to identify individuals with levels of immunity considered protective by infection or vaccination. METHODS: We used 34 SARS-CoV-2 samples to perform a rapid surrogate virus neutralisation test (sVNT), applicable to many laboratories as it circumvents the need for biosafety level-3 containment. We correlated results from the sVNT with five additional commonly used SARS-CoV-2 serology techniques: the microneutralisation test (MNT), in-house ELISAs, commercial Euroimmun- and Wantai-based ELISAs (RBD, spike and nucleoprotein; IgG, IgA and IgM), antigen-binding avidity, and high-throughput multiplex analyses to profile isotype, subclass and Fc effector binding potential. We correlated antibody levels with antibody-secreting cell (ASC) and circulatory T follicular helper (cTfh) cell numbers. RESULTS: Antibody data obtained with commercial ELISAs closely reflected results using in-house ELISAs against RBD and spike. A correlation matrix across ten measured ELISA parameters revealed positive correlations for all factors. The frequency of inhibition by rapid sVNT strongly correlated with spike-specific IgG and IgA titres detected by both commercial and in-house ELISAs, and MNT titres. Multiplex analyses revealed strongest correlations between IgG, IgG1, FcR and C1q specific to spike and RBD. Acute cTfh-type 1 cell numbers correlated with spike and RBD-specific IgG antibodies measured by ELISAs and sVNT. CONCLUSION: Our comprehensive analyses provide important insights into SARS-CoV-2 humoral immunity across distinct serology assays and their applicability for specific research and/or diagnostic questions to assess SARS-CoV-2-specific humoral responses.

Published

2021

14. High expression of CD38 and MHC class II on CD8+T cells during severe influenza disease reflects bystander activation and trogocytosis

Author

Jia, X, Chua, B, Loh, L, Koutsakos, M, Kedzierski, L, Olshanski, M, Heath, W, Xu, J, Wang, Z, Kedzierska, K, Jia, X, Chua, B, Loh, L, Koutsakos, M, Kedzierski, L, Olshanski, M, Heath, W, Xu, J, Wang, Z, and Kedzierska, K

Abstract

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 recogniz

Published

2021

15. Robust and prototypical immune responses toward influenza vaccines in the high-risk group of Indigenous Australians

Author

Hensen, L, Nguyen, THO, Rowntree, LC, Damelang, T, Koutsakos, M, Aban, M, Hurt, A, Harland, KL, Auladell, M, van de Sandt, CE, Everitt, A, Blacker, C, Oyong, DA, Loughland, JR, Webb, JR, Wines, BD, Hogarth, PM, Flanagan, KL, Plebanski, M, Wheatley, A, Chung, AW, Kent, SJ, Miller, A, Clemens, EB, Doherty, PC, Nelson, J, Davies, J, Tong, SYC, Kedzierska, K, Hensen, L, Nguyen, THO, Rowntree, LC, Damelang, T, Koutsakos, M, Aban, M, Hurt, A, Harland, KL, Auladell, M, van de Sandt, CE, Everitt, A, Blacker, C, Oyong, DA, Loughland, JR, Webb, JR, Wines, BD, Hogarth, PM, Flanagan, KL, Plebanski, M, Wheatley, A, Chung, AW, Kent, SJ, Miller, A, Clemens, EB, Doherty, PC, Nelson, J, Davies, J, Tong, SYC, and Kedzierska, K

Abstract

Morbidity and mortality rates from seasonal and pandemic influenza occur disproportionately in high-risk groups, including Indigenous people globally. Although vaccination against influenza is recommended for those most at risk, studies on immune responses elicited by seasonal vaccines in Indigenous populations are largely missing, with no data available for Indigenous Australians and only one report published on antibody responses in Indigenous Canadians. We recruited 78 Indigenous and 84 non-Indigenous Australians vaccinated with the quadrivalent influenza vaccine into the Looking into InFluenza T cell immunity - Vaccination cohort study and collected blood to define baseline, early (day 7), and memory (day 28) immune responses. We performed in-depth analyses of T and B cell activation, formation of memory B cells, and antibody profiles and investigated host factors that could contribute to vaccine responses. We found activation profiles of circulating T follicular helper type-1 cells at the early stage correlated strongly with the total change in antibody titers induced by vaccination. Formation of influenza-specific hemagglutinin-binding memory B cells was significantly higher in seroconverters compared with nonseroconverters. In-depth antibody characterization revealed a reduction in immunoglobulin G3 before and after vaccination in the Indigenous Australian population, potentially linked to the increased frequency of the G3m21* allotype. Overall, our data provide evidence that Indigenous populations elicit robust, broad, and prototypical immune responses following immunization with seasonal inactivated influenza vaccines. Our work strongly supports the recommendation of influenza vaccination to protect Indigenous populations from severe seasonal influenza virus infections and their subsequent complications.

Published

2021

16. High expression of CD38 and MHC class II on CD8+ T cells during severe influenza disease reflects bystander activation and trogocytosis

Author

Jia, X, Chua, BY, Loh, L, Koutsakos, M, Kedzierski, L, Olshansky, M, Heath, WR, Chang, SY, Xu, J, Wang, Z, Kedzierska, K, Jia, X, Chua, BY, Loh, L, Koutsakos, M, Kedzierski, L, Olshansky, M, Heath, WR, Chang, SY, Xu, J, Wang, Z, and Kedzierska, K

Abstract

OBJECTIVES: Although co-expression of CD38 and HLA-DR reflects T-cell activation during viral infections, high and prolonged CD38+HLA-DR+ expression is associated with severe disease. To date, the mechanism underpinning expression of CD38+HLA-DR+ is poorly understood. METHODS: We used mouse models of influenza A/H9N2, A/H7N9 and A/H3N2 infection to investigate mechanisms underpinning CD38+MHC-II+ phenotype on CD8+ T cells. To further understand MHC-II trogocytosis on murine CD8+ T cells as well as the significance behind the scenario, we used adoptively transferred transgenic OT-I CD8+ T cells and A/H3N2-SIINKEKL infection. RESULTS: Analysis of influenza-specific immunodominant DbNP366 +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 immune organs including the site of infection during severe viral challenge. OT-I cells adoptively transferred into MHC-II-/- mice had no MHC-II after infection, suggesting that MHC-II was acquired via trogocytosis. The detection of CD19 on CD38+MHC-II+ OT-I cells supports the proposition that MHC-II was acquired by trogocytosis sourced from B cells. Co-expression of CD38+MHC-II+ on CD8+ T cells was needed for optimal recall following secondary infection. CONCLUSIONS: Overall, our study demonstrates 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 presence occurs via trogocytosis from antigen-presenting cells. Our findings highlight the importance of the CD38+MHC-II+ phenotype for CD8+ T-cell recall.

Published

2021

17. Atypical B cells are part of an alternative lineage of B cells that participates in responses to vaccination and infection in humans

Author

Sutton, HJ, Aye, R, Idris, AH, Vistein, R, Nduati, E, Kai, O, Mwacharo, J, Li, X, Gao, X, Andrews, TD, Koutsakos, M, Nguyen, THO, Nekrasov, M, Milburn, P, Eltahla, A, Berry, AA, Natasha, KC, Chakravarty, S, Sim, BKL, Wheatley, AK, Kent, SJ, Hoffman, SL, Lyke, KE, Bejon, P, Luciani, F, Kedzierska, K, Seder, RA, Ndungu, FM, Cockburn, IA, Sutton, HJ, Aye, R, Idris, AH, Vistein, R, Nduati, E, Kai, O, Mwacharo, J, Li, X, Gao, X, Andrews, TD, Koutsakos, M, Nguyen, THO, Nekrasov, M, Milburn, P, Eltahla, A, Berry, AA, Natasha, KC, Chakravarty, S, Sim, BKL, Wheatley, AK, Kent, SJ, Hoffman, SL, Lyke, KE, Bejon, P, Luciani, F, Kedzierska, K, Seder, RA, Ndungu, FM, and Cockburn, IA

Abstract

The diversity of circulating human B cells is unknown. We use single-cell RNA sequencing (RNA-seq) to examine the diversity of both antigen-specific and total B cells in healthy subjects and malaria-exposed individuals. This reveals two B cell lineages: a classical lineage of activated and resting memory B cells and an alternative lineage, which includes previously described atypical B cells. Although atypical B cells have previously been associated with disease states, the alternative lineage is common in healthy controls, as well as malaria-exposed individuals. We further track Plasmodium-specific B cells after malaria vaccination in naive volunteers. We find that alternative lineage cells are primed after the initial immunization and respond to booster doses. However, alternative lineage cells develop an atypical phenotype with repeated boosts. The data highlight that atypical cells are part of a wider alternative lineage of B cells that are a normal component of healthy immune responses.

Published

2021

18. Influenza B viruses: underestimated and overlooked

Author

Koutsakos, M, Kent, S, Koutsakos, M, and Kent, S

Abstract

Influenza B viruses circulate globally every year causing respiratory disease with significant clinical and socio-economic impacts. IBV are considered exclusive human pathogens with no established animal reservoirs, which suggests with concerted effort it may be possible to eradicate this virus from human circulation. However, this requires a deeper understanding of IBV virology and immunology and the design of vaccines that induce universal immunity to antigenic variants of IBV.

Published

2021

19. Immune profiling of influenza-specific B- and T-cell responses in macaques using flow cytometry-based assays

Author

Koutsakos, M, Sekiya, T, Chua, BY, Thi, HON, Wheatley, AK, Juno, JA, Ohno, M, Nomura, N, Ohara, Y, Nishimura, T, Endo, M, Suzuki, S, Ishigaki, H, Nakayama, M, Nguyen, CT, Itoh, Y, Shingai, M, Ogasawara, K, Kino, Y, Kent, SJ, Jackson, DC, Brown, LE, Kida, H, Kedzierska, K, Koutsakos, M, Sekiya, T, Chua, BY, Thi, HON, Wheatley, AK, Juno, JA, Ohno, M, Nomura, N, Ohara, Y, Nishimura, T, Endo, M, Suzuki, S, Ishigaki, H, Nakayama, M, Nguyen, CT, Itoh, Y, Shingai, M, Ogasawara, K, Kino, Y, Kent, SJ, Jackson, DC, Brown, LE, Kida, H, and Kedzierska, K

Abstract

Influenza remains a significant global public health burden, despite substantial annual vaccination efforts against circulating virus strains. As a result, novel vaccine approaches are needed to generate long-lasting and universal broadly cross-reactive immunity against distinct influenza virus strains and subtypes. Several new vaccine candidates are currently under development and/or in clinical trials. The successful development of new vaccines requires testing in animal models, other than mice, which capture the complexity of the human immune system. Importantly, following vaccination or challenge, the assessment of adaptive immunity at the antigen-specific level is particularly informative. In this study, using peripheral blood mononuclear cells (PBMCs) from cynomolgus macaques, we describe detection methods and in-depth analyses of influenza virus-specific B cells by recombinant hemagglutinin probes and flow cytometry, as well as the detection of influenza virus-specific CD8+ and CD4+ T cells by stimulation with live influenza A virus and intracellular cytokine staining. We highlight the potential of these assays to be used with PBMCs from other macaque species, including rhesus macaques, pigtail macaques and African green monkeys. We also demonstrate the use of a human cytometric bead array kit in detecting inflammatory cytokines and chemokines from cynomolgus macaques to assess cytokine/chemokine milieu. Overall, the detection of influenza virus-specific B and T cells, together with inflammatory responses, as described in our study, provides useful insights for evaluating novel influenza vaccines. Our data deciphering immune responses toward influenza viruses can be also adapted to understanding immunity to other infections or vaccination approaches in macaque models.

Published

2021

20. HLA-B*27:05 alters immunodominance hierarchy of universal influenza-specific CD8+ T cells

Author

Sant, S. (Sneha), Quiñones-Parra, S.M. (Sergio M.), Koutsakos, M. (Marios), Grant, E.J. (Emma J.), Loudovaris, T. (Thomas), Mannering, S.I. (Stuart I.), Crowe, J. (Jane), Sandt, C.E. (Carolien) van de, Rimmelzwaan, G.F. (Guus F.), Rossjohn, J. (Jamie), Gras, S. (Stephanie), Loh, L. (Liyen), Nguyen, T.H.O. (Thi H O), Kedzierska, K. (Katherine), Sant, S. (Sneha), Quiñones-Parra, S.M. (Sergio M.), Koutsakos, M. (Marios), Grant, E.J. (Emma J.), Loudovaris, T. (Thomas), Mannering, S.I. (Stuart I.), Crowe, J. (Jane), Sandt, C.E. (Carolien) van de, Rimmelzwaan, G.F. (Guus F.), Rossjohn, J. (Jamie), Gras, S. (Stephanie), Loh, L. (Liyen), Nguyen, T.H.O. (Thi H O), and Kedzierska, K. (Katherine)

Abstract

Seasonal influenza virus infections cause 290,000-650,000 deaths annually and severe morbidity in 3-5 million people. CD8+ T-cell responses towards virus-derived peptide/human leukocyte antigen (HLA) complexes provide the broadest cross-reactive immunity against human influenza viruses. Several universally-conserved CD8+ T-cell specificities that elicit prominent responses against human influenza A viruses (IAVs) have been identified. These include HLA-A*02:01-M158-66 (A2/M158), HLA-A*03:01-NP265-273, HLA-B*08:01-NP225-233, HLA-B*18:01-NP219-226, HLA-B*27:05-NP383-391 and HLA-B*57:01-NP199-207. The immunodominance hierarchies across these universal CD8+ T-cell epitopes were however unknown. Here, we probed immunodominance status of influenza-specific universal CD8+ T-cells in HLA-I heterozygote individuals expressing two or more universal HLAs for IAV. We found that while CD8+ T-cell responses directed towards A2/M158 were generally immunodominant, A2/M158+CD8+ T-cells were markedly diminished (subdominant) in HLA-A*02:01/B*27:05-expressing donors following ex vivo and in vitro analyses. A2/M158+CD8+ T-cells in non-HLA-B*27:05 individuals were im

Published

2020

21. Viral burden, inflammatory milieu and CD8+T-cell responses to influenza virus in a second-generation thiazolide (RM-5061) and oseltamivir combination therapy study

Author

Nuessing, S, Mifsud, E, Hensen, L, Koutsakos, M, Wang, Z, Kedzierski, L, Mercuri, F, Rossignol, J-F, Hurt, AC, Kedzierska, K, Nuessing, S, Mifsud, E, Hensen, L, Koutsakos, M, Wang, Z, Kedzierski, L, Mercuri, F, Rossignol, J-F, Hurt, AC, and Kedzierska, K

Abstract

BACKGROUND: Influenza viruses cause significant morbidity and mortality, especially in young children, elderly, pregnant women and individuals with co-morbidities. Patients with severe influenza disease are typically treated with one neuraminidase inhibitor, oseltamivir or zanamivir. These antivirals need to be taken early to be most effective and often lead to the emergence of drug resistance and/or decreased drug susceptibility. Combining oseltamivir with another antiviral with an alternative mode of action has the potential to improve clinical effectiveness and reduce drug resistance. METHODS: In this study, we utilized a host-targeting molecule RM-5061, a second-generation thiazolide, in combination with oseltamivir to determine whether these compounds could reduce viral burden and understand their effects on the immune response to influenza virus infection in mice, compared with either monotherapy or placebo. RESULTS: The combination of RM-5061 and OST administered for 5 days after influenza infection reduced viral burden at day 5 post-infection, when compared to placebo and RM-5061 monotherapy, but was not significantly different from oseltamivir monotherapy. The inflammatory cytokine milieu was also reduced in animals which received a combination therapy when compared to RM-5061 and placebo-treated animals. Antiviral treatment in all groups led to a reduction in CD8+ T-cell responses in the BAL when compared to placebo. CONCLUSIONS: To our knowledge, this is the first time a combination of a host-targeting compound, RM-5061, and neuraminidase inhibitor, OST, has been tested in vivo. This antiviral combination was safe in mice and led to reduced inflammatory responses following viral infection when compared to untreated animals.

Published

2020

22. Breadth of concomitant immune responses underpinning viral clearance and patient recovery in a non-severe case of COVID-19

Author

Thevarajan, I, Nguyen, THO, Koutsakos, M, Druce, J, Caly, L, van de Sandt, C, Jia, X, Nicholson, S, Catton, M, Cowie, B, Tong, SYC, Lewin, S, Kedzierska, K, Thevarajan, I, Nguyen, THO, Koutsakos, M, Druce, J, Caly, L, van de Sandt, C, Jia, X, Nicholson, S, Catton, M, Cowie, B, Tong, SYC, Lewin, S, and Kedzierska, K

Abstract

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.

Published

2020

23. Suboptimal SARS-CoV-2-specific CD8+ T cell response associated with the prominent HLA-A*02:01 phenotype

Author

Habel, JR, Nguyen, THO, van de Sandt, CE, Juno, JA, Chaurasia, P, Wragg, K, Koutsakos, M, Hensen, L, Jia, X, Chua, B, Zhang, W, Tan, H-X, Flanagan, KL, Doolan, DL, Torresi, J, Chen, W, Wakim, LM, Cheng, AC, Doherty, PC, Petersen, J, Rossjohn, J, Wheatley, AK, Kent, SJ, Rowntree, LC, Kedzierska, K, Habel, JR, Nguyen, THO, van de Sandt, CE, Juno, JA, Chaurasia, P, Wragg, K, Koutsakos, M, Hensen, L, Jia, X, Chua, B, Zhang, W, Tan, H-X, Flanagan, KL, Doolan, DL, Torresi, J, Chen, W, Wakim, LM, Cheng, AC, Doherty, PC, Petersen, J, Rossjohn, J, Wheatley, AK, Kent, SJ, Rowntree, LC, and Kedzierska, K

Abstract

An improved understanding of human T cell-mediated immunity in COVID-19 is important for optimizing therapeutic and vaccine strategies. Experience with influenza shows that infection primes CD8+ T cell memory to peptides presented by common HLA types like HLA-A2, which enhances recovery and diminishes clinical severity upon reinfection. Stimulating peripheral blood mononuclear cells from COVID-19 convalescent patients with overlapping peptides from severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) led to the clonal expansion of SARS-CoV-2-specific CD8+ and CD4+ T cells in vitro, with CD4+ T cells being robust. We identified two HLA-A*02:01-restricted SARS-CoV-2-specfic CD8+ T cell epitopes, A2/S269-277 and A2/Orf1ab3183-3191 Using peptide-HLA tetramer enrichment, direct ex vivo assessment of A2/S269+CD8+ and A2/Orf1ab3183+CD8+ populations indicated that A2/S269+CD8+ T cells were detected at comparable frequencies (∼1.3 × 10-5) in acute and convalescent HLA-A*02:01+ patients. These frequencies were higher than those found in uninfected HLA-A*02:01+ donors (∼2.5 × 10-6), but low when compared to frequencies for influenza-specific (A2/M158) and Epstein-Barr virus (EBV)-specific (A2/BMLF1280) (∼1.38 × 10-4) populations. Phenotyping A2/S269+CD8+ T cells from COVID-19 convalescents ex vivo showed that A2/S269+CD8+ T cells were predominantly negative for CD38, HLA-DR, PD-1, and CD71 activation markers, although the majority of total CD8+ T cells expressed granzymes and/or perforin. Furthermore, the bias toward naïve, stem cell memory and central memory A2/S269+CD8+ T cells rather than effector memory populations suggests that SARS-CoV-2 infection may be compromising CD8+ T cell activation. Priming with appropriate vaccines may thus be beneficial for optimizing CD8+ T cell immunity in COVID-19.

Published

2020

24. The ABC of Major Histocompatibility Complexes and T Cell Receptors in Health and Disease

Author

Kedzierska, K, Koutsakos, M, Kedzierska, K, and Koutsakos, M

Abstract

A seminal discovery of major histocompatibility complex (MHC) restriction in T cell recognition by Peter Doherty and Rolf Zinkernagel has led to 45 years of exciting research on the mechanisms governing peptide MHC (pMHC) recognition by T cell receptors (TCRs) and their importance in health and disease. T cells provide a significant level of protection against viral, bacterial, and parasitic infections, as well as tumors, hence, the generation of protective T cell responses is a primary goal for cell-mediated vaccines and immunotherapies. Understanding the mechanisms underlying generation of optimal high-avidity effector T cell responses, memory development, maintenance, and recall is of major importance for the rational design of preventative and therapeutic vaccines/immunotherapies. In this review, we summarize the lessons learned over the last four decades and outline our current understanding of the basis and consequences of pMHC/TCR interactions on T cell development and function, and TCR diversity and composition, driving better clinical outcomes and prevention of viral escape. We also discuss the current models of T cell memory formation and determinants of immunodominant T cell responses in animal models and humans. As TCR composition and diversity can affect both the protective capacity of T cells and protection against viral escape, defining the spectrum of TCR selection has implications for improving the functional efficacy of effector T cell responsiveness and memory formation.

Published

2020

25. Cover

Author

Nüssing, S, Mifsud, E, Hensen, L, Koutsakos, M, Wang, Z, Kedzierski, L, Mercuri, F, Rossignol, J, Hurt, AC, Kedzierska, K, Nüssing, S, Mifsud, E, Hensen, L, Koutsakos, M, Wang, Z, Kedzierski, L, Mercuri, F, Rossignol, J, Hurt, AC, and Kedzierska, K

Published

2020

26. Monocyte apoptotic bodies are vehicles for influenza A virus propagation

Author

Atkin-Smith, GK, Duan, M, Zanker, DJ, Loh, L, Nguyen, THO, Koutsakos, M, Nguyen, T, Jiang, X, Carrera, J, Phan, TK, Liu, C, Paone, S, Oveissi, S, Hodge, AL, Baxter, AA, Kedzierska, K, Mackenzie, JM, Hulett, MD, Bilsel, P, Chen, W, Poon, IKH, Atkin-Smith, GK, Duan, M, Zanker, DJ, Loh, L, Nguyen, THO, Koutsakos, M, Nguyen, T, Jiang, X, Carrera, J, Phan, TK, Liu, C, Paone, S, Oveissi, S, Hodge, AL, Baxter, AA, Kedzierska, K, Mackenzie, JM, Hulett, MD, Bilsel, P, Chen, W, and Poon, IKH

Abstract

The disassembly of apoptotic cells into small membrane-bound vesicles termed apoptotic bodies (ApoBDs) is a hallmark of apoptosis; however, the functional significance of this process is not well defined. We recently discovered a new membrane protrusion (termed beaded apoptopodia) generated by apoptotic monocytes which fragments to release an abundance of ApoBDs. To investigate the function of apoptotic monocyte disassembly, we used influenza A virus (IAV) infection as a proof-of-concept model, as IAV commonly infects monocytes in physiological settings. We show that ApoBDs generated from IAV-infected monocytes contained IAV mRNA, protein and virions and consequently, could facilitate viral propagation in vitro and in vivo, and induce a robust antiviral immune response. We also identified an antipsychotic, Haloperidol, as an unexpected inhibitor of monocyte cell disassembly which could impair ApoBD-mediated viral propagation under in vitro conditions. Together, this study reveals a previously unrecognised function of apoptotic monocyte disassembly in the pathogenesis of IAV infections.

Published

2020

27. Breadth of concomitant immune responses prior to patient recovery: a case report of non-severe COVID-19

Author

Thevarajan, I, Nguyen, THO, Koutsakos, M, Druce, J, Caly, L, van de Sandt, CE, Jia, X, Nicholson, S, Catton, M, Cowie, B, Tong, SYC, Lewin, SR, Kedzierska, K, Thevarajan, I, Nguyen, THO, Koutsakos, M, Druce, J, Caly, L, van de Sandt, CE, Jia, X, Nicholson, S, Catton, M, Cowie, B, Tong, SYC, Lewin, SR, and Kedzierska, K

Published

2020

28. Study of MAIT Cell Activation in Viral Infections In Vivo

Author

Kaipe, H, Magalhaes, I, Hinks, TSC, van Wilgenburg, B, Wang, H, Loh, L, Koutsakos, M, Kedzierska, K, Corbett, AJ, Chen, Z, Kaipe, H, Magalhaes, I, Hinks, TSC, van Wilgenburg, B, Wang, H, Loh, L, Koutsakos, M, Kedzierska, K, Corbett, AJ, and Chen, Z

Abstract

MAIT cells are abundant, highly evolutionarily conserved innate-like lymphocytes expressing a semi-invariant T cell receptor (TCR), which recognizes microbially derived small intermediate molecules from the riboflavin biosynthetic pathway. However, in addition to their TCR-mediated functions they can also be activated in a TCR-independent manner via cytokines including IL-12, -15, -18, and type I interferon. Emerging data suggest that they are expanded and activated by a range of viral infections, and significantly that they can contribute to a protective anti-viral response. Here we describe methods used to investigate these anti-viral functions in vivo in murine models. To overcome the technical challenge that MAIT cells are rare in specific pathogen-free laboratory mice, we describe how pulmonary MAIT cells can be expanded using intranasal bacterial infection or a combination of synthetic MAIT cell antigen and TLR agonists. We also describe protocols for adoptive transfer of MAIT cells, methods for lung homogenization for plaque assays, and surface and intracellular cytokine staining to determine MAIT cell activation.

Published

2020

29. HLA-B*27:05 alters immunodominance hierarchy of universal influenza-specific CD8(+)T cells

Author

Sant, S, Quinones-Parra, SM, Koutsakos, M, Grant, EJ, Loudovaris, T, Mannering, SI, Crowe, J, van de Sandt, CE, Rimmelzwaan, Guus, Rossjohn, J, Gras, S, Loh, L, Nguyen, T, Kedzierska, K, Sant, S, Quinones-Parra, SM, Koutsakos, M, Grant, EJ, Loudovaris, T, Mannering, SI, Crowe, J, van de Sandt, CE, Rimmelzwaan, Guus, Rossjohn, J, Gras, S, Loh, L, Nguyen, T, and Kedzierska, K

Published

2020

30. Re: Integrated Immune Dynamics Define Correlates of COVID-19 Severity and Antibody Responses

Author

Koutsakos, M., primary, Rowntree, L., additional, Hensen, L., additional, Chua, B., additional, van de Sandt, C., additional, Habel, Jennifer R., additional, Zhang, Wuji, additional, Jia, Xiaoxiao, additional, Kedzierski, Lukasz, additional, Ashhurst, Thomas M., additional, Putri, G., additional, Marsh-Wakefield, Felix, additional, MN, Read, additional, Edwards, Davis N., additional, Clemens, Bridie E., additional, Wong, Chinn Yi, additional, Mordant, Francesca L., additional, Juno, Jennifer A., additional, Amanat, Fatima, additional, Audsley, Jennifer, additional, Holmes, Natasha E., additional, Hughes, Carly M., additional, Catton, Mike, additional, Denholm, Justin, additional, Tong, Steven, additional, Doolan, Denise L., additional, Kotsimbos, Tom C., additional, Jackson, David C., additional, Krammer, Florian, additional, Godfrey, Dale, additional, AW, Chung, additional, King, Nicholas J.C., additional, Lewin, Sharon R., additional, Wheatley, Adam K., additional, Kent, Stephen J., additional, Subbarao, Kanta, additional, McMahon, James, additional, Thevarajan, Irani, additional, Nguyen, Thi H.O., additional, AC, Cheng, additional, and Kedzierska, Katherine, additional

Published

2020

31. MAIT cells contribute to a protective antiviral innate response to influenza infection

Author

Hinks, T, Van Wilgenburg, B, Loh, L, Pediongco, T, Wang, H, Shi, M, Zhao, Z, Koutsakos, M, Nussing, S, Sant, S, Wang, Z, D'Souza, C, Almeida, C, Reading, P, Corbett, A, McCluskey, J, Klenerman, P, and Kedzierska, K

Published

2019

32. Downregulation of MHC Class I Expression by Influenza A and B Viruses

Author

Koutsakos, M, McWilliam, HEG, Aktepe, TE, Fritzlar, S, Illing, PT, Mifsud, NA, Purcell, AW, Rockman, S, Reading, PC, Vivian, JP, Rossjohn, J, Brooks, AG, Mackenzie, JM, Mintern, JD, Villadangos, JA, Nguyen, THO, Kedzierska, K, Koutsakos, M, McWilliam, HEG, Aktepe, TE, Fritzlar, S, Illing, PT, Mifsud, NA, Purcell, AW, Rockman, S, Reading, PC, Vivian, JP, Rossjohn, J, Brooks, AG, Mackenzie, JM, Mintern, JD, Villadangos, JA, Nguyen, THO, and Kedzierska, K

Abstract

Manipulation of the MHC-I presentation pathway, and thus limiting MHC-I cell surface expression, is used by many viruses to evade immune recognition. In particular, downregulation of MHC-I molecules at the cell surface can reduce the ability of CD8+ T cells to recognize viral peptides presented by MHC-I molecules and thereby delay viral clearance by CD8+ T cells. To date, MHC-I downregulation by influenza viruses has not been reported. Given that influenza virus infections are a global health concern and that CD8+ T cells play an important role in promoting influenza virus clearance and recovery from influenza disease, we investigated whether influenza A and B viruses (IAV, IBV) downregulated MHC-I as a novel mechanism to evade cellular immunity. Here, we showed that infection of several cell types, including epithelial A549 cells, with a panel of IAV and IBV viruses downregulated the surface MHC-I expression on IAV/IBV-infected cells during the late stages of influenza virus infection in vitro. This observation was consistent across a panel of class I-reduced (C1R) cell lines expressing 14 different HLA-A or -B alleles and a panel of 721.221 cell lines expressing 11 HLA-C alleles. Interestingly, IBV infection caused more pronounced reduction in surface MHC-I expression compared to IAV. Importantly, the two viruses utilized two distinct mechanisms for MHC-I downregulation. Our data demonstrated that while IAV caused a global loss of MHC-I within influenza-infected cells, IBV infection resulted in the preferential loss of MHC-I molecules from the cell surface, consequent of delayed MHC-I trafficking to the cell surface, resulting from retaining MHC-I intracellularly during IBV infection. Overall, our study suggests that influenza viruses across both IAV and IBV subtypes have the potential to downregulate MHC-I surface expression levels. Our findings provide new insights into the host-pathogen interaction of influenza A and B viruses and inform the design of novel vac

Published

2019

33. Cross-lineage protection by human antibodies binding the influenza B hemagglutinin

Author

Liu, Y, Tan, H-X, Koutsakos, M, Jegaskanda, S, Esterbauer, R, Tilmanis, D, Aban, M, Kedzierska, K, Hurt, AC, Kent, SJ, Wheatley, AK, Liu, Y, Tan, H-X, Koutsakos, M, Jegaskanda, S, Esterbauer, R, Tilmanis, D, Aban, M, Kedzierska, K, Hurt, AC, Kent, SJ, and Wheatley, AK

Abstract

Influenza B viruses (IBV) drive a significant proportion of influenza-related hospitalisations yet are understudied compared to influenza A. Current vaccines target the head of the viral hemagglutinin (HA) which undergoes rapid mutation, significantly reducing vaccine effectiveness. Improved vaccines to control IBV are needed. Here we developed novel IBV HA probes to interrogate humoral responses to IBV in humans. A significant proportion of IBV HA-specific B cells recognise both B/Victoria/2/87-like and B/Yamagata/16/88-like lineages in a distinct pattern of cross-reactivity. Monoclonal antibodies (mAbs) were reconstituted from IBV HA-specific B cells, including mAbs providing broad protection in murine models of lethal IBV infection. Protection was mediated by neutralising antibodies targeting the receptor binding domain, or via Fc-mediated functions of non-neutralising antibodies binding alternative epitopes including the IBV HA stem. This work defines antigenic cross-recognition between IBV lineages and provides guidance for the rational design of improved IBV vaccines for broad and durable protection.

Published

2019

34. MAIT cells contribute to protection against lethal influenza infection in vivo

Author

Van Wilgenburg, B, Loh, L, Chen, Z, Pediongcon, T, Wang, H, Shi, M, Koutsakos, M, Nussing, S, Sant, S, Wang, Z, D'Souza, C, Jia, W, Almeida, C, Kostenko, L, Eckle, S, Meehan, B, Kallies, A, Godfrey, D, Reading, P, Corbett, A, McCluskey, J, Klenerman, P, Kedzierska, K, and Hinks, TSC

Abstract

Mucosal associated invariant T (MAIT) cells are evolutionarily-conserved, innate-like lymphocytes which are abundant in human lungs and can contribute to protection against pulmonary bacterial infection. MAIT cells are also activated during human viral infections, yet it remains unknown whether MAIT cells play a significant protective or even detrimental role during viral infections in vivo. Using murine experimental challenge with two strains of influenza A virus, we show that MAIT cells accumulated and are activated early in infection, with upregulation of CD25, CD69 and Granzyme B, peaking at 5 days post infection. Activation is modulated via cytokines independently of MR1. MAIT cell-deficient MR1-/- mice show enhanced weight loss and mortality to severe (H1N1) influenza. This is ameliorated by prior adoptive transfer of pulmonary MAIT cells in both immunocompetent and immunodeficient RAG2-/- gC-/- mice. Thus, MAIT cells contribute to protection during respiratory viral infections, and constitute a potential target for therapeutic manipulation.

Published

2018

35. S97 MAIT cells contribute to a protective antiviral innate response to influenza infection

Author

Hinks, TSC, primary, van Wilgenburg, B, additional, Loh, L, additional, Pediongco, TJ, additional, Wang, H, additional, Shi, M, additional, Zhao, Z, additional, Koutsakos, M, additional, Nussing, S, additional, Sant, S, additional, Wang, Z, additional, D’Souza, C, additional, Almeida, CF, additional, Reading, P, additional, Corbett, AJ, additional, McCluskey, J, additional, Klenerman, P, additional, and Kedzierska, K, additional

Published

2018

36. Uncomplicated Cystitis in an Adult Male Following Influenza B Virus Infection

Author

Allen, RJ, Koutsakos, M, Hurt, AC, Kedzierska, K, Allen, RJ, Koutsakos, M, Hurt, AC, and Kedzierska, K

Abstract

BACKGROUND Influenza B viruses cause seasonal epidemics of respiratory illness, circulating concurrently with influenza A viruses. However, virological and clinical knowledge of influenza B viruses is less well advanced than for influenza A, and in particular, complications associated with influenza B infection are not as commonly reported. Complications of influenza B infection predominantly include neurological and musculoskeletal pathologies, while a review of the literature shows that bacterial infections associated with influenza B viruses often involve Gram-positive organisms, with a smaller subset featuring Gram-negative species. CASE REPORT In this case report we highlight an uncomplicated infection of the urinary tract by Escherichia coli immediately following influenza B infection, in an otherwise healthy adult white male with no prior history of urinary tract infection or structural abnormalities of the renal tract. CONCLUSIONS Bacterial infections complicating influenza B infection may include organisms not commonly associated with the respiratory system, such as Escherichia coli. In addition, bacterial complications of influenza B infection may affect non-respiratory systems, including the genitourinary tract.

Published

2017

37. Knowns and unknowns of influenza B viruses

Author

Koutsakos, M, Thi, HN, Barclay, WS, Kedzierska, K, Koutsakos, M, Thi, HN, Barclay, WS, and Kedzierska, K

Abstract

Influenza B viruses (IBVs) circulate annually along with influenza A (IAV) strains during seasonal epidemics. IBV can dominate influenza seasons and cause severe disease, particularly in children and adolescents. Research has revealed interesting aspects of IBV and highlighted the importance of these viruses in clinical settings. Yet, many important questions remain unanswered. In this review, the clinical relevance of IBV is emphasized, unique features in epidemiology, host range and virology are highlighted and gaps in knowledge pinpointed. Multiple aspects of IBV epidemiology, evolution, virology and immunology are discussed. Future research into IBV is needed to understand how we can prevent severe disease in high-risk groups, especially children and elderly.

Published

2016

38. Triton X-100-treated virus-based ELLA demonstrates discordant antigenic evolution of influenza B virus hemagglutinin and neuraminidase.

Author

Do THT, Wille M, Wheatley AK, and Koutsakos M

Subjects

Humans, Antigens, Viral immunology, Antigens, Viral genetics, Animals, Influenza Vaccines immunology, Influenza, Human immunology, Influenza, Human virology, Influenza, Human prevention & control, Viral Proteins immunology, Viral Proteins genetics, Madin Darby Canine Kidney Cells, Neuraminidase immunology, Neuraminidase genetics, Influenza B virus immunology, Influenza B virus genetics, Hemagglutinin Glycoproteins, Influenza Virus immunology, Antibodies, Viral immunology, Octoxynol

Abstract

Neuraminidase (NA)-specific antibodies have been associated with protection against influenza and thus NA is considered a promising target for next-generation vaccines against influenza A (IAV) and B viruses (IBV). NA inhibition (NI) by antibodies is typically assessed using an enzyme-linked lectin assay (ELLA). However, ELLA can be confounded by anti-hemagglutinin (anti-HA) antibodies that block NA by steric hindrance (termed HA interference). Although strategies have been employed to overcome HA interference for IAV, similar approaches have not been assessed for IBV. We found that HA interference is common in ELLA using IBV, rendering the technique unreliable. Anti-HA antibodies were not completely depleted from sera by HA-expressing cell lines, and this approach was of limited utility. In contrast, we find that treatment of virions with Triton X-100, but not Tween-20 or ether, efficiently separates the HA and NA components and overcomes interference caused by anti-HA antibodies. We also characterize a panel of recombinant IBV NA proteins that further validated the results from Triton X-100-treated virus-based ELLA. Using these reagents and assays, we demonstrate discordant antigenic evolution between IBV NA and HA over the last 80 years. This optimized ELLA protocol will facilitate further in-depth serological surveys of IBV immunity as well as antigenic characterization of the IBV NA on a larger scale.IMPORTANCEInfluenza B viruses (IBVs) contribute to annual epidemics and may cause severe disease, especially in children. Consequently, several approaches are being explored to improve vaccine efficacy, including the addition of neuraminidase (NA). Antigen selection and assessment of serological responses will require a reliable serological assay to specifically quantify NA inhibition (NI). Although such assays have been assessed for influenza A viruses (IAVs), this has not been done of influenza B viruses. Our study identifies a readily applicable strategy to measure the inhibitory activity of neuraminidase-specific antibodies against influenza B virus without interference from anti-hemagglutinin (anti-HA) antibodies. This will aid broader serological assessment of influenza B virus-specific antibodies and antigenic characterization of the influenza B virus neuraminidase., Competing Interests: M.K. has acted as a consultant for the Sanofi group of companies. The other authors declare no competing interests.

Published

2024

39. Immune imprinting in early life shapes cross-reactivity to influenza B virus haemagglutinin.

Author

Edler P, Schwab LSU, Aban M, Wille M, Spirason N, Deng YM, Carlock MA, Ross TM, Juno JA, Rockman S, Wheatley AK, Kent SJ, Barr IG, Price DJ, and Koutsakos M

Subjects

Humans, Cross-Sectional Studies, Female, Hemagglutinin Glycoproteins, Influenza Virus immunology, Male, Hemagglutination Inhibition Tests, Birth Cohort, Adult, Middle Aged, Disease Susceptibility immunology, Influenza B virus immunology, Cross Reactions immunology, Influenza, Human immunology, Influenza, Human virology, Antibodies, Viral blood, Antibodies, Viral immunology

Abstract

Influenza exposures early in life are believed to shape future susceptibility to influenza infections by imprinting immunological biases that affect cross-reactivity to future influenza viruses. However, direct serological evidence linked to susceptibility is limited. Here we analysed haemagglutination-inhibition titres in 1,451 cross-sectional samples collected between 1992 and 2020, from individuals born between 1917 and 2008, against influenza B virus (IBV) isolates from 1940 to 2021. We included testing of 'future' isolates that circulated after sample collection. We show that immunological biases are conferred by early life IBV infection and result in lineage-specific cross-reactivity of a birth cohort towards future IBV isolates. This translates into differential estimates of susceptibility between birth cohorts towards the B/Yamagata and B/Victoria lineages, predicting lineage-specific birth-cohort distributions of observed medically attended IBV infections. Our data suggest that immunological measurements of imprinting could be important in modelling and predicting virus epidemiology., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

40. Dissemination of influenza B virus to the lower respiratory tract of mice is restricted by the interferon response.

Author

Schwab LSU, Do THT, Pilapitiya D, and Koutsakos M

Subjects

Animals, Mice, Disease Models, Animal, Interferons metabolism, Interferons immunology, Myxovirus Resistance Proteins metabolism, Myxovirus Resistance Proteins genetics, Receptor, Interferon alpha-beta genetics, Receptor, Interferon alpha-beta deficiency, Mice, Inbred C57BL, Host-Pathogen Interactions immunology, Respiratory Tract Infections virology, Respiratory Tract Infections immunology, Female, Interferon-gamma metabolism, Trachea virology, Influenza B virus physiology, Influenza B virus immunology, Orthomyxoviridae Infections immunology, Orthomyxoviridae Infections virology, Lung virology, Lung immunology, Virus Replication

Abstract

The global burden of disease caused by influenza B virus (IBV) is substantial; however, IBVs remain overlooked. Understanding host-pathogen interactions and establishing physiologically relevant models of infection are important for the development and assessment of therapeutics and vaccines against IBV. In this study, we assessed an upper respiratory tract (URT)-restricted model of mouse IBV infection, comparing it to the conventional administration of the virus to the total respiratory tract (TRT). We found that URT infections caused by different strains of IBV disseminate to the trachea but resulted in limited dissemination of IBV to the lungs. Infection of the URT did not result in weight loss or systemic inflammation even at high inoculum doses and despite robust viral replication in the nose. Dissemination of IBV to the lungs was enhanced in mice lacking functional type I IFN receptor (IFNAR2), but not IFNγ. Conversely, in mice expressing the IFN-inducible gene Mx1, we found reduced IBV replication in the lungs and reduced dissemination of IBV from the URT to the lungs. Inoculation of IBV in both the URT and TRT resulted in seroconversion against IBV. However, priming at the TRT conferred superior protection from a heterologous lethal IBV challenge compared to URT priming, as determined by improved survival rates and reduced viral replication throughout the respiratory tract. Overall, our study establishes a URT-restricted IBV infection model, highlights the critical role of IFNs in limiting dissemination of IBV to the lungs, and also demonstrates that the lack of viral replication in the lungs may impact protection from subsequent infections., Importance: Our study investigated how influenza B virus (IBV) spreads from the nose to the lungs of mice and the impact this has on disease and protection from re-infection. We found that when applied to the nose only, IBV does not spread very efficiently to the lungs in a process controlled by the interferon response. Priming immunity at the nose only resulted in less protection from re-infection than priming immunity at both the nose and lungs. These insights can guide the development of potential therapies targeting the interferon response as well as of intranasal vaccines against IBV., Competing Interests: M.K. has acted as a consultant for the Sanofi group of companies. The other authors declare no competing interests.

Published

2024

41. Characterisation of novel influenza-derived HLA-B*18:01-restricted epitopes.

Author

Leong SL, Murdolo L, Maddumage JC, Koutsakos M, Kedzierska K, Purcell AW, Gras S, and Grant EJ

Abstract

Objectives: Seasonal influenza viruses cause roughly 650 000 deaths annually despite available vaccines. CD8 + T cells typically recognise influenza-derived peptides from internal structural and non-structural influenza proteins and are an attractive avenue for future vaccine design as they could reduce the severity of disease following infection with diverse influenza strains. CD8 + T cells recognise peptides presented by the highly polymorphic Human Leukocyte Antigens class I molecules (HLA-I). Each HLA-I variant has distinct peptide binding preferences, representing a significant obstacle for designing vaccines that elicit CD8 + T cell responses across broad populations. Consequently, the rational design of a CD8 + T cell-mediated vaccine would require the identification of highly immunogenic peptides restricted to a range of different HLA molecules., Methods: Here, we assessed the immunogenicity of six recently published novel influenza-derived peptides identified by mass-spectrometry and predicted to bind to the prevalent HLA-B*18:01 molecule., Results: Using CD8 + T cell activation assays and protein biochemistry, we showed that 3/6 of the novel peptides were immunogenic in several HLA-B*18:01 + individuals and confirmed their HLA-B*18:01 restriction. We subsequently compared CD8 + T cell responses towards the previously identified highly immunogenic HLA-B*18:01-restricted NP 219 peptide. Using X-ray crystallography, we solved the first crystal structures of HLA-B*18:01 presenting immunogenic influenza-derived peptides. Finally, we dissected the first TCR repertoires specific for HLA-B*18:01 restricted pathogen-derived peptides, identifying private and restricted repertoires against each of the four peptides., Conclusion: Overall the characterisation of these novel immunogenic peptides provides additional HLA-B*18:01-restricted vaccine targets derived from the Matrix protein 1 and potentially the non-structural protein and the RNA polymerase catalytic subunit of influenza viruses., Competing Interests: The authors declare no conflict of interest., (© 2024 The Authors. Clinical & Translational Immunology published by John Wiley & Sons Australia, Ltd on behalf of Australian and New Zealand Society for Immunology, Inc.)

Published

2024

42. Is eradication of influenza B viruses possible?

Author

Koutsakos M, Rockman S, and Krammer F

Subjects

Humans, Disease Eradication, Influenza Vaccines administration & dosage, Influenza Vaccines immunology, Global Health, Influenza B virus, Influenza, Human prevention & control

Abstract

Competing Interests: MK has acted as a consultant for Sanofi group of companies and is a named co-inventor on a patent application relating to influenza vaccines. SR is an employee of CSL Seqirus, an influenza vaccine manufacturer. FK is co-founder and scientific advisory board member of Castlevax; has consulted for Merck, Curevac, Seqirus, and Pfizer; and is currently consulting for 3rd Rock Ventures, GSK, Gritstone, and Avimex. The Krammer laboratory is also collaborating with Dynavax on influenza vaccine development. The Icahn School of Medicine at Mount Sinai has filed patent applications relating to SARS-CoV-2 serological assays, NDV-based SARS-CoV-2 vaccines influenza virus vaccines, and influenza virus therapeutics, which list FK as co-inventor. Mount Sinai has spun out a company, Kantaro, to market serological tests for SARS-CoV-2 and another company, Castlevax, to develop SARS-CoV-2 vaccines.

Published

2024

43. Influenza B virus neuraminidase: a potential target for next-generation vaccines?

Author

Do THT, Wheatley AK, Kent SJ, and Koutsakos M

Subjects

Animals, Humans, Influenza B virus, Neuraminidase, Antigens, Viral, Antibodies, Viral, Hemagglutinin Glycoproteins, Influenza Virus, Influenza, Human, Influenza Vaccines, Orthomyxoviridae Infections prevention & control

Abstract

Introduction: Influenza B viruses (IBV) cause a significant health and economic burden annually. Due to lower antigenic drift rate, less extensive antigenic diversity, and lack of animal reservoirs, the development of highly effective universal vaccines against IBV might be in reach. Current seasonal influenza vaccines are formulated to induce antibodies against the Hemagglutinin (HA) protein, but their effectiveness is reduced by mismatch between vaccine and circulating strains., Areas Covered: Given antibodies against the Neuraminidase (NA) have been associated with protection during influenza infection, there is considerable interest in the development of NA-based influenza vaccines. This review summarizes insights into the role of NA-based immunity against IBV and highlights knowledge gaps that should be addressed to inform the design of next-generation influenza B vaccines. We discuss how antibodies recognize broadly cross-reactive epitopes on the NA and the lack of understanding of IBV NA antigenic evolution which would benefit vaccine development in the future., Expert Opinion: Demonstrating NA antibodies as correlates of protection for IBV in humans would be paramount. Determining the extent of IBV NA antigenic evolution will be informative. Finally, it will be critical to determine optimal strategies for incorporating the appropriate NA antigens in existing clinically approved vaccine formulations.

Published

2024

44. Assessment of antibodies in the upper and lower human respiratory tract at steady state and after respiratory viral infection.

Author

Koutsakos M, Turner JS, Guillamet MCV, Reynolds D, Lei T, Byers DE, Ellebedy AH, and Mudd PA

Abstract

Objectives: There is an increasing appreciation for the need to study mucosal antibody responses in humans. Our aim was to determine the utility of different types of samples from the human respiratory tract, specifically nasopharyngeal (NP) swabs obtained for diagnostic purposes and bronchoalveolar lavage (BAL) obtained in outpatient and inpatient settings., Methods: We analysed antibody levels in plasma and NP swabs from 67 individuals with acute influenza as well as plasma and BAL from individuals undergoing bronchoscopy, including five control subjects as well as seven moderately and seven severely ill subjects with a respiratory viral infection. Levels of α2-macroglobulin were determined in BAL and plasma to assess plasma exudation., Results: IgG and IgA were readily detectable in BAL and NP swabs, albeit at different ratios, while IgM levels were low. The total amount of antibody recovered from NP swabs varied greatly between study participants. Accordingly, the levels of influenza HA-specific antibodies varied, and individuals with lower amounts of total Ig in NP swabs had undetectable levels of HA-specific Ig. Similarly, the total amount of antibody recovered from BAL varied between study participants. However, severely ill patients showed evidence of increased plasma exudation, which may confound analysis of their BAL samples for mucosal antibodies., Conclusion: Nasopharyngeal swabs collected for diagnostic purposes may have utility in assessing antibodies from the human nasal mucosa, but variability in sampling should be accounted for. BAL samples can be utilised to study antibodies from the lower respiratory tract, but the possibility of plasma exudation should be excluded., Competing Interests: The Ellebedy laboratory has received funding from Moderna, Emergent BioSolutions and AbbVie, which are unrelated to the data presented in the current study. JST has received consulting fees from Curevac. AHE has received consulting and speaking fees from InBios International, Inc, Fimbrion Therapeutics, RGAX, Mubadala Investment Company, Moderna, Pfizer, GSK, Danaher, Third Rock Ventures, Goldman Sachs and Morgan Stanley and is the founder of ImmuneBio Consulting. JST and AHE are recipients of a licensing agreement with Abbvie that is unrelated to the data presented in the current study. Other authors declare no conflicts of interest., (© 2023 The Authors. Clinical & Translational Immunology published by John Wiley & Sons Australia, Ltd on behalf of Australian and New Zealand Society for Immunology, Inc.)

Published

2023

45. Durable reprogramming of neutralizing antibody responses following Omicron breakthrough infection.

Author

Lee WS, Tan HX, Reynaldi A, Esterbauer R, Koutsakos M, Nguyen J, Amarasena T, Kent HE, Aggarwal A, Turville SG, Taiaroa G, Kinsella P, Liew KC, Tran T, Williamson DA, Cromer D, Davenport MP, Kent SJ, Juno JA, Khoury DS, and Wheatley AK

Subjects

Humans, SARS-CoV-2, Antibodies, Neutralizing, Breakthrough Infections, COVID-19

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) breakthrough infection of vaccinated individuals is increasingly common with the circulation of highly immune evasive and transmissible Omicron variants. Here, we report the dynamics and durability of recalled spike-specific humoral immunity following Omicron BA.1 or BA.2 breakthrough infection, with longitudinal sampling up to 8 months after infection. Both BA.1 and BA.2 infections robustly boosted neutralization activity against the infecting strain while expanding breadth against BA.4, although neutralization activity was substantially reduced for the more recent XBB and BQ.1.1 strains. Cross-reactive memory B cells against both ancestral and Omicron spike were predominantly expanded by infection, with limited recruitment of de novo Omicron-specific B cells or antibodies. Modeling of neutralization titers predicts that protection from symptomatic reinfection against antigenically similar strains will be durable but is undermined by new emerging strains with further neutralization escape.

Published

2023

46. Robust immunity to influenza vaccination in haematopoietic stem cell transplant recipients following reconstitution of humoral and adaptive immunity.

Author

Zhang W, Rowntree LC, Muttucumaru R, Damelang T, Aban M, Hurt AC, Auladell M, Esterbauer R, Wines B, Hogarth M, Turner SJ, Wheatley AK, Kent SJ, Patil S, Avery S, Morrissey O, Chung AW, Koutsakos M, Nguyen TH, Cheng AC, Kotsimbos TC, and Kedzierska K

Abstract

Objectives: Influenza causes significant morbidity and mortality, especially in high-risk populations. Although current vaccination regimens are the best method to combat annual influenza disease, vaccine efficacy can be low in high-risk groups, such as haematopoietic stem cell transplant (HSCT) recipients., Methods: We comprehensively assessed humoral immunity, antibody landscapes, systems serology and influenza-specific B-cell responses, together with their phenotypes and isotypes, to the inactivated influenza vaccine (IIV) in HSCT recipients in comparison to healthy controls., Results: Inactivated influenza vaccine significantly increased haemagglutination inhibition (HAI) titres in HSCT recipients, similar to healthy controls. Systems serology revealed increased IgG1 and IgG3 antibody levels towards the haemagglutinin (HA) head, but not to neuraminidase, nucleoprotein or HA stem. IIV also increased frequencies of total, IgG class-switched and CD21 lo CD27 + influenza-specific B cells, determined by HA probes and flow cytometry. Strikingly, 40% of HSCT recipients had markedly higher antibody responses towards A/H3N2 vaccine strain than healthy controls and showed cross-reactivity to antigenically drifted A/H3N2 strains by antibody landscape analysis. These superior humoral responses were associated with a greater time interval after HSCT, while multivariant analyses revealed the importance of pre-existing immune memory. Conversely, in HSCT recipients who did not respond to the first dose, the second IIV dose did not greatly improve their humoral response, although 50% of second-dose patients reached a seroprotective HAI titre for at least one of vaccine strains., Conclusions: Our study demonstrates efficient, although time-dependent, immune responses to IIV in HSCT recipients, and provides insights into influenza vaccination strategies targeted to immunocompromised high-risk groups., Competing Interests: MK has acted as a consultant for Sanofi group of companies but not at the time the research was conducted. All other authors have declared that no conflict of interest exists., (© 2023 The Authors. Clinical & Translational Immunology published by John Wiley & Sons Australia, Ltd on behalf of Australian and New Zealand Society for Immunology, Inc.)

Published

2023

47. Immunological imprinting: Understanding COVID-19.

Author

Koutsakos M and Ellebedy AH

Subjects

Humans, COVID-19 Vaccines, COVID-19

Abstract

Immunological imprinting generically refers to the effects prior exposures have on subsequent immune responses to, and eventually protection against, antigenically related viruses. Here, Koutsakos and Ellebedy explain different concepts and terms around imprinting and the fundamental immunological principles behind it. They also discuss the potential role imprinting may have in the context of COVID-19 vaccines., Competing Interests: Declaration of interests M.K. has acted as a consultant for Sanofi group of companies. The Ellebedy laboratory has received funding under sponsored research agreements from Moderna, Emergent BioSolutions, and AbbVie. A.H.E. has received consulting and speaking fees from InBios International, Inc, Fimbrion Therapeutics, RGAX, Mubadala Investment Company, Moderna, Pfizer, GSK, Danaher, Third Rock Ventures, Goldman Sachs, and Morgan Stanley; is the founder of ImmuneBio Consulting and a recipient of royalties from licensing agreements with Abbvie and Leyden Laboratories B.V. The content of this manuscript is solely the responsibility of the authors and does not necessarily represent the official view of NIAID or NIH., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

48. SARS-CoV-2 breakthrough infection induces rapid memory and de novo T cell responses.

Author

Koutsakos M, Reynaldi A, Lee WS, Nguyen J, Amarasena T, Taiaroa G, Kinsella P, Liew KC, Tran T, Kent HE, Tan HX, Rowntree LC, Nguyen THO, Thomas PG, Kedzierska K, Petersen J, Rossjohn J, Williamson DA, Khoury D, Davenport MP, Kent SJ, Wheatley AK, and Juno JA

Subjects

Humans, SARS-CoV-2, CD8-Positive T-Lymphocytes, Breakthrough Infections, RNA, Viral, Antibodies, Neutralizing, Antibodies, Viral, Vaccination, COVID-19

Abstract

Although the protective role of neutralizing antibodies against COVID-19 is well established, questions remain about the relative importance of cellular immunity. Using 6 pMHC multimers in a cohort with early and frequent sampling, we define the phenotype and kinetics of recalled and primary T cell responses following Delta or Omicron breakthrough infection in previously vaccinated individuals. Recall of spike-specific CD4 + T cells was rapid, with cellular proliferation and extensive activation evident as early as 1 day post symptom onset. Similarly, spike-specific CD8 + T cells were rapidly activated but showed variable degrees of expansion. The frequency of activated SARS-CoV-2-specific CD8 + T cells at baseline and peak inversely correlated with peak SARS-CoV-2 RNA levels in nasal swabs and accelerated viral clearance. Our study demonstrates that a rapid and extensive recall of memory T cell populations occurs early after breakthrough infection and suggests that CD8 + T cells contribute to the control of viral replication in breakthrough SARS-CoV-2 infections., Competing Interests: Declaration of interests M.K. has acted as a consultant for Sanofi group of companies., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

49. Prime-boost, double-dose influenza vaccine immunity in COPD: a pilot observational study.

Author

Anderson GP, Irving LB, Jarnicki A, Kedzierska K, Koutsakos M, Kent S, Hurt AC, Wheatley AK, Nguyen THO, Snape N, and Upham JW

Abstract

Background: COPD patients are more susceptible to viral respiratory infections and their sequelae, and have intrinsically weaker immune responses to vaccinations against influenza and other pathogens. Prime-boost, double-dose immunisation has been suggested as a general strategy to overcome weak humoral response to vaccines, such as seasonal influenza vaccination, in susceptible populations with weak immunity. However, this strategy, which may also provide fundamental insights into the nature of weakened immunity, has not been formally studied in COPD., Methods: We conducted an open-label study of seasonal influenza vaccination in 33 vaccine-experienced COPD patients recruited from established cohorts (mean age 70 (95% CI 66.9-73.2) years; mean forced expiratory volume in 1 s/forced vital capacity ratio 53.4% (95% CI 48.0-58.8%)). Patients received two sequential standard doses of the 2018 quadrivalent influenza vaccine (15 μg haemagglutinin per strain) in a prime-boost schedule 28 days apart. We measured strain-specific antibody titres, an accepted surrogate of likely efficacy, and induction of strain-specific B-cell responses following the prime and boost immunisations., Results: Whereas priming immunisation induced the expected increase in strain-specific antibody titres, a second booster dose was strikingly ineffective at further increasing antibody titres. Similarly, priming immunisation induced strain-specific B-cells, but a second booster dose did not further enhance the B-cell response. Poor antibody responses were associated with male gender and cumulative cigarette exposure., Conclusions: Prime-boost, double-dose immunisation does not further improve influenza vaccine immunogenicity in previously vaccinated COPD patients. These findings underscore the need to design more effective vaccine strategies for COPD patients for influenza., Competing Interests: Conflict of interest: All authors declare no conflict of interest., (Copyright ©The authors 2023.)

Published

2023

50. Immunization with inactivated whole virus particle influenza virus vaccines improves the humoral response landscape in cynomolgus macaques.

Author

Chua BY, Sekiya T, Koutsakos M, Nomura N, Rowntree LC, Nguyen THO, McQuilten HA, Ohno M, Ohara Y, Nishimura T, Endo M, Itoh Y, Habel JR, Selva KJ, Wheatley AK, Wines BD, Hogarth PM, Kent SJ, Chung AW, Jackson DC, Brown LE, Shingai M, Kedzierska K, and Kida H

Subjects

Animals, Humans, Hemagglutinins, Antibodies, Viral, Vaccination, Hemagglutination Inhibition Tests, Vaccines, Inactivated, Macaca fascicularis, Virion, Immunoglobulin A, Immunoglobulin G, Nucleoproteins, Influenza Vaccines, Influenza A Virus, H1N1 Subtype, Influenza, Human

Abstract

Although antibody-inducing split virus vaccines (SV) are currently the most effective way to combat seasonal influenza, their efficacy can be modest, especially in immunologically-naïve individuals. We investigated immune responses towards inactivated whole influenza virus particle vaccine (WPV) formulations, predicated to be more immunogenic, in a non-human primate model, as an important step towards clinical testing in humans. Comprehensive analyses were used to capture 46 immune parameters to profile how WPV-induced responses differed to those elicited by antigenically-similar SV formulations. Naïve cynomolgus macaques vaccinated with either monovalent or quadrivalent WPV consistently induced stronger antibody responses and hemagglutination inhibition (HI) antibody titres against vaccine-matched viruses compared to SV formulations, while acute reactogenic effects were similar. Responses in WPV-primed animals were further increased by boosting with the same formulation, conversely to modest responses after priming and boosting with SV. 28-parameter multiplex bead array defined key antibody features and showed that while both WPV and SV induced elevated IgG responses against A/H1N1 nucleoprotein, only WPV increased IgG responses against A/H1N1 hemagglutinin (HA) and HA-Stem, and higher IgA responses to A/H1N1-HA after each vaccine dose. Antibodies to A/H1N1-HA and HA-Stem that could engage FcγR2a and FcγR3a were also present at higher levels after one dose of WPV compared to SV and remained elevated after the second dose. Furthermore, WPV-enhanced antibody responses were associated with higher frequencies of HA-specific B-cells and IFN-γ-producing CD4+ T-cell responses. Our data additionally demonstrate stronger boosting of HI titres by WPV following prior infection and support WPV administered as a priming dose irrespective of the follow up vaccine for the second dose. Our findings thus show that compared to SV vaccination, WPV-induced humoral responses are significantly increased in scope and magnitude, advocating WPV vaccination regimens for priming immunologically-naïve individuals and also in the event of a pandemic outbreak., Competing Interests: The authors have declared that no competing interests exist.

Published

2022