Your search keyword '"Ottenhoff THM"' showing total 129 results

1. Genome-Wide Expression Profiling Identifies Type 1 Interferon Response Pathways in Active Tuberculosis

Author

Seielstad, Mark, Ottenhoff, THM, Dass, RH, Yang, N, Zhang, MM, Wong, HEE, Sahiratmadja, E, Khor, CC, Alisjahbana, B, van, R, and Marzuki, S

Abstract

Tuberculosis (TB), caused by Mycobacterium tuberculosis (M.tb), remains the leading cause of mortality from a single infectious agent. Each year around 9 million individuals newly develop active TB disease, and over 2 billion individuals are latently infec

Published

2012

2. Immunoglobulin G1 Fc glycosylation as an early hallmark of severe COVID-19.

Author

Pongracz, T, Nouta, J, Wang, Wenjun, van, Meijgaarden KE, Linty, F, Vidarsson, G, Joosten, SA, Ottenhoff, THM, Hokke, CH, de, Vries JJC, Arbous, SM, Roukens, AHE, groups, COVID-19, Pongracz, T, Nouta, J, Wang, Wenjun, van, Meijgaarden KE, Linty, F, Vidarsson, G, Joosten, SA, Ottenhoff, THM, Hokke, CH, de, Vries JJC, Arbous, SM, Roukens, AHE, and groups, COVID-19

Abstract

Background: Immunoglobulin G1 (IgG1) effector functions are impacted by the structure of fragment crystallizable (Fc) tail-linked N-glycans. Low fucosylation levels on severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike (S) protein-specific IgG1 has been described as a hallmark of severe coronavirus disease 2019 (COVID-19) and may lead to activation of macrophages via immune complexes thereby promoting inflammatory responses, altogether suggesting involvement of IgG1 Fc glycosylation modulated immune mechanisms in COVID-19. Methods: In this prospective, observational single center cohort study, IgG1 Fc glycosylation was analyzed by liquid chromatography-mass spectrometry following affinity capturing from serial plasma samples of 159 SARS-CoV-2 infected hospitalized patients. Findings: At baseline close to disease onset, anti-S IgG1 glycosylation was highly skewed when compared to total plasma IgG1. A rapid, general reduction in glycosylation skewing was observed during the disease course. Low anti-S IgG1 galactosylation and sialylation as well as high bisection were early hallmarks of disease severity, whilst high galactosylation and sialylation and low bisection were found in patients with low disease severity. In line with these observations, anti-S IgG1 glycosylation correlated with various inflammatory markers. Interpretation: Association of low galactosylation, sialylation as well as high bisection with disease severity and inflammatory markers suggests that further studies are needed to understand how anti-S IgG1 glycosylation may contribute to disease mechanism and to evaluate its biomarker potential. Funding: This project received funding from the European Commission's Horizon2020 research and innovation program for H2020-MSCA-ITN IMforFUTURE, under grant agreement number 721815, and supported by Crowdfunding Wake Up To Corona, organized by the Leiden University Fund.

Published

2022

3. Immunoglobulin G1 Fc glycosylation as an early hallmark of severe COVID-19.

Author

Afd Biomol.Mass Spect. and Proteomics, Biomolecular Mass Spectrometry and Proteomics, Pongracz, T, Nouta, J, Wang, Wenjun, van, Meijgaarden KE, Linty, F, Vidarsson, G, Joosten, SA, Ottenhoff, THM, Hokke, CH, de, Vries JJC, Arbous, SM, Roukens, AHE, groups, COVID-19, Afd Biomol.Mass Spect. and Proteomics, Biomolecular Mass Spectrometry and Proteomics, Pongracz, T, Nouta, J, Wang, Wenjun, van, Meijgaarden KE, Linty, F, Vidarsson, G, Joosten, SA, Ottenhoff, THM, Hokke, CH, de, Vries JJC, Arbous, SM, Roukens, AHE, and groups, COVID-19

Published

2022

4. Identification of Reduced Host Transcriptomic Signatures for Tuberculosis Disease and Digital PCR-Based Validation and Quantification

Author

Gliddon, HD, Kaforou, M, Alikian, M, Habgood-Coote, D, Zhou, C, Oni, T, Anderson, ST, Brent, AJ, Crampin, AC, Eley, B, Heyderman, R, Kern, F, Langford, PR, Ottenhoff, THM, Hibberd, ML, French, N, Wright, VJ, Dockrell, HM, Coin, LJ, Wilkinson, RJ, Levin, M, Gliddon, HD, Kaforou, M, Alikian, M, Habgood-Coote, D, Zhou, C, Oni, T, Anderson, ST, Brent, AJ, Crampin, AC, Eley, B, Heyderman, R, Kern, F, Langford, PR, Ottenhoff, THM, Hibberd, ML, French, N, Wright, VJ, Dockrell, HM, Coin, LJ, Wilkinson, RJ, and Levin, M

Abstract

Recently, host whole blood gene expression signatures have been identified for diagnosis of tuberculosis (TB). Absolute quantification of the concentrations of signature transcripts in blood have not been reported, but would facilitate diagnostic test development. To identify minimal transcript signatures, we applied a transcript selection procedure to microarray data from African adults comprising 536 patients with TB, other diseases (OD) and latent TB (LTBI), divided into training and test sets. Signatures were further investigated using reverse transcriptase (RT)-digital PCR (dPCR). A four-transcript signature (GBP6, TMCC1, PRDM1, and ARG1) measured using RT-dPCR distinguished TB patients from those with OD (area under the curve (AUC) 93.8% (CI95% 82.2-100%). A three-transcript signature (FCGR1A, ZNF296, and C1QB) differentiated TB from LTBI (AUC 97.3%, CI95%: 93.3-100%), regardless of HIV. These signatures have been validated across platforms and across samples offering strong, quantitative support for their use as diagnostic biomarkers for TB.

Published

2021

5. RISK6, a 6-gene transcriptomic signature of TB disease risk, diagnosis and treatment response

Author

Penn-Nicholson, A, Mbandi, SK, Thompson, E, Mendelsohn, SC, Suliman, S, Chegou, NN, Malherbe, ST, Darboe, F, Erasmus, M, Hanekom, WA, Bilek, N, Fisher, M, Kaufmann, SHE, Winter, J, Murphy, M, Wood, R, Morrow, C, Van Rhijn, I, Moody, B, Murray, M, Andrade, BB, Sterling, TR, Sutherland, J, Naidoo, K, Padayatchi, N, Walzl, G, Hatherill, M, Zak, D, Scriba, TJ, Kafaar, F, Workman, L, Mulenga, H, Hughes, EJ, Xasa, O, Veldsman, A, Cloete, Y, Abrahams, D, Moyo, S, Gelderbloem, S, Tameris, M, Geldenhuys, H, Ehrlich, R, Verver, S, Geiter, L, Black, GF, van der Spuy, G, Stanley, K, Kriel, M, Du Plessis, N, Nene, N, Roberts, T, Kleynhans, L, Gutschmidt, A, Smith, B, Loxton, AG, Tromp, G, Tabb, D, Ottenhoff, THM, Klein, MR, Haks, MC, Franken, KLMC, Geluk, A, van Meijgaarden, KE, Joosten, SA, Boom, WH, Thiel, B, Mayanja-Kizza, H, Joloba, M, Zalwango, S, Nsereko, M, Okwera, B, Kisingo, H, Parida, SK, Golinski, R, Maertzdorf, J, Weiner, J, Jacobson, M, Dockrell, H, Smith, S, Gorak-Stolinska, P, Hur, YG, Lalor, M, Lee, JS, Crampin, AC, French, N, Ngwira, B, Ben-Smith, A, Watkins, K, Ambrose, L, Simukonda, F, Mvula, H, Chilongo, F, Saul, J, Branson, K, Mahomed, H, Downing, K, The Adolescent Cohort Study team, The GC6-74 Consortium, The SATVI Clinical and Laboratory Team, The ScreenTB Consortium, The AE-TBC Consortium, The RePORT Brazil Team, Peruvian Household Contacts Cohort Team, The CAPRISA IMPRESS team, APH - Methodology, APH - Global Health, AII - Amsterdam institute for Infection and Immunity, Global Health, AII - Infectious diseases, and Translational Immunology Groningen (TRIGR)

Subjects

0301 basic medicine, Oncology, Male, GC6-74 Consortium, AE-TBC Consortium, lcsh:Medicine, HIV Infections, Disease, Biomarkers/metabolism, Lung/diagnostic imaging, ScreenTB Consortium, Cohort Studies, Prognostic markers, 0302 clinical medicine, Immunopathology, Peruvian Household Contacts Cohort Team, CAPRISA IMPRESS team, 030212 general & internal medicine, lcsh:Science, Lung, Subclinical infection, screening and diagnosis, RNA, Bacterial/metabolism, Multidisciplinary, Bacterial/metabolism, Bacterial, Prognosis, Tuberculosis/complications, RNA, Bacterial, Detection, Infectious Diseases, Mycobacterium tuberculosis/genetics, Area Under Curve, Cohort, Biomarker (medicine), HIV/AIDS, Female, Adolescent Cohort Study team, Infection, Cohort study, 4.2 Evaluation of markers and technologies, RePORT Brazil Team, medicine.medical_specialty, Tuberculosis, Adolescent, Point-of-Care Systems, HIV Infections/complications, Real-Time Polymerase Chain Reaction/methods, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Article, 03 medical and health sciences, Rare Diseases, Tuberculosis diagnosis, Clinical Research, Internal medicine, medicine, Humans, business.industry, SATVI Clinical and Laboratory Team, Prevention, lcsh:R, Diagnostic markers, Mycobacterium tuberculosis, medicine.disease, 4.1 Discovery and preclinical testing of markers and technologies, 030104 developmental biology, Good Health and Well Being, ROC Curve, Positron-Emission Tomography, RNA, lcsh:Q, business, Biomarkers

Abstract

Improved tuberculosis diagnostics and tools for monitoring treatment response are urgently needed. We developed a robust and simple, PCR-based host-blood transcriptomic signature, RISK6, for multiple applications: identifying individuals at risk of incident disease, as a screening test for subclinical or clinical tuberculosis, and for monitoring tuberculosis treatment. RISK6 utility was validated by blind prediction using quantitative real-time (qRT) PCR in seven independent cohorts. Prognostic performance significantly exceeded that of previous signatures discovered in the same cohort. Performance for diagnosing subclinical and clinical disease in HIV-uninfected and HIV-infected persons, assessed by area under the receiver-operating characteristic curve, exceeded 85%. As a screening test for tuberculosis, the sensitivity at 90% specificity met or approached the benchmarks set out in World Health Organization target product profiles for non-sputum-based tests. RISK6 scores correlated with lung immunopathology activity, measured by positron emission tomography, and tracked treatment response, demonstrating utility as treatment response biomarker, while predicting treatment failure prior to treatment initiation. Performance of the test in capillary blood samples collected by finger-prick was noninferior to venous blood collected in PAXgene tubes. These results support incorporation of RISK6 into rapid, capillary blood-based point-of-care PCR devices for prospective assessment in field studies.

Published

2020

6. Interleukin-10 promoter single-nucleotide polymorphisms as markers for disease susceptibility and disease severity in leprosy

Author

Moraes, MO, Pacheco, AG, Schonkeren, JJM, Vanderborght, PR, Nery, JAC, Santos, AR, Moraes, ME, Moraes, JR, Ottenhoff, THM, Sampaio, EP, Huizinga, TWJ, and Sarno, EN

Published

2004

7. Mycobacterium tuberculosis clinical isolates of the Beijing and East-African Indian lineage induce fundamentally different host responses in mice compared to H37Rv

Author

Mourik, Bas, de Steenwinkel, Jurriaan, Knegt, Gerjo, Huizinga, Ruth, Verbon, Annelies, Ottenhoff, THM, van Soolingen, D, Leenen, Pieter, Mourik, Bas, de Steenwinkel, Jurriaan, Knegt, Gerjo, Huizinga, Ruth, Verbon, Annelies, Ottenhoff, THM, van Soolingen, D, and Leenen, Pieter

Published

2019

8. Heterogeneity in the granulomatous response to mycobacterial infection in patients with defined genetic mutations in the interleukin 12-dependent interferon-gamma production pathway

Author

LAMMAS, DA, DE HEER, E, EDGAR, JD, NOVELLI, V, BEN-SMITH, A, BARETTO, R, DRYSDALE, P, BINCH, J, MACLENNAN, C, KUMARARATNE, DS, PANCHALINGAM, S, OTTENHOFF, THM, CASANOVA, J-L, and EMILE, JF

Published

2002

9. TBVAC2020: Advancing Tuberculosis Vaccines from Discovery to Clinical Development

Author

Kaufmann, SHE, Dockrell, H.M., Drager, N., Ho, M.M., McShane, H., Neyrolles, O., Ottenhoff, THM, Patel, B., Roordink, D., Spertini, F., Stenger, S., Thole, J., Verreck, FAW, Williams, A., TBVAC2020 Consortium, Britton, W., Triccas, J., Counoupas, C., Grooten, J., Demoitie, M.A., Romano, M., Mascart, F., Andersen, P., Aagaard, C., Christensen, D., Ruhwald, M., Lindenstrom, T., Neyrolles, O., Charneau, P., Guilhot, C., Peixoto, A., Gilleron, M., Locht, C., Brosch, R., Inchauspe, G., Long, SLT, Kaufmann, S., Weiner, J., Maertzdorf, J., Neuwenhuizen, N., Bastian, M., Stenger, S., Caccamo, N., Goletti, D., Nisini, R., Shin, S.J., Lee, H., Sigal, A., Scriba, T., Walzl, G., Loxton, A., Wilkinson, R., Cardona, P.J., Vilaplana, C., Martin, C., Marinova, D., Aguilo, N., Spertini, F., Aebersold, R., Caron, E., Pinschewer, D., De Libero, G., Siegrist, C.A., Collin, N., Barnier-Quer, C., Sander, P., Verreck, F., Ottenhoff, T., Joosten, S., van Meijgaarden, K., Coppola, M., Geluk, A., Drager, N., Roordink, D., Thole, J., Perrie, Y., Baird, M., Levin, M., Dockrell, H., Smith, S., Fletcher, H., Bancroft, G., Rawkins, A., Clark, S., Ho, M.M., McShane, H., Satti, I., Stylianou, E., Vordermeier, M., and Hogarth, P.

Subjects

bacille Calmette–Guérin, biomarker, clinical trial, discovery, portfolio management, tuberculosis, vaccination

Abstract

TBVAC2020 is a research project supported by the Horizon 2020 program of the European Commission (EC). It aims at the discovery and development of novel tuberculosis (TB) vaccines from preclinical research projects to early clinical assessment. The project builds on previous collaborations from 1998 onwards funded through the EC framework programs FP5, FP6, and FP7. It has succeeded in attracting new partners from outstanding laboratories from all over the world, now totaling 40 institutions. Next to the development of novel vaccines, TB biomarker development is also considered an important asset to facilitate rational vaccine selection and development. In addition, TBVAC2020 offers portfolio management that provides selection criteria for entry, gating, and priority settings of novel vaccines at an early developmental stage. The TBVAC2020 consortium coordinated by TBVI facilitates collaboration and early data sharing between partners with the common aim of working toward the development of an effective TB vaccine. Close links with funders and other consortia with shared interests further contribute to this goal.

Published

2017

10. Interactions between Type 1 Interferons and the Th17 Response in Tuberculosis: Lessons Learned from Autoimmune Diseases

Author

Mourik, Bas, Lubberts, Erik, de Steenwinkel, Jurriaan, Ottenhoff, THM, Leenen, Pieter, Mourik, Bas, Lubberts, Erik, de Steenwinkel, Jurriaan, Ottenhoff, THM, and Leenen, Pieter

Published

2017

11. Characteristics of HLA-E Restricted T-Cell Responses and Their Role in Infectious Diseases

Author

Joosten, SA, Sullivan, LC, Ottenhoff, THM, Joosten, SA, Sullivan, LC, and Ottenhoff, THM

Abstract

Human HLA-E can, in addition to self-antigens, also present pathogen-derived sequences, which elicit specific T-cell responses. T-cells recognize their antigen presented by HLA-E highly specifically and have unique functional and phenotypical properties. Pathogen specific HLA-E restricted CD8+ T-cells are an interesting new player in the field of immunology. Future work should address their exact roles and relative contributions in the immune response against infectious diseases.

Published

2016

12. Human T cell responses to peptides of the Mycobacterium leprae 45-kD serine-rich antigen

Author

Brahmbhatt, S, Hussain, R, Zafar, S, Dawood, G, Ottenhoff, THM, Drijfhout, JW, Bothamley, G, Smith, S, Lopez, FV, and Dockrell, HM

Abstract

In order to identify T cell epitopes within the Mycobacterium leprae 45-kD serine-rich antigen, we analysed responses to overlapping 17-mer peptides encompassing the whole antigen in non-exposed UK controls, Pakistani leprosy patients and tuberculosis patients in both the United Kingdom and Pakistan. This antigen has been described as M. leprae-specific, although it has a hypothetical homologue in M. tuberculosis. Human peripheral blood mononuclear cells were stimulated with peptide for 5 days and IFN-gamma measured in supernatants by ELISA. Some peptides were recognized more frequently by T cells from tuberculoid leprosy patients than those from UK controls, suggesting that such T cell epitopes might have diagnostic potential, while other peptides induced greater responses among UK control subjects. Short-term cell lines confirmed that these assays detected specific T cell recognition of these peptides. However, many tuberculosis patients also recognized these potentially specific peptides suggesting that there could be a true homologue present in M. tuberculosis.

Published

2002

13. Dynamics of interferon-gamma release assay and cytokine profiles in blood and respiratory tract specimens from mice with tuberculosis and the effect of therapy

Author

de Steenwinkel, Jurriaan, Knegt, Gerjo, ten Kate, Marian, Verbrugh, Henri, Ottenhoff, THM, Woudenberg, Irma, de Steenwinkel, Jurriaan, Knegt, Gerjo, ten Kate, Marian, Verbrugh, Henri, Ottenhoff, THM, and Woudenberg, Irma

Abstract

There are limitations on diagnostic methods to differentiate between active and latent tuberculosis (TB), and the prediction of latent progression to TB disease is yet complex. Traditionally, tuberculosis-specific host immune response was visualized using the tuberculin skin test. Nowadays, IFN-gamma release assays (IGRA) provide a more specific and sensitive tool, by which exposure to Mtb could be determined. However, the merit of IGRA aids in diagnosing active TB is yet unclear. We adapted IGRA for use in mice, and quantifying bead-based flow cytometry techniques were used to assess cytokine profiles during the course of untreated infection and to investigate the value of IGRA and cytokines as biomarkers for therapy response. High variability of IGRA results during progression of active TB infection related to various phases of infection was obtained. However, a significant decrease in IGRA results and in levels of IFN-gamma, IL-17, IP-10 or MIG was observed and appeared to be associated with successful therapy. This outcome does not support the value of IGRA to accurately diagnose active TB or to monitor infection progression. However, IGRA proved to be a useful biomarker to monitor therapy success. In addition, different cytokines might serve as biomarkers.

Published

2012

14. Mtb -Specific HLA-E-Restricted T Cells Are Induced during Mtb Infection but Not after BCG Administration in Non-Human Primates and Humans.

Author

Voogd L, van Wolfswinkel M, Satti I, White AD, Dijkman K, Gela A, van Meijgaarden KE, Franken KLMC, Marshall JL, Ottenhoff THM, Scriba TJ, McShane H, Sharpe SA, Verreck FAW, and Joosten SA

Abstract

Background: Novel vaccines targeting the world's deadliest pathogen Mycobacterium tuberculosis ( Mtb ) are urgently needed as the efficacy of the Bacillus Calmette-Guérin (BCG) vaccine in its current use is limited. HLA-E is a virtually monomorphic unconventional antigen presentation molecule, and HLA-E-restricted Mtb -specific CD8 + T cells can control intracellular Mtb growth, making HLA-E a promising vaccine target for Mtb . Methods: In this study, we evaluated the frequency and phenotype of HLA-E-restricted Mtb -specific CD4 + /CD8 + T cells in the circulation and bronchoalveolar lavage fluid of two independent non-human primate (NHP) studies and from humans receiving BCG either intradermally or mucosally. Results: BCG vaccination followed by Mtb challenge in NHPs did not affect the frequency of circulating and local HLA-E- Mtb CD4 + and CD8 + T cells, and we saw the same in humans receiving BCG. HLA-E- Mtb T cell frequencies were significantly increased after Mtb challenge in unvaccinated NHPs, which was correlated with higher TB pathology. Conclusions: Together, HLA-E- Mtb -restricted T cells are minimally induced by BCG in humans and rhesus macaques (RMs) but can be elicited after Mtb infection in unvaccinated RMs. These results give new insights into targeting HLA-E as a potential immune mechanism against TB.

Published

2024

15. Mycobacteria develop biofilms on airway epithelial cells and promote mucosal barrier disruption.

Author

Barclay AM, Ninaber DK, Limpens RWAL, Walburg KV, Bárcena M, Hiemstra PS, Ottenhoff THM, van der Does AM, and Joosten SA

Abstract

Tuberculosis displays several features commonly linked to biofilm-associated infections, including recurrence of infection and resistance to antibiotic treatment. The respiratory epithelium represents the first line of defense against pathogens such as Mycobacterium tuberculosis (Mtb). Here, we use an air-liquid interface model of human primary bronchial epithelial cells (PBEC) to explore the capability of four species of mycobacteria (Mtb, M. bovis (BCG), M. avium, and M. smegmatis ) to form biofilms on airway epithelial cells. Mtb, BCG, and M. smegmatis consistently formed biofilms with extracellular matrixes on PBEC cultures. Biofilms varied in biomass, matrix polysaccharide content, and bacterial metabolic activity between species. Exposure of PBEC to mycobacteria caused the disruption of the epithelial barrier and was accompanied by mostly apical non-apoptotic cell death. Structural analysis revealed pore-like structures in 7-day biofilms. Taken together, mycobacteria can form biofilms on human airway epithelial cells, and long-term infection negatively affects barrier function and promotes cell death., Competing Interests: The authors declare no competing interests., (© 2024 The Author(s).)

Published

2024

16. The Human Pathogen Mycobacterium tuberculosis and the Fish Pathogen Mycobacterium marinum Trigger a Core Set of Late Innate Immune Response Genes in Zebrafish Larvae.

Author

Dirks RP, Ordas A, Jong-Raadsen S, Brittijn SA, Haks MC, Henkel CV, Oravcova K, Racz PI, Tuinhof-Koelma N, Korzeniowska Nee Wiweger MI, Gillespie SH, Meijer AH, Ottenhoff THM, Jansen HJ, and Spaink HP

Abstract

Zebrafish is a natural host of various Mycobacterium species and a surrogate model organism for tuberculosis research. Mycobacterium marinum is evolutionarily one of the closest non-tuberculous species related to M. tuberculosis and shares the majority of virulence genes. Although zebrafish is not a natural host of the human pathogen, we have previously demonstrated successful robotic infection of zebrafish embryos with M. tuberculosis and performed drug treatment of the infected larvae. In the present study, we examined for how long M. tuberculosis can be propagated in zebrafish larvae and tested a time series of infected larvae to study the transcriptional response via Illumina RNA deep sequencing (RNAseq). Bacterial aggregates carrying fluorescently labeled M. tuberculosis could be detected up to 9 days post-infection. The infected larvae showed a clear and specific transcriptional immune response with a high similarity to the inflammatory response of zebrafish larvae infected with the surrogate species M. marinum . We conclude that M. tuberculosis can be propagated in zebrafish larvae for at least one week after infection and provide further evidence that M. marinum is a good surrogate model for M. tuberculosis . The generated extensive transcriptome data sets will be of great use to add translational value to zebrafish as a model for infection of tuberculosis using the M. marinum infection system. In addition, we identify new marker genes such as dusp8 and CD180 that are induced by M. tuberculosis infection in zebrafish and in human macrophages at later stages of infection that can be further investigated.

Published

2024

17. Host-directed therapy with amiodarone in preclinical models restricts mycobacterial infection and enhances autophagy.

Author

Kilinç G, Boland R, Heemskerk MT, Spaink HP, Haks MC, van der Vaart M, Ottenhoff THM, Meijer AH, and Saris A

Subjects

Animals, Humans, Disease Models, Animal, Mycobacterium avium drug effects, Lysosomes drug effects, Lysosomes metabolism, Lysosomes microbiology, Amiodarone pharmacology, Autophagy drug effects, Zebrafish microbiology, Macrophages microbiology, Macrophages immunology, Macrophages drug effects, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis growth & development, Tuberculosis drug therapy, Tuberculosis microbiology

Abstract

Mycobacterium tuberculosis ( Mtb ) as well as nontuberculous mycobacteria are intracellular pathogens whose treatment is extensive and increasingly impaired due to the rise of mycobacterial drug resistance. The loss of antibiotic efficacy has raised interest in the identification of host-directed therapeutics (HDT) to develop novel treatment strategies for mycobacterial infections. In this study, we identified amiodarone as a potential HDT candidate that inhibited both intracellular Mtb and Mycobacterium avium in primary human macrophages without directly impairing bacterial growth, thereby confirming that amiodarone acts in a host-mediated manner. Moreover, amiodarone induced the formation of (auto)phagosomes and enhanced autophagic targeting of mycobacteria in macrophages. The induction of autophagy by amiodarone is likely due to enhanced transcriptional regulation, as the nuclear intensity of the transcription factor EB, the master regulator of autophagy and lysosomal biogenesis, was strongly increased. Furthermore, blocking lysosomal degradation with bafilomycin impaired the host-beneficial effect of amiodarone. Finally, amiodarone induced autophagy and reduced bacterial burden in a zebrafish embryo model of tuberculosis, thereby confirming the HDT activity of amiodarone in vivo . In conclusion, we have identified amiodarone as an autophagy-inducing antimycobacterial HDT that improves host control of mycobacterial infections., Importance: Due to the global rise in antibiotic resistance, there is a strong need for alternative treatment strategies against intracellular bacterial infections, including Mycobacterium tuberculosis ( Mtb ) and non-tuberculous mycobacteria. Stimulating host defense mechanisms by host-directed therapy (HDT) is a promising approach for treating mycobacterial infections. This study identified amiodarone, an antiarrhythmic agent, as a potential HDT candidate that inhibits the survival of Mtb and Mycobacterium avium in primary human macrophages. The antimycobacterial effect of amiodarone was confirmed in an in vivo tuberculosis model based on Mycobacterium marinum infection of zebrafish embryos. Furthermore, amiodarone induced autophagy and inhibition of the autophagic flux effectively impaired the host-protective effect of amiodarone, supporting that activation of the host (auto)phagolysosomal pathway is essential for the mechanism of action of amiodarone. In conclusion, we have identified amiodarone as an autophagy-inducing HDT that improves host control of a wide range of mycobacteria., Competing Interests: The authors declare no conflict of interest.

Published

2024

18. Identification of kinase inhibitors as potential host-directed therapies for intracellular bacteria.

Author

van den Biggelaar RHGA, Walburg KV, van den Eeden SJF, van Doorn CLR, Meiler E, de Ries AS, Fusco MC, Meijer AH, Ottenhoff THM, and Saris A

Subjects

Animals, Humans, Salmonella Infections drug therapy, Salmonella Infections microbiology, Anti-Bacterial Agents pharmacology, Cell Line, Embryo, Nonmammalian drug effects, Tuberculosis drug therapy, Tuberculosis microbiology, Zebrafish, Salmonella typhimurium drug effects, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis enzymology, Protein Kinase Inhibitors pharmacology, Macrophages microbiology, Macrophages drug effects, Macrophages metabolism

Abstract

The emergence of antimicrobial resistance has created an urgent need for alternative treatments against bacterial pathogens. Here, we investigated kinase inhibitors as potential host-directed therapies (HDTs) against intracellular bacteria, specifically Salmonella Typhimurium (Stm) and Mycobacterium tuberculosis (Mtb). We screened 827 ATP-competitive kinase inhibitors with known target profiles from two Published Kinase Inhibitor Sets (PKIS1 and PKIS2) using intracellular infection models for Stm and Mtb, based on human cell lines and primary macrophages. Additionally, the in vivo safety and efficacy of the compounds were assessed using zebrafish embryo infection models. Our screen identified 11 hit compounds for Stm and 17 hit compounds for Mtb that were effective against intracellular bacteria and non-toxic for host cells. Further experiments were conducted to prioritize Stm hit compounds that were able to clear the intracellular infection in primary human macrophages. From these, two structurally related Stm hit compounds, GSK1379738A and GSK1379760A, exhibited significant activity against Stm in infected zebrafish embryos. In addition, we identified compounds that were active against intracellular Mtb, including morpholino-imidazo/triazolo-pyrimidinones that target PIK3CB, as well as 2-aminobenzimidazoles targeting ABL1. Overall, this study provided insights into kinase targets acting at the host-pathogen interface and identified several kinase inhibitors as potential HDTs., (© 2024. The Author(s).)

Published

2024

19. Longitudinal soluble marker profiles reveal strong association between cytokine storms resulting from macrophage activation and disease severity in COVID-19 disease.

Author

van Meijgaarden KE, van Veen S, Tsonaka R, Ruibal P, Roukens AHE, Arbous SM, Manniën J, Cannegieter SC, Ottenhoff THM, and Joosten SA

Subjects

Humans, Male, Female, Middle Aged, SARS-CoV-2 isolation & purification, Cytokines blood, Cytokine Release Syndrome blood, Adult, Aged, Serum Amyloid P-Component metabolism, Serum Amyloid P-Component analysis, C-Reactive Protein, COVID-19 blood, COVID-19 immunology, Biomarkers blood, Severity of Illness Index, Macrophage Activation

Abstract

SARS-CoV2 infection results in a range of disease severities, but the underlying differential pathogenesis is still not completely understood. At presentation it remains difficult to estimate and predict severity, in particular, identify individuals at greatest risk of progression towards the most severe disease-states. Here we used advanced models with circulating serum analytes as variables in combination with daily assessment of disease severity using the SCODA-score, not only at single time points but also during the course of disease, to correlate analyte levels and disease severity. We identified a remarkably strong pro-inflammatory cytokine/chemokine profile with high levels for sCD163, CCL20, HGF, CHintinase3like1 and Pentraxin3 in serum which correlated with COVID-19 disease severity and overall outcome. Although precise analyte levels differed, resulting biomarker profiles were highly similar at early and late disease stages, and even during convalescence similar biomarkers were elevated and further included CXCL3, CXCL6 and Osteopontin. Taken together, strong pro-inflammatory marker profiles were identified in patients with COVID-19 disease which correlated with overall outcome and disease severity., (© 2024. The Author(s).)

Published

2024

20. Intrinsic immunogenicity of liposomes for tuberculosis vaccines: Effect of cationic lipid and cholesterol.

Author

Szachniewicz MM, Neustrup MA, van Meijgaarden KE, Jiskoot W, Bouwstra JA, Haks MC, Geluk A, and Ottenhoff THM

Subjects

Humans, Animals, Mice, Liposomes chemistry, Adjuvants, Immunologic chemistry, Vaccines, Subunit, Lipids chemistry, Cholesterol chemistry, Mice, Inbred C57BL, Tuberculosis Vaccines chemistry, Vaccines

Abstract

Tuberculosis (TB) is still among the deadliest infectious diseases, hence there is a pressing need for more effective TB vaccines. Cationic liposome subunit vaccines are excellent vaccine candidates offering effective protection with a better safety profile than live vaccines. In this study, we aim to explore intrinsic adjuvant properties of cationic liposomes to maximize immune activation while minimizing aspecific cytotoxicity. To achieve this, we developed a rational strategy to select liposomal formulation compositions and assessed their physicochemical and immunological properties in vitro models using human monocyte-derived dendritic cells (MDDCs). A broad selection of commercially available cationic compounds was tested to prepare liposomes containing Ag85B-ESAT6-Rv2034 (AER) fusion protein antigen. 1,2-Dioleoyl-sn‑glycero-3-ethylphosphocholine (EPC)-based liposomes exhibited the most advantageous activation profile in MDDCs as assessed by cell surface activation markers, cellular uptake, antigen-specific T-cell activation, cytokine production, and cellular viability. The addition of cholesterol to 20 mol% improved the performance of the tested formulations compared to those without it; however, when its concentration was doubled there was no further benefit, resulting in reduced cell viability. This study provides new insights into the role of cationic lipids and cholesterol in liposomal subunit vaccines., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

21. Identification of kinase modulators as host-directed therapeutics against intracellular methicillin-resistant Staphylococcus aureus .

Author

van den Biggelaar RHGA, Walburg KV, van den Eeden SJF, van Doorn CLR, Meiler E, de Ries AS, Meijer AH, Ottenhoff THM, and Saris A

Subjects

Humans, Animals, Staphylococcus aureus, Zebrafish, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Microbial Sensitivity Tests, Methicillin-Resistant Staphylococcus aureus, Staphylococcal Infections microbiology

Abstract

The increasing prevalence of antimicrobial-resistant Staphylococcus aureus strains, especially methicillin-resistant S. aureus (MRSA), poses a threat to successful antibiotic treatment. Unsuccessful attempts to develop a vaccine and rising resistance to last-resort antibiotics urge the need for alternative treatments. Host-directed therapy (HDT) targeting critical intracellular stages of S. aureus emerges as a promising alternative, potentially acting synergistically with antibiotics and reducing the risk of de novo drug resistance. We assessed 201 ATP-competitive kinase inhibitors from Published Kinase Inhibitor Sets (PKIS1 and PKIS2) against intracellular MRSA. Seventeen hit compounds were identified, of which the two most effective and well-tolerated hit compounds (i.e., GW633459A and GW296115X) were selected for further analysis. The compounds did not affect planktonic bacterial cultures, while they were active in a range of human cell lines of cervical, skin, lung, breast and monocyte origin, confirming their host-directed mechanisms. GW633459A, structurally related to lapatinib, exhibited an HDT effect on intracellular MRSA independently of its known human epidermal growth factor receptor (EGFR)/(HER) kinase family targets. GW296115X activated adenosine monophosphate-activated protein kinase (AMPK), thereby enhancing bacterial degradation via autophagy. Finally, GW296115X not only reduced MRSA growth in human cells but also improved the survival rates of MRSA-infected zebrafish embryos, highlighting its potential as HDT., Competing Interests: Author EM is employed by GlasmoSmithKline. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be constructed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision, (Copyright © 2024 van den Biggelaar, Walburg, van den Eeden, van Doorn, Meiler, de Ries, Meijer, Ottenhoff and Saris.)

Published

2024

22. Whole blood RNA signatures in tuberculosis patients receiving H56:IC31 vaccine as adjunctive therapy.

Author

Alonso-Rodríguez N, Vianello E, van Veen S, Jenum S, Tonby K, van Riessen R, Lai X, Mortensen R, Ottenhoff THM, and Dyrhol-Riise AM

Subjects

Adolescent, Humans, Oligodeoxyribonucleotides, Cohort Studies, RNA, Tuberculosis Vaccines therapeutic use, Tuberculosis prevention & control

Abstract

Introduction: Therapeutic vaccination in tuberculosis (TB) represents a Host Directed Therapy strategy which enhances immune responses in order to improve clinical outcomes and shorten TB treatment. Previously, we have shown that the subunit H56:IC31 vaccine induced both humoral and cellular immune responses when administered to TB patients adjunctive to standard TB treatment (TBCOX2 study, NCT02503839). Here we present the longitudinal whole blood gene expression patterns in H56:IC31 vaccinated TB patients compared to controls receiving standard TB treatment only., Methods: The H56:IC31 group (N=11) and Control group (N=7) underwent first-line TB treatment for 182 days. The H56:IC31 group received 5 micrograms of the H56:IC31 vaccine (Statens Serum Institut; SSI, Valneva Austria GmbH) intramuscularly at day 84 and day 140. Total RNA was extracted from whole blood samples collected in PAXgene tubes on days 0, 84, 98, 140, 154, 182 and 238. The expression level of 183 immune-related genes was measured by high-throughput microfluidic qPCR (Biomark HD system, Standard BioTools)., Results: The targeted gene expression profiling unveiled the upregulation of modules such as interferon (IFN) signalling genes, pattern recognition receptors and small nucleotide guanosine triphosphate (GTP)-ases in the vaccinated group compared to controls two weeks after administration of the first H56:IC31 vaccine. Additionally, the longitudinal analysis of the Adolescent Cohort Study-Correlation of Risk (ACS-COR) signature showed a progressive downregulation in both study arms towards the end of TB treatment, in congruence with reported treatment responses and clinical improvements. Still, two months after the end of TB treatment, vaccinated patients, and especially those developing both cellular and humoral vaccine responses, showed a lower expression of the ACS-COR genes compared to controls., Discussion: Our data report gene expression patterns following H56:IC31 vaccination which might be interpreted as a lower risk of relapse in therapeutically vaccinated patients. Further studies are needed to conclude if these gene expression patterns could be used as prognostic biosignatures for therapeutic TB vaccine responses., Competing Interests: RM is employee at SSI that developed the H56:IC31 vaccine. He is not inventor of related patents and have no personal financial interests. IC31 is a trademark of Valneva Austria GmbH. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Alonso-Rodríguez, Vianello, van Veen, Jenum, Tonby, van Riessen, Lai, Mortensen, Ottenhoff and Dyrhol-Riise.)

Published

2024

23. Mtb HLA-E-tetramer-sorted CD8 + T cells have a diverse TCR repertoire.

Author

Voogd L, Drittij AMHF, Dingenouts CKE, Franken KLMC, Unen VV, van Meijgaarden KE, Ruibal P, Hagedoorn RS, Leitner JA, Steinberger P, Heemskerk MHM, Davis MM, Scriba TJ, Ottenhoff THM, and Joosten SA

Abstract

HLA-E molecules can present self- and pathogen-derived peptides to both natural killer (NK) cells and T cells. T cells that recognize HLA-E peptides via their T cell receptor (TCR) are termed donor-unrestricted T cells due to restricted allelic variation of HLA-E. The composition and repertoire of HLA-E TCRs is not known so far. We performed TCR sequencing on CD8 + T cells from 21 individuals recognizing HLA-E tetramers (TMs) folded with two Mtb -HLA-E-restricted peptides. We sorted HLA-E Mtb TM + and TM - CD8 + T cells directly ex vivo and performed bulk RNA-sequencing and single-cell TCR sequencing. The identified TCR repertoire was diverse and showed no conservation between and within individuals. TCRs selected from our single-cell TCR sequencing data could be activated upon HLA-E/peptide stimulation, although not robust, reflecting potentially weak interactions between HLA-E peptide complexes and TCRs. Thus, HLA-E- Mtb -specific T cells have a highly diverse TCR repertoire., Competing Interests: The authors declare that they have no competing interest., (© 2024 The Author(s).)

Published

2024

24. Refined innate plasma signature after rVSVΔG-ZEBOV-GP immunization is shared among adult cohorts in Europe and North America.

Author

Martinez-Murillo PA, Huttner A, Lemeille S, Medaglini D, Ottenhoff THM, Harandi AM, Didierlaurent AM, and Siegrist CA

Subjects

Adult, Humans, Follow-Up Studies, Vaccination, Europe, North America, Democratic Republic of the Congo, Biomarkers, Antibodies, Viral, Ebola Vaccines

Abstract

Background: During the last decade Ebola virus has caused several outbreaks in Africa. The recombinant vesicular stomatitis virus-vectored Zaire Ebola (rVSVΔG-ZEBOV-GP) vaccine has proved safe and immunogenic but is reactogenic. We previously identified the first innate plasma signature response after vaccination in Geneva as composed of five monocyte-related biomarkers peaking at day 1 post-immunization that correlates with adverse events, biological outcomes (haematological changes and viremia) and antibody titers. In this follow-up study, we sought to identify additional biomarkers in the same Geneva cohort and validate those identified markers in a US cohort., Methods: Additional biomarkers were identified using multiplexed protein biomarker platform O-link and confirmed by Luminex. Principal component analysis (PCA) evaluated if these markers could explain a higher variability of the vaccine response (and thereby refined the initial signature). Multivariable and linear regression models evaluated the correlations of the main components with adverse events, biological outcomes, and antibody titers. External validation of the refined signature was conducted in a second cohort of US vaccinees (n=142)., Results: Eleven additional biomarkers peaked at day 1 post-immunization: MCP2, MCP3, MCP4, CXCL10, OSM, CX3CL1, MCSF, CXCL11, TRAIL, RANKL and IL15. PCA analysis retained three principal components (PC) that accounted for 79% of the vaccine response variability. PC1 and PC2 were very robust and had different biomarkers that contributed to their variability. PC1 better discriminated different doses, better defined the risk of fever and myalgia, while PC2 better defined the risk of headache. We also found new biomarkers that correlated with reactogenicity, including transient arthritis (MCP-2, CXCL10, CXCL11, CX3CL1, MCSF, IL-15, OSM). Several innate biomarkers are associated with antibody levels one and six months after vaccination. Refined PC1 correlated strongly in both data sets (Geneva: r = 0.97, P < 0.001; US: r = 0.99, P< 0.001)., Conclusion: Eleven additional biomarkers refined the previously found 5-biomarker Geneva signature. The refined signature better discriminated between different doses, was strongly associated with the risk of adverse events and with antibody responses and was validated in a separate cohort., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Martinez-Murillo, Huttner, Lemeille, Medaglini, Ottenhoff, Harandi, Didierlaurent and Siegrist.)

Published

2024

25. BCG vaccination-induced acquired control of mycobacterial growth differs from growth control preexisting to BCG vaccination.

Author

van Meijgaarden KE, Li W, Moorlag SJCFM, Koeken VACM, Koenen HJPM, Joosten LAB, Vyakarnam A, Ahmed A, Rakshit S, Adiga V, Ottenhoff THM, Li Y, Netea MG, and Joosten SA

Subjects

Adult, Infant, Child, Humans, Child, Preschool, BCG Vaccine, Vaccination methods, Mycobacterium, Tuberculosis microbiology

Abstract

Bacillus Calmette-Guèrin - vaccination induces not only protection in infants and young children against severe forms of tuberculosis, but also against non-tuberculosis related all-cause mortality. To delineate different factors influencing mycobacterial growth control, here we first investigate the effects of BCG-vaccination in healthy Dutch adults. About a quarter of individuals already control BCG-growth prior to vaccination, whereas a quarter of the vaccinees acquires the capacity to control BCG upon vaccination. This leaves half of the population incapable to control BCG-growth. Single cell RNA sequencing identifies multiple processes associated with mycobacterial growth control. These data suggest (i) that already controllers employ different mechanisms to control BCG-growth than acquired controllers, and (ii) that half of the individuals fail to develop measurable growth control irrespective of BCG-vaccination. These results shed important new light on the variable immune responses to mycobacteria in humans and may impact on improved vaccination against tuberculosis and other diseases., (© 2024. The Author(s).)

Published

2024

26. Global blood miRNA profiling unravels early signatures of immunogenicity of Ebola vaccine rVSVΔG-ZEBOV-GP.

Author

Vianello E, Persson J, Andersson B, van Veen S, Dias TL, Santoro F, Östensson M, Obudulu O, Agbajogu C, Torkzadeh S, Nakaya HI, Medaglini D, Siegrist CA, Ottenhoff THM, and Harandi AM

Abstract

The vectored Ebola vaccine rVSVΔG-ZEBOV-GP elicits protection against Ebola Virus Disease (EVD). In a study of forty-eight healthy adult volunteers who received either the rVSVΔG-ZEBOV-GP vaccine or placebo, we profiled intracellular microRNAs (miRNAs) from whole blood cells (WB) and circulating miRNAs from serum-derived extracellular vesicles (EV) at baseline and longitudinally following vaccination. Further, we identified early miRNA signatures associated with ZEBOV-specific IgG antibody responses at baseline and up to one year post-vaccination, and pinpointed target mRNA transcripts and pathways correlated to miRNAs whose expression was altered after vaccination by using systems biology approaches. Several miRNAs were differentially expressed (DE) and miRNA signatures predicted high or low IgG ZEBOV-specific antibody levels with high classification performance. The top miRNA discriminators were WB-miR-6810, EV-miR-7151-3p, and EV-miR-4426. An eight-miRNA antibody predictive signature was associated with immune-related target mRNAs and pathways. These findings provide valuable insights into early blood biomarkers associated with rVSVΔG-ZEBOV-GP vaccine-induced IgG antibody responses., Competing Interests: The authors declare no competing interests., (© 2023 The Author(s).)

Published

2023

27. Corrigendum: Defining discriminatory antibody fingerprints in active and latent tuberculosis.

Author

Nziza N, Cizmeci D, Davies L, Irvine EB, Jung W, Fenderson BA, de Kock M, Hanekom WA, Franken KLMC, Day CL, Ottenhoff THM, and Alter G

Abstract

[This corrects the article DOI: 10.3389/fimmu.2022.856906.]., (Copyright © 2023 Nziza, Cizmeci, Davies, Irvine, Jung, Fenderson, de Kock, Hanekom, Franken, Day, Ottenhoff and Alter.)

Published

2023

28. Baseline gene signatures of reactogenicity to Ebola vaccination: a machine learning approach across multiple cohorts.

Author

Gonzalez Dias Carvalho PC, Dominguez Crespo Hirata T, Mano Alves LY, Moscardini IF, do Nascimento APB, Costa-Martins AG, Sorgi S, Harandi AM, Ferreira DM, Vianello E, Haks MC, Ottenhoff THM, Santoro F, Martinez-Murillo P, Huttner A, Siegrist CA, Medaglini D, and Nakaya HI

Subjects

Humans, Antibodies, Viral, Headache, Vaccination adverse effects, Vaccination methods, Clinical Trials, Phase I as Topic, Arthritis etiology, Ebola Vaccines adverse effects, Ebolavirus genetics, Hemorrhagic Fever, Ebola

Abstract

Introduction: The rVSVDG-ZEBOV-GP (Ervebo®) vaccine is both immunogenic and protective against Ebola. However, the vaccine can cause a broad range of transient adverse reactions, from headache to arthritis. Identifying baseline reactogenicity signatures can advance personalized vaccinology and increase our understanding of the molecular factors associated with such adverse events., Methods: In this study, we developed a machine learning approach to integrate prevaccination gene expression data with adverse events that occurred within 14 days post-vaccination., Results and Discussion: We analyzed the expression of 144 genes across 343 blood samples collected from participants of 4 phase I clinical trial cohorts: Switzerland, USA, Gabon, and Kenya. Our machine learning approach revealed 22 key genes associated with adverse events such as local reactions, fatigue, headache, myalgia, fever, chills, arthralgia, nausea, and arthritis, providing insights into potential biological mechanisms linked to vaccine reactogenicity., Competing Interests: Author IM was employed by the company Microbiotec Srl. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Gonzalez Dias Carvalho, Dominguez Crespo Hirata, Mano Alves, Moscardini, do Nascimento, Costa-Martins, Sorgi, Harandi, Ferreira, Vianello, Haks, Ottenhoff, Santoro, Martinez-Murillo, Huttner, Siegrist, Medaglini and Nakaya.)

Published

2023

29. Potential business model for a European vaccine R&D infrastructure and its estimated socio-economic impact.

Author

Jungbluth S, Martin W, Slezak M, Depraetere H, Guzman CA, Ussi A, Morrow D, Van Heuverswyn F, Arnouts S, Carrondo MJT, Olesen O, Ottenhoff THM, Dockrell HM, Ho MM, Dobly A, Christensen D, Segalés J, Laurent F, Lantier F, Stockhofe-Zurwieden N, Morelli F, Langermans JAM, Verreck FAW, Le Grand R, Sloots A, Medaglini D, Lawrenz M, and Collin N

Subjects

Commerce, Socioeconomic Factors, Biomedical Research, Vaccines

Abstract

Background: Research infrastructures are facilities or resources that have proven fundamental for supporting scientific research and innovation. However, they are also known to be very expensive in their establishment, operation and maintenance. As by far the biggest share of these costs is always borne by public funders, there is a strong interest and indeed a necessity to develop alternative business models for such infrastructures that allow them to function in a more sustainable manner that is less dependent on public financing., Methods: In this article, we describe a feasibility study we have undertaken to develop a potentially sustainable business model for a vaccine research and development (R&D) infrastructure. The model we have developed integrates two different types of business models that would provide the infrastructure with two different types of revenue streams which would facilitate its establishment and would be a measure of risk reduction. For the business model we are proposing, we have undertaken an ex ante impact assessment that estimates the expected impact for a vaccine R&D infrastructure based on the proposed models along three different dimensions: health, society and economy., Results: Our impact assessment demonstrates that such a vaccine R&D infrastructure could achieve a very significant socio-economic impact, and so its establishment is therefore considered worthwhile pursuing., Conclusions: The business model we have developed, the impact assessment and the overall process we have followed might also be of interest to other research infrastructure initiatives in the biomedical field., Competing Interests: No competing interests were disclosed., (Copyright: © 2023 Jungbluth S et al.)

Published

2023

30. Airway epithelial cells mount an early response to mycobacterial infection.

Author

Barclay AM, Ninaber DK, van Veen S, Hiemstra PS, Ottenhoff THM, van der Does AM, and Joosten SA

Subjects

Humans, Cytokines metabolism, Epithelial Cells metabolism, Chemokines metabolism, Mycobacterium Infections, Mycobacterium tuberculosis

Abstract

Lung epithelial cells represent the first line of host defence against foreign inhaled components, including respiratory pathogens. Their responses to these exposures may direct subsequent immune activation to these pathogens. The epithelial response to mycobacterial infections is not well characterized and may provide clues to why some mycobacterial infections are cleared, while others are persistent and pathogenic. We have utilized an air-liquid interface model of human primary bronchial epithelial cells (ALI-PBEC) to investigate the epithelial response to infection with a variety of mycobacteria: Mycobacterium tuberculosis (Mtb), M. bovis (BCG), M. avium, and M. smegmatis . Airway epithelial cells were found to be infected by all four species, albeit at low frequencies. The proportion of infected epithelial cells was lowest for Mtb and highest for M. avium . Differential gene expression analysis revealed a common epithelial host response to mycobacteria, including upregulation of BIRC3, S100A8 and DEFB4 , and downregulation of BPIFB1 at 48 h post infection. Apical secretions contained predominantly pro-inflammatory cytokines, while basal secretions contained tissue growth factors and chemokines. Finally, we show that neutrophils were attracted to both apical and basal secretions of infected ALI-PBEC. Neutrophils were attracted in high numbers to apical secretions from PBEC infected with all mycobacteria, with the exception of secretions from M. avium -infected ALI-PBEC. Taken together, our results show that airway epithelial cells are differentially infected by mycobacteria, and react rapidly by upregulation of antimicrobials, and increased secretion of inflammatory cytokines and chemokines which directly attract neutrophils. Thus, the airway epithelium may be an important immunological component in controlling and regulating mycobacterial infections., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Barclay, Ninaber, van Veen, Hiemstra, Ottenhoff, van der Does and Joosten.)

Published

2023

31. BCG revaccination in adults enhances pro-inflammatory markers of trained immunity along with anti-inflammatory pathways.

Author

Ahmed A, Tripathi H, van Meijgaarden KE, Kumar NC, Adiga V, Rakshit S, Parthiban C, Eveline J S, D'Souza G, Dias M, Ottenhoff THM, Netea MG, Joosten SA, and Vyakarnam A

Abstract

This study characterized mechanisms of Bacille Calmette-Guérin (BCG) revaccination-induced trained immunity (TI) in India. Adults, BCG vaccinated at birth, were sampled longitudinally before and after a second BCG dose. BCG revaccination significantly elevated tumor necrosis factor alpha (TNF-α), interleukin (IL)-1β, and IL-6 in HLA-DR + CD16 - CD14 hi monocytes, demonstrating induction of TI. Mycobacteria-specific CD4 + T cell interferon (IFN) γ, IL-2, and TNF-α were significantly higher in re-vaccinees and correlated positively with HLA-DR + CD16 - CD14 hi TI responses. This, however, did not translate into increased mycobacterial growth control, measured by mycobacterial growth inhibition assay (MGIA). Post revaccination, elevated secreted TNF-α, IL-1β, and IL-6 to "heterologous" fungal, bacterial, and enhanced CXCL-10 and IFNα to viral stimuli were also observed concomitant with increased anti-inflammatory cytokine, IL-1RA. RNA sequencing after revaccination highlighted a BCG and LPS induced signature which included upregulated IL17 and TNF pathway genes and downregulated key inflammatory genes:  CXCL11, CCL24, HLADRA, CTSS, CTSC . Our data highlight a balanced immune response comprising pro- and anti-inflammatory mediators to be a feature of BCG revaccination-induced immunity., Competing Interests: The authors declare no competing interests., (© 2023 The Authors.)

Published

2023

32. Impaired resolution of blood transcriptomes through tuberculosis treatment with diabetes comorbidity.

Author

Eckold C, van Doorn CLR, Ruslami R, Ronacher K, Riza AL, van Veen S, Lee JS, Kumar V, Kerry-Barnard S, Malherbe ST, Kleynhans L, Stanley K, Joosten SA, Critchley JA, Hill PC, van Crevel R, Wijmenga C, Haks MC, Ioana M, Alisjahbana B, Walzl G, Ottenhoff THM, Dockrell HM, Vianello E, and Cliff JM

Subjects

Humans, Transcriptome genetics, Comorbidity, Gene Expression Profiling, Diabetes Mellitus, Hyperglycemia

Abstract

Background: People with diabetes are more likely to develop tuberculosis (TB) and to have poor TB-treatment outcomes than those without. We previously showed that blood transcriptomes in people with TB-diabetes (TB-DM) co-morbidity have excessive inflammatory and reduced interferon responses at diagnosis. It is unknown whether this persists through treatment and contributes to the adverse outcomes., Methods: Pulmonary TB patients recruited in South Africa, Indonesia and Romania were classified as having TB-DM, TB with prediabetes, TB-related hyperglycaemia or TB-only, based on glycated haemoglobin concentration at TB diagnosis and after 6 months of TB treatment. Gene expression in blood at diagnosis and intervals throughout treatment was measured by unbiased RNA-Seq and targeted Multiplex Ligation-dependent Probe Amplification. Transcriptomic data were analysed by longitudinal mixed-model regression to identify whether genes were differentially expressed between clinical groups through time. Predictive models of TB-treatment response across groups were developed and cross-tested., Results: Gene expression differed between TB and TB-DM patients at diagnosis and was modulated by TB treatment in all clinical groups but to different extents, such that differences remained in TB-DM relative to TB-only throughout. Expression of some genes increased through TB treatment, whereas others decreased: some were persistently more highly expressed in TB-DM and others in TB-only patients. Genes involved in innate immune responses, anti-microbial immunity and inflammation were significantly upregulated in people with TB-DM throughout treatment. The overall pattern of change was similar across clinical groups irrespective of diabetes status, permitting models predictive of TB treatment to be developed., Conclusions: Exacerbated transcriptome changes in TB-DM take longer to resolve during TB treatment, meaning they remain different from those in uncomplicated TB after treatment completion. This may indicate a prolonged inflammatory response in TB-DM, requiring prolonged treatment or host-directed therapy for complete cure. Development of transcriptome-based biomarker signatures of TB-treatment response should include people with diabetes for use across populations., (© 2023 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.)

Published

2023

33. Identification of circulating monocytes as producers of tuberculosis disease biomarker C1q.

Author

Niewold P, Dijkstra DJ, Cai Y, Goletti D, Palmieri F, van Meijgaarden KE, Verreck FAW, Akkerman OW, Hofland RW, Delemarre EM, Nierkens S, Verheul MK, Pollard AJ, van Dissel JT, Ottenhoff THM, Trouw LA, and Joosten SA

Subjects

Animals, Humans, Complement C1q metabolism, Primates, Biomarkers metabolism, Monocytes metabolism, Tuberculosis diagnosis, Tuberculosis metabolism

Abstract

Tuberculosis (TB) is a prevalent disease causing an estimated 1.6 million deaths and 10.6 million new cases annually. Discriminating TB disease from differential diagnoses can be complex, particularly in the field. Increased levels of complement component C1q in serum have been identified as a specific and accessible biomarker for TB disease but the source of C1q in circulation has not been identified. Here, data and samples previously collected from human cohorts, a clinical trial and a non-human primate study were used to identify cells producing C1q in circulation. Cell subset frequencies were correlated with serum C1q levels and combined with single cell RNA sequencing and flow cytometry analyses. This identified monocytes as C1q producers in circulation, with a pronounced expression of C1q in classical and intermediate monocytes and variable expression in non-classical monocytes., (© 2023. The Author(s).)

Published

2023

34. Maternal HIV infection drives altered placental Mtb -specific antibody transfer.

Author

Nziza N, Jung W, Mendu M, Chen T, McNamara RP, Fortune SM, Franken KLMC, Ottenhoff THM, Bryson B, Ngonzi J, Bebell LM, and Alter G

Abstract

Introduction: Placental transfer of maternal antibodies is essential for neonatal immunity over the first months of life. In the setting of maternal HIV infection, HIV-exposed uninfected (HEU) infants are at higher risk of developing severe infections, including active tuberculosis (TB). Given our emerging appreciation for the potential role of antibodies in the control of Mycobacterium tuberculosis ( Mtb ), the bacteria that causes TB, here we aimed to determine whether maternal HIV status altered the quality of Mtb -specific placental antibody transfer., Methods: Antigen-specific antibody systems serology was performed to comprehensively characterize the Mtb -specific humoral immune response in maternal and umbilical cord blood from HIV infected and uninfected pregnant people in Uganda., Results: Significant differences were noted in overall antibody profiles in HIV positive and negative maternal plasma, resulting in heterogeneous transfer of Mtb -specific antibodies. Altered antibody transfer in HIV infected dyads was associated with impaired binding to IgG Fc-receptors, which was directly linked to HIV viral loads and CD4 counts., Conclusions: These results highlight the importance of maternal HIV status on antibody transfer, providing clues related to alterations in transferred maternal immunity that may render HEU infants more vulnerable to TB than their HIV-unexposed peers., Competing Interests: GA is a V.P. at Moderna, a founder and equity holder of SeromYx Systems, and an employee and equity holder of Leyden Labs. GA’s interests were reviewed and are managed by MH and Partners HealthCare in accordance with their conflict-of-interest policies. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Nziza, Jung, Mendu, Chen, McNamara, Fortune, Franken, Ottenhoff, Bryson, Ngonzi, Bebell and Alter.)

Published

2023

35. Ebola virus-like particles reprogram cellular metabolism.

Author

Tang H, Abouleila Y, Saris A, Shimizu Y, Ottenhoff THM, and Mashaghi A

Subjects

Humans, Endothelial Cells, Signal Transduction, Amino Acids, Hemorrhagic Fever, Ebola, Ebolavirus physiology

Abstract

Ebola virus can trigger a release of pro-inflammatory cytokines with subsequent vascular leakage and impairment of clotting finally leading to multiorgan failure and shock after entering and infecting patients. Ebola virus is known to directly target endothelial cells and macrophages, even without infecting them, through direct interactions with viral proteins. These interactions affect cellular mechanics and immune processes, which are tightly linked to other key cellular functions such as metabolism. However, research regarding metabolic activity of these cells upon viral exposure remains limited, hampering our understanding of its pathophysiology and progression. Therefore, in the present study, an untargeted cellular metabolomic approach was performed to investigate the metabolic alterations of primary human endothelial cells and M1 and M2 macrophages upon exposure to Ebola virus-like particles (VLP). The results show that Ebola VLP led to metabolic changes among endothelial, M1, and M2 cells. Differential metabolite abundance and perturbed signaling pathway analysis further identified specific metabolic features, mainly in fatty acid-, steroid-, and amino acid-related metabolism pathways for all the three cell types, in a host cell specific manner. Taken together, this work characterized for the first time the metabolic alternations of endothelial cells and two primary human macrophage subtypes after Ebola VLP exposure, and identified the potential metabolites and pathways differentially affected, highlighting the important role of those host cells in disease development and progression. KEY MESSAGES: • Ebola VLP can lead to metabolic alternations in endothelial cells and M1 and M2 macrophages. • Differential abundance of metabolites, mainly including fatty acids and sterol lipids, was observed after Ebola VLP exposure. • Multiple fatty acid-, steroid-, and amino acid-related metabolism pathways were observed perturbed., (© 2023. The Author(s).)

Published

2023

36. Differences in Inflammatory Pathways Between Dutch South Asians vs Dutch Europids With Type 2 Diabetes.

Author

Straat ME, Martinez-Tellez B, van Eyk HJ, Bizino MB, van Veen S, Vianello E, Stienstra R, Ottenhoff THM, Lamb HJ, Smit JWA, Jazet IM, Rensen PCN, and Boon MR

Subjects

Aged, Female, Humans, Male, Middle Aged, Body Mass Index, Ethnicity, South Asian People, European People, Diabetes Mellitus, Type 2 ethnology, Diabetes Mellitus, Type 2 genetics

Abstract

Context: South Asian individuals are more prone to develop type 2 diabetes (T2D) coinciding with earlier complications than Europids. While inflammation plays a central role in the development and progression of T2D, this factor is still underexplored in South Asians., Objective: This work aimed to study whether circulating messenger RNA (mRNA) transcripts of immune genes are different between South Asian compared with Europid patients with T2D., Methods: A secondary analysis was conducted of 2 randomized controlled trials of Dutch South Asian (n = 45; age: 55 ± 10 years, body mass index [BMI]: 29 ± 4 kg/m2) and Dutch Europid (n = 44; age: 60 ± 7 years, BMI: 32 ± 4 kg/m2) patients with T2D. Main outcome measures included mRNA transcripts of 182 immune genes (microfluidic quantitative polymerase chain reaction; Fluidigm Inc) in fasted whole-blood, ingenuity pathway analyses (Qiagen)., Results: South Asians, compared to Europids, had higher mRNA levels of B-cell markers (CD19, CD79A, CD79B, CR2, CXCR5, IGHD, MS4A1, PAX5; all fold change > 1.3, false discovery rate [FDR] < 0.008) and interferon (IFN)-signaling genes (CD274, GBP1, GBP2, GBP5, FCGR1A/B/CP, IFI16, IFIT3, IFITM1, IFITM3, TAP1; all FC > 1.2, FDR < 0.05). In South Asians, the IFN signaling pathway was the top canonical pathway (z score 2.6; P < .001) and this was accompanied by higher plasma IFN-γ levels (FC = 1.5, FDR = 0.01). Notably, the ethnic difference in gene expression was larger for women (20/182 [11%]) than men (2/182 [1%])., Conclusion: South Asian patients with T2D show a more activated IFN-signaling pathway compared to Europid patients with T2D, which is more pronounced in women than men. We speculate that a more activated IFN-signaling pathway may contribute to the more rapid progression of T2D in South Asian compared with Europid individuals., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Endocrine Society.)

Published

2023

37. Thermal-exchange HLA-E multimers reveal specificity in HLA-E and NKG2A/CD94 complex interactions.

Author

Ruibal P, Derksen I, van Wolfswinkel M, Voogd L, Franken KLMC, El Hebieshy AF, van Hall T, Schoufour TAW, Wijdeven RH, Ottenhoff THM, Scheeren FA, and Joosten SA

Subjects

Protein Binding, Peptides, Receptors, Antigen, T-Cell, NK Cell Lectin-Like Receptor Subfamily D chemistry, NK Cell Lectin-Like Receptor Subfamily D metabolism, NK Cell Lectin-Like Receptor Subfamily C, HLA-E Antigens, Killer Cells, Natural, Histocompatibility Antigens Class I metabolism

Abstract

There is growing interest in HLA-E-restricted T-cell responses as a possible novel, highly conserved, vaccination targets in the context of infectious and malignant diseases. The developing field of HLA multimers for the detection and study of peptide-specific T cells has allowed the in-depth study of TCR repertoires and molecular requirements for efficient antigen presentation and T-cell activation. In this study, we developed a method for efficient peptide thermal exchange on HLA-E monomers and multimers allowing the high-throughput production of HLA-E multimers. We optimized the thermal-mediated peptide exchange, and flow cytometry staining conditions for the detection of TCR and NKG2A/CD94 receptors, showing that this novel approach can be used for high-throughput identification and analysis of HLA-E-binding peptides which could be involved in T-cell and NK cell-mediated immune responses. Importantly, our analysis of NKG2A/CD94 interaction in the presence of modified peptides led to new molecular insights governing the interaction of HLA-E with this receptor. In particular, our results reveal that interactions of HLA-E with NKG2A/CD94 and the TCR involve different residues. Altogether, we present a novel HLA-E multimer technology based on thermal-mediated peptide exchange allowing us to investigate the molecular requirements for HLA-E/peptide interaction with its receptors., (© 2022 The Authors. Immunology published by John Wiley & Sons Ltd.)

Published

2023

38. Repurposing Tamoxifen as Potential Host-Directed Therapeutic for Tuberculosis.

Author

Boland R, Heemskerk MT, Forn-Cuní G, Korbee CJ, Walburg KV, Esselink JJ, Carvalho Dos Santos C, de Waal AM, van der Hoeven DCM, van der Sar E, de Ries AS, Xie J, Spaink HP, van der Vaart M, Haks MC, Meijer AH, and Ottenhoff THM

Subjects

Animals, Humans, Zebrafish, Tamoxifen pharmacology, Tamoxifen therapeutic use, Drug Repositioning, Antitubercular Agents pharmacology, Antitubercular Agents therapeutic use, Tuberculosis microbiology, Mycobacterium tuberculosis genetics

Abstract

The global burden of tuberculosis (TB) is aggravated by the continuously increasing emergence of drug resistance, highlighting the need for innovative therapeutic options. The concept of host-directed therapy (HDT) as adjunctive to classical antibacterial therapy with antibiotics represents a novel and promising approach for treating TB. Here, we have focused on repurposing the clinically used anticancer drug tamoxifen, which was identified as a molecule with strong host-directed activity against intracellular Mycobacterium tuberculosis ( Mtb ). Using a primary human macrophage Mtb infection model, we demonstrate the potential of tamoxifen against drug-sensitive as well as drug-resistant Mtb bacteria. The therapeutic effect of tamoxifen was confirmed in an in vivo TB model based on Mycobacterium marinum infection of zebrafish larvae. Tamoxifen had no direct antimicrobial effects at the concentrations used, confirming that tamoxifen acted as an HDT drug. Furthermore, we demonstrate that the antimycobacterial effect of tamoxifen is independent of its well-known target the estrogen receptor (ER) pathway, but instead acts by modulating autophagy, in particular the lysosomal pathway. Through RNA sequencing and microscopic colocalization studies, we show that tamoxifen stimulates lysosomal activation and increases the localization of mycobacteria in lysosomes both in vitro and in vivo , while inhibition of lysosomal activity during tamoxifen treatment partly restores mycobacterial survival. Thus, our work highlights the HDT potential of tamoxifen and proposes it as a repurposed molecule for the treatment of TB. IMPORTANCE Tuberculosis (TB) is the world's most lethal infectious disease caused by a bacterial pathogen, Mycobacterium tuberculosis. This pathogen evades the immune defenses of its host and grows intracellularly in immune cells, particularly inside macrophages. There is an urgent need for novel therapeutic strategies because treatment of TB patients is increasingly complicated by rising antibiotic resistance. In this study, we explored a breast cancer drug, tamoxifen, as a potential anti-TB drug. We show that tamoxifen acts as a so-called host-directed therapeutic, which means that it does not act directly on the bacteria but helps the host macrophages combat the infection more effectively. We confirmed the antimycobacterial effect of tamoxifen in a zebrafish model for TB and showed that it functions by promoting the delivery of mycobacteria to digestive organelles, the lysosomes. These results support the high potential of tamoxifen to be repurposed to fight antibiotic-resistant TB infections by host-directed therapy.

Published

2023

39. Intranasal multivalent adenoviral-vectored vaccine protects against replicating and dormant M.tb in conventional and humanized mice.

Author

Afkhami S, D'Agostino MR, Vaseghi-Shanjani M, Lepard M, Yang JX, Lai R, Choi MWY, Chacon A, Zganiacz A, Franken KLMC, Ertl HC, Ottenhoff THM, Jeyanathan M, Gillgrass A, and Xing Z

Abstract

Viral-vectored vaccines are highly amenable for respiratory mucosal delivery as a means of inducing much-needed mucosal immunity at the point of pathogen entry. Unfortunately, current monovalent viral-vectored tuberculosis (TB) vaccine candidates have failed to demonstrate satisfactory clinical protective efficacy. As such, there is a need to develop next-generation viral-vectored TB vaccine strategies which incorporate both vaccine antigen design and delivery route. In this study, we have developed a trivalent chimpanzee adenoviral-vectored vaccine to provide protective immunity against pulmonary TB through targeting antigens linked to the three different growth phases (acute/chronic/dormancy) of Mycobacterium tuberculosis (M.tb) by expressing an acute replication-associated antigen, Ag85A, a chronically expressed virulence-associated antigen, TB10.4, and a dormancy/resuscitation-associated antigen, RpfB. Single-dose respiratory mucosal immunization with our trivalent vaccine induced robust, sustained tissue-resident multifunctional CD4 + and CD8 + T-cell responses within the lung tissues and airways, which were further quantitatively and qualitatively improved following boosting of subcutaneously BCG-primed hosts. Prophylactic and therapeutic immunization with this multivalent trivalent vaccine in conventional BALB/c mice provided significant protection against not only actively replicating M.tb bacilli but also dormant, non-replicating persisters. Importantly, when used as a booster, it also provided marked protection in the highly susceptible C3HeB/FeJ mice, and a single respiratory mucosal inoculation was capable of significant protection in a humanized mouse model. Our findings indicate the great potential of this next-generation TB vaccine strategy and support its further clinical development for both prophylactic and therapeutic applications., (© 2023. The Author(s).)

Published

2023

40. Neutrophil degranulation, NETosis and platelet degranulation pathway genes are co-induced in whole blood up to six months before tuberculosis diagnosis.

Author

Meier S, Seddon JA, Maasdorp E, Kleynhans L, du Plessis N, Loxton AG, Malherbe ST, Zak DE, Thompson E, Duffy FJ, Kaufmann SHE, Ottenhoff THM, Scriba TJ, Suliman S, Sutherland JS, Winter J, Kuivaniemi H, Walzl G, and Tromp G

Subjects

Humans, Neutrophils, Positron Emission Tomography Computed Tomography, Neutrophil Activation, Mycobacterium tuberculosis genetics, Tuberculosis, Lymph Node

Abstract

Mycobacterium tuberculosis (M.tb) causes tuberculosis (TB) and remains one of the leading causes of mortality due to an infectious pathogen. Host immune responses have been implicated in driving the progression from infection to severe lung disease. We analyzed longitudinal RNA sequencing (RNAseq) data from the whole blood of 74 TB progressors whose samples were grouped into four six-month intervals preceding diagnosis (the GC6-74 study). We additionally analyzed RNAseq data from an independent cohort of 90 TB patients with positron emission tomography-computed tomography (PET-CT) scan results which were used to categorize them into groups with high and low levels of lung damage (the Catalysis TB Biomarker study). These groups were compared to non-TB controls to obtain a complete whole blood transcriptional profile for individuals spanning from early stages of M.tb infection to TB diagnosis. The results revealed a steady increase in the number of genes that were differentially expressed in progressors at time points closer to diagnosis with 278 genes at 13-18 months, 742 at 7-12 months and 5,131 detected 1-6 months before diagnosis and 9,205 detected in TB patients. A total of 2,144 differentially expressed genes were detected when comparing TB patients with high and low levels of lung damage. There was a large overlap in the genes upregulated in progressors 1-6 months before diagnosis (86%) with those in TB patients. A comprehensive pathway analysis revealed a potent activation of neutrophil and platelet mediated defenses including neutrophil and platelet degranulation, and NET formation at both time points. These pathways were also enriched in TB patients with high levels of lung damage compared to those with low. These findings suggest that neutrophils and platelets play a critical role in TB pathogenesis, and provide details of the timing of specific effector mechanisms that may contribute to TB lung pathology., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Meier et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

41. Inflammatory responses in SARS-CoV-2 associated Multisystem Inflammatory Syndrome and Kawasaki Disease in children: An observational study.

Author

Biesbroek G, Kapitein B, Kuipers IM, Gruppen MP, van Stijn D, Peros TE, van Veenendaal M, Jansen MHA, van der Zee CW, van der Kuip M, von Asmuth EGJ, Mooij MG, den Boer MEJ, Landman GW, van Houten MA, Schonenberg-Meinema D, Tutu van Furth AM, Boele van Hensbroek M, Scherpbier H, van Meijgaarden KE, Ottenhoff THM, Joosten SA, Ketharanathan N, Blink M, Brackel CLH, Zaaijer HL, Hombrink P, van den Berg JM, Buddingh EP, and Kuijpers TW

Subjects

Child, Humans, Antibodies, Viral, Cytokines, Inflammation, Interleukin-6, SARS-CoV-2, Connective Tissue Diseases, COVID-19 complications, Mucocutaneous Lymph Node Syndrome complications

Abstract

Multisystem Inflammatory Syndrome in Children (MIS-C) is a severe inflammatory disease in children related to SARS-CoV-2 with multisystem involvement including marked cardiac dysfunction and clinical symptoms that can resemble Kawasaki Disease (KD). We hypothesized that MIS-C and KD might have commonalities as well as unique inflammatory responses and studied these responses in both diseases. In total, fourteen children with MIS-C (n=8) and KD (n=6) were included in the period of March-June 2020. Clinical and routine blood parameters, cardiac follow-up, SARS-CoV-2-specific antibodies and CD4+ T-cell responses, and cytokine-profiles were determined in both groups. In contrast to KD patients, all MIS-C patients had positive Spike protein-specific CD3+CD4+ T-cell responses. MIS-C and KD patients displayed marked hyper-inflammation with high expression of serum cytokines, including the drug-targetable interleukin (IL)-6 and IFN-γ associated chemokines CXCL9, 10 and 11, which decreased at follow-up. No statistical differences were observed between groups. Clinical outcomes were all favourable without cardiac sequelae at 6 months follow-up. In conclusion, MIS-C and KD-patients both displayed cytokine-associated hyper-inflammation with several high levels of drug-targetable cytokines., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Biesbroek et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

42. Evidence for the heterologous benefits of prior BCG vaccination on COVISHIELD™ vaccine-induced immune responses in SARS-CoV-2 seronegative young Indian adults.

Author

Rakshit S, Adiga V, Ahmed A, Parthiban C, Chetan Kumar N, Dwarkanath P, Shivalingaiah S, Rao S, D'Souza G, Dias M, Maguire TJA, Doores KJ, Zoodsma M, Geckin B, Dasgupta P, Babji S, van Meijgaarden KE, Joosten SA, Ottenhoff THM, Li Y, Netea MG, Stuart KD, De Rosa SC, McElrath MJ, and Vyakarnam A

Subjects

Humans, Young Adult, Adjuvants, Immunologic, Chromatin, Immunity, Interleukin-2, SARS-CoV-2, Tumor Necrosis Factor-alpha, Vaccination, BCG Vaccine, COVID-19 prevention & control, COVID-19 Vaccines immunology

Abstract

This proof-of-concept study tested if prior BCG revaccination can qualitatively and quantitively enhance antibody and T-cell responses induced by Oxford/AstraZeneca ChAdOx1nCoV-19 or COVISHIELD™, an efficacious and the most widely distributed vaccine in India. We compared COVISHIELD™ induced longitudinal immune responses in 21 BCG re-vaccinees (BCG-RV) and 13 BCG-non-revaccinees (BCG-NRV), all of whom were BCG vaccinated at birth; latent tuberculosis negative and SARS-CoV-2 seronegative prior to COVISHIELD™ vaccination. Compared to BCG-NRV, BCG-RV displayed significantly higher and persistent spike-specific neutralizing (n) Ab titers and polyfunctional CD4+ and CD8+ T-cells for eight months post COVISHIELD™ booster, including distinct CD4+IFN-γ+ and CD4+IFN-γ- effector memory (EM) subsets co-expressing IL-2, TNF-α and activation induced markers (AIM) CD154/CD137 as well as CD8+IFN-γ+ EM,TEMRA (T cell EM expressing RA) subset combinations co-expressing TNF-α and AIM CD137/CD69. Additionally, elevated nAb and T-cell responses to the Delta mutant in BCG-RV highlighted greater immune response breadth. Mechanistically, these BCG adjuvant effects were associated with elevated markers of trained immunity, including higher IL-1β and TNF-α expression in CD14+HLA-DR+monocytes and changes in chromatin accessibility highlighting BCG-induced epigenetic changes. This study provides first in-depth analysis of both antibody and memory T-cell responses induced by COVISHIELD™ in SARS-CoV-2 seronegative young adults in India with strong evidence of a BCG-induced booster effect and therefore a rational basis to validate BCG, a low-cost and globally available vaccine, as an adjuvant to enhance heterologous adaptive immune responses to current and emerging COVID-19 vaccines., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Rakshit, Adiga, Ahmed, Parthiban, Chetan Kumar, Dwarkanath, Shivalingaiah, Rao, D’Souza, Dias, Maguire, Doores, Zoodsma, Geckin, Dasgupta, Babji, van Meijgaarden, Joosten, Ottenhoff, Li, Netea, Stuart, De Rosa, McElrath and Vyakarnam.)

Published

2022

43. Immune Determinants of Viral Clearance in Hospitalised COVID-19 Patients: Reduced Circulating Naïve CD4+ T Cell Counts Correspond with Delayed Viral Clearance.

Author

Zlei M, Sidorov IA, Joosten SA, Heemskerk MHM, Myeni SK, Pothast CR, de Brouwer CS, Boomaars-van der Zanden AL, van Meijgaarden KE, Morales ST, Wessels E, Janse JJ, Goeman JJ, Cobbaert CM, Kroes ACM, Cannegieter SC, Roestenberg M, Visser LG, Kikkert M, Feltkamp MCW, Arbous SM, Staal FJT, Ottenhoff THM, van Dongen JJM, Roukens AHE, de Vries JJC, In Collaboration With Beat-Covid, and In Collaboration With Lumc Covid

Subjects

Antibodies, Viral, CD4-Positive T-Lymphocytes, Critical Illness, Humans, SARS-CoV-2, COVID-19

Abstract

Virus-specific cellular and humoral responses are major determinants for protection from critical illness after SARS-CoV-2 infection. However, the magnitude of the contribution of each of the components to viral clearance remains unclear. Here, we studied the timing of viral clearance in relation to 122 immune parameters in 102 hospitalised patients with moderate and severe COVID-19 in a longitudinal design. Delayed viral clearance was associated with more severe disease and was associated with higher levels of SARS-CoV-2-specific (neutralising) antibodies over time, increased numbers of neutrophils, monocytes, basophils, and a range of pro-inflammatory cyto-/chemokines illustrating ongoing, partially Th2 dominating, immune activation. In contrast, early viral clearance and less critical illness correlated with the peak of neutralising antibodies, higher levels of CD4 T cells, and in particular naïve CD4+ T cells, suggesting their role in early control of SARS-CoV-2 possibly by proving appropriate B cell help. Higher counts of naïve CD4+ T cells also correlated with lower levels of MIF, IL-9, and TNF-beta, suggesting an indirect role in averting prolonged virus-induced tissue damage. Collectively, our data show that naïve CD4+ T cell play a critical role in rapid viral T cell control, obviating aberrant antibody and cytokine profiles and disease deterioration. These data may help in guiding risk stratification for severe COVID-19.

Published

2022

44. Biomarkers to identify Mycobacterium tuberculosis infection among borderline QuantiFERON results.

Author

Uzorka JW, Bakker JA, van Meijgaarden KE, Leyten EMS, Delfos NM, Hetem DJ, Kerremans J, Zwarts M, Cozijn S, Ottenhoff THM, Joosten SA, and Arend SM

Subjects

Biomarkers, Chemokine CXCL10, Humans, Interferon-gamma, Interferon-gamma Release Tests methods, Tuberculin Test methods, Latent Tuberculosis diagnosis, Mycobacterium tuberculosis, Tuberculosis diagnosis

Abstract

Background: Screening for tuberculosis (TB) infection often includes QuantiFERON-TB Gold Plus (QFT) testing. Previous studies showed that two-thirds of patients with negative QFT results just below the cut-off, so-called borderline test results, nevertheless had other evidence of TB infection. This study aimed to identify a biomarker profile by which borderline QFT results due to TB infection can be distinguished from random test variation., Methods: QFT supernatants of patients with a borderline (≥0.15 and <0.35 IU·mL -1 ), low-negative (<0.15 IU·mL -1 ) or positive (≥0.35 IU·mL -1 ) QFT result were collected in three hospitals. Bead-based multiplex assays were used to analyse 48 different cytokines, chemokines and growth factors. A prediction model was derived using LASSO regression and applied further to discriminate QFT-positive Mycobacterium tuberculosis -infected patients from borderline QFT patients and QFT-negative patients RESULTS: QFT samples of 195 patients were collected and analysed. Global testing revealed that the levels of 10 kDa interferon (IFN)-γ-induced protein (IP-10/CXCL10), monokine induced by IFN-γ (MIG/CXCL9) and interleukin-1 receptor antagonist in the antigen-stimulated tubes were each significantly higher in patients with a positive QFT result compared with low-negative QFT individuals (p<0.001). A prediction model based on IP-10 and MIG proved highly accurate in discriminating patients with a positive QFT (TB infection) from uninfected individuals with a low-negative QFT (sensitivity 1.00 (95% CI 0.79-1.00) and specificity 0.95 (95% CI 0.74-1.00)). This same model predicted TB infection in 68% of 87 patients with a borderline QFT result., Conclusions: This study was able to classify borderline QFT results as likely infection-related or random. These findings support additional laboratory testing for either IP-10 or MIG following a borderline QFT result for individuals at increased risk of reactivation TB., Competing Interests: Conflict of interest: T.H.M. Ottenhoff reports grants from NWO-TTW (PI: T.H.M. Ottenhoff), Dutch Government, Technical Sciences; ZonMw (PI: T.H.M. Ottenhoff), Dutch Government (ZonMw); IMI2 HOR2020 VSV EBOPLUS (PI: C.A. Siegrist), European Commission HOR2020 IMI2 Program; NWO-TTW (PI: J. Bouwstra), Dutch Government, Technical Sciences; NWO-TTW (PI: T.H.M. Ottenhoff), Dutch Government, Technical Sciences, NACTAR Program; NWO-Chemical Sciences (PI: A. Minnaard), Dutch Government, Technical Sciences; EC HOR2020 TRANSVAC2 (PI: European Vaccine Initiative (EVI)), European Commission HOR2020 Program; IMI2 EC HOR2020 Respiri-TB (PI: M. Lamers), European Commission HOR2020 IMI2 Program; IMI2 EC HOR2020 Respiri-NTM (PI: M. Lamers), European Commission HOR2020 IMI2 Program; NIH (PI: T.H.M. Ottenhoff); NIH, NIAID, grant: 1RO1AI141315-01A1; EC HOR2020 SMA-TB (PI: C. Vilaplana); European Commission HOR2020 Program; leadership at the Tuberculosis Vaccine Initiative (TBVI; www.tbvi.eu); outside the submitted work. S.A. Joosten reports grants from NIH (PI: T.H.M. Ottenhoff; co-PI: S.A. Joosten); NIH, NIAID, grant: 1RO1AI141315-01A1; outside the submitted work. S.M. Arend reports travel support from Oxford Immunotec, outside the submitted work. All other authors have nothing to disclose., (Copyright ©The authors 2022.)

Published

2022

45. Transcriptional profiles predict treatment outcome in patients with tuberculosis and diabetes at diagnosis and at two weeks after initiation of anti-tuberculosis treatment.

Author

van Doorn CLR, Eckold C, Ronacher K, Ruslami R, van Veen S, Lee JS, Kumar V, Kerry-Barnard S, Malherbe ST, Kleynhans L, Stanley K, Hill PC, Joosten SA, van Crevel R, Wijmenga C, Critchley JA, Walzl G, Alisjahbana B, Haks MC, Dockrell HM, Ottenhoff THM, Vianello E, and Cliff JM

Subjects

Adult, Antitubercular Agents therapeutic use, Humans, Longitudinal Studies, Treatment Outcome, Diabetes Mellitus diagnosis, Diabetes Mellitus drug therapy, Diabetes Mellitus genetics, Tuberculosis diagnosis

Abstract

Background: Globally, the tuberculosis (TB) treatment success rate is approximately 85%, with treatment failure, relapse and death occurring in a significant proportion of pulmonary TB patients. Treatment success is lower among people with diabetes mellitus (DM). Predicting treatment outcome early after diagnosis, especially in TB-DM patients, would allow early treatment adaptation for individuals and may improve global TB control., Methods: Samples were collected in a longitudinal cohort study of adult TB patients from South Africa (n  =  94) and Indonesia (n  =  81), who had concomitant DM (n  =  59), intermediate hyperglycaemia (n  =  79) or normal glycaemia/no DM (n  =  37). Treatment outcome was monitored, and patients were categorized as having a good (cured) or poor (failed, recurrence, died) outcome during treatment and 12 months follow-up. Whole blood transcriptional profiles before, during and at the end of TB treatment were characterized using unbiased RNA-Seq and targeted gene dcRT-MLPA., Findings: We report differences in whole blood transcriptome profiles, which were observed before initiation of treatment and throughout treatment, between patients with a good versus poor TB treatment outcome. An eight-gene and a 22-gene blood transcriptional signature distinguished patients with a good TB treatment outcome from patients with a poor TB treatment outcome at diagnosis (AUC = 0·815) or two weeks (AUC = 0·834) after initiation of TB treatment, respectively. High accuracy was obtained by cross-validating this signature in an external cohort (AUC = 0·749)., Interpretation: These findings suggest that transcriptional profiles can be used as a prognostic biomarker for treatment failure and success, even in patients with concomitant DM., Funding: The research leading to these results, as part of the TANDEM Consortium, received funding from the European Community's Seventh Framework Programme (FP7/2007-2013 Grant Agreement No. 305279) and the Netherlands Organization for Scientific Research (NWO-TOP Grant Agreement No. 91214038). The research leading to the results presented in the Indian validation cohort was supported by Research Council of Norway Global Health and Vaccination Research (GLOBVAC) projects: RCN 179342, 192534, and 248042, the University of Bergen (Norway)., Competing Interests: Declaration of interests G.W. had patents to methods of tuberculosis diagnosis and to tuberculosis biomarkers unrelated to the current study. The rest of the authors declare no financial or commercial conflicts of interest., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

46. An imaging mass cytometry immunophenotyping panel for non-human primate tissues.

Author

Niewold P, Ijsselsteijn ME, Verreck FAW, Ottenhoff THM, and Joosten SA

Subjects

Animals, Immunophenotyping, Macaca fascicularis, Macaca mulatta, Image Cytometry, Immune System

Abstract

It has recently become clear that spatial organization contributes to cellular function and that expanding our knowledge on cellular organization is essential to further our understanding of processes in health and disease. Imaging mass cytometry enables high dimensional imaging of tissue while preserving spatial context and is therefore a suitable tool to unravel spatial relationships between cells. As availability of human tissue collected over the course of disease or infection is limited, preclinical models are a valuable source of such material. Non-human primate models are used for translational research as their anatomy, physiology and immune system closely resemble those of humans due to close evolutionary proximity. Tissue from non-human primate studies is often preserved large archives encompassing a range of conditions and organs. However, knowledge on antibody clones suitable for FFPE tissue of non-human primate origin is very limited. Here, we present an imaging mass cytometry panel development pipeline which enables the selection and incorporation of antibodies for imaging of non-human primate tissue. This has resulted in an 18-marker backbone panel which enables visualization of a broad range of leukocyte subsets in rhesus and cynomolgus macaque tissues. This high-dimensional imaging mass cytometry panel can be used to increase our knowledge of cellular organization within tissues and its effect on outcome of disease., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Niewold, Ijsselsteijn, Verreck, Ottenhoff and Joosten.)

Published

2022

47. Development of Human Cell-Based In Vitro Infection Models to Determine the Intracellular Survival of Mycobacterium avium .

Author

Kilinç G, Walburg KV, Franken KLMC, Valkenburg ML, Aubry A, Haks MC, Saris A, and Ottenhoff THM

Subjects

Humans, Microbial Sensitivity Tests, Mycobacterium avium, Mycobacterium avium Complex, Mycobacterium avium-intracellulare Infection epidemiology, Mycobacterium avium-intracellulare Infection microbiology, Mycobacterium tuberculosis

Abstract

The Mycobacterium avium ( Mav ) complex accounts for more than 80% of all pulmonary diseases caused by non-tuberculous mycobacteria (NTM) infections, which have an alarming increase in prevalence and vary in different regions, currently reaching 0.3-9.8 per 100,000 individuals. Poor clinical outcomes, as a result of increasing microbial drug resistance and low treatment adherence due to drug-toxicities, emphasize the need for more effective treatments. Identification of more effective treatments, however, appears to be difficult, which may be due to the intracellular life of NTM and concomitant altered drug sensitivity that is not taken into account using traditional drug susceptibility testing screenings. We therefore developed human cell-based in vitro Mav infection models using the human MelJuSo cell line as well as primary human macrophages and a fluorescently labeled Mav strain. By testing a range of multiplicity of infection (MOI) and using flow cytometry and colony-forming unit (CFU) analysis, we found that an MOI of 10 was the most suitable for Mav infection in primary human macrophages, whereas an MOI of 50 was required to achieve similar results in MelJuSo cells. Moreover, by monitoring intracellular bacterial loads over time, the macrophages were shown to be capable of controlling the infection, while MelJuSo cells failed to do so. When comparing the MGIT system with the classical CFU counting assay to determine intracellular bacterial loads, MGIT appeared as a less labor-intensive, more precise, and more objective alternative. Next, using our macrophage Mav infection models, the drug efficacy of the first-line drug rifampicin and the more recently discovered bedaquiline on intracellular bacteria was compared to the activity on extracellular bacteria. The efficacy of the antibiotics inhibiting bacterial growth was significantly lower against intracellular bacteria compared to extracellular bacteria. This finding emphasizes the crucial role of the host cell during infection and drug susceptibility and highlights the usefulness of the models. Taken together, the human cell-based Mav infection models are reliable tools to determine the intracellular loads of Mav , which will enable researchers to investigate host-pathogen interactions and to evaluate the efficacy of (host-directed) therapeutic strategies against Mav ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Kilinç, Walburg, Franken, Valkenburg, Aubry, Haks, Saris and Ottenhoff.)

Published

2022

48. Recombinant BCG-LTAK63 Vaccine Candidate for Tuberculosis Induces an Inflammatory Profile in Human Macrophages.

Author

Dos Santos CC, Walburg KV, van Veen S, Wilson LG, Trufen CEM, Nascimento IP, Ottenhoff THM, Leite LCC, and Haks MC

Abstract

Tuberculosis (TB) is one of the top 10 leading causes of death worldwide. The recombinant BCG strain expressing the genetically detoxified A subunit of the thermolabile toxin from Escherichia coli (LTAK63) adjuvant (rBCG-LTAK63) has previously been shown to confer superior protection and immunogenicity compared to BCG in a murine TB infection model. To further investigate the immunological mechanisms induced by rBCG-LTAK63, we evaluated the immune responses induced by rBCG-LTAK63, BCG, and Mycobacterium tuberculosis ( Mtb ) H37Rv strains in experimental infections of primary human M1 and M2 macrophages at the transcriptomic and cytokine secretion levels. The rBCG-LTAK63-infected M1 macrophages more profoundly upregulated interferon-inducible genes such as IFIT3 , OAS3 , and antimicrobial gene CXCL9 compared to BCG, and induced higher levels of inflammatory cytokines such as IL-12(p70), TNF-β, and IL-15. The rBCG-LTAK63-infected M2 macrophages more extensively upregulated transcripts of inflammation-related genes, TAP1 , GBP1 , SLAMF7 , TNIP1 , and IL6 , and induced higher levels of cytokines related to inflammation and tissue repair, MCP-3 and EGF, as compared to BCG. Thus, our data revealed an important signature of immune responses induced in human macrophages by rBCG-LTAK63 associated with increased inflammation, activation, and tissue repair, which may be correlated with a protective immune response against TB.

Published

2022

49. Defining Discriminatory Antibody Fingerprints in Active and Latent Tuberculosis.

Author

Nziza N, Cizmeci D, Davies L, Irvine EB, Jung W, Fenderson BA, de Kock M, Hanekom WA, Franken KLMC, Day CL, Ottenhoff THM, and Alter G

Subjects

Antibodies, Humans, COVID-19, HIV Infections complications, Latent Tuberculosis, Tuberculosis

Abstract

Tuberculosis (TB) is among the leading causes of death worldwide from a single infectious agent, second only to COVID-19 in 2020. TB is caused by infection with Mycobacterium tuberculosis (Mtb), that results either in a latent or active form of disease, the latter associated with Mtb spread. In the absence of an effective vaccine, epidemiologic modeling suggests that aggressive treatment of individuals with active TB (ATB) may curb spread. Yet, clinical discrimination between latent (LTB) and ATB remains a challenge. While antibodies are widely used to diagnose many infections, the utility of antibody-based tests to diagnose ATB has only regained significant traction recently. Specifically, recent interest in the humoral immune response to TB has pointed to potential differences in both targeted antigens and antibody features that can discriminate latent and active TB. Here we aimed to integrate these observations and broadly profile the humoral immune response across individuals with LTB or ATB, with and without HIV co-infection, to define the most discriminatory humoral properties and diagnose TB disease more easily. Using 209 Mtb antigens, striking differences in antigen-recognition were observed across latently and actively infected individuals that was modulated by HIV serostatus. However, ATB and LTB could be discriminated, irrespective of HIV-status, based on a combination of both antibody levels and Fc receptor-binding characteristics targeting both well characterized (like lipoarabinomannan, 38 kDa or antigen 85) but also novel Mtb antigens (including Rv1792, Rv1528, Rv2435C or Rv1508). These data reveal new Mtb-specific immunologic markers that can improve the classification of ATB versus LTB., Competing Interests: GA is a founder and equity holder in Systems Seromyx and Leyden Labs. GA’s interests were reviewed and managed by MGH and Partners HealthCare in accordance with their conflict of interest policies. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Nziza, Cizmeci, Davies, Irvine, Jung, Fenderson, de Kock, Hanekom, Franken, Day, Ottenhoff and Alter.)

Published

2022

50. Immunoglobulin G1 Fc glycosylation as an early hallmark of severe COVID-19.

Author

Pongracz T, Nouta J, Wang W, van Meijgaarden KE, Linty F, Vidarsson G, Joosten SA, Ottenhoff THM, Hokke CH, de Vries JJC, Arbous SM, Roukens AHE, and Wuhrer M

Subjects

Biomarkers, Cohort Studies, Glycosylation, Humans, Immunoglobulin Fc Fragments, Immunoglobulin G, Prospective Studies, SARS-CoV-2, COVID-19

Abstract

Background: Immunoglobulin G1 (IgG1) effector functions are impacted by the structure of fragment crystallizable (Fc) tail-linked N-glycans. Low fucosylation levels on severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike (S) protein-specific IgG1 has been described as a hallmark of severe coronavirus disease 2019 (COVID-19) and may lead to activation of macrophages via immune complexes thereby promoting inflammatory responses, altogether suggesting involvement of IgG1 Fc glycosylation modulated immune mechanisms in COVID-19., Methods: In this prospective, observational single center cohort study, IgG1 Fc glycosylation was analyzed by liquid chromatography-mass spectrometry following affinity capturing from serial plasma samples of 159 SARS-CoV-2 infected hospitalized patients., Findings: At baseline close to disease onset, anti-S IgG1 glycosylation was highly skewed when compared to total plasma IgG1. A rapid, general reduction in glycosylation skewing was observed during the disease course. Low anti-S IgG1 galactosylation and sialylation as well as high bisection were early hallmarks of disease severity, whilst high galactosylation and sialylation and low bisection were found in patients with low disease severity. In line with these observations, anti-S IgG1 glycosylation correlated with various inflammatory markers., Interpretation: Association of low galactosylation, sialylation as well as high bisection with disease severity and inflammatory markers suggests that further studies are needed to understand how anti-S IgG1 glycosylation may contribute to disease mechanism and to evaluate its biomarker potential., Funding: This project received funding from the European Commission's Horizon2020 research and innovation program for H2020-MSCA-ITN IMforFUTURE, under grant agreement number 721815, and supported by Crowdfunding Wake Up To Corona, organized by the Leiden University Fund., Competing Interests: Declaration of interests A. H. E. R received support from Crowdfunding Wake Up To Corona, organized by the Leiden University Fund, participated in grants or contracts with Diorapthe, Stichting apothekers and UNeedle, participated on a Data Safety Monitoring/Advisory Board of a multicenter Dutch clinical trial (Clinical trial (RCT) on convalescent plasma for treatment of immunocompromised patients with COVID-19) and has recently been appointed as member of the EMA scientific advisory group on vaccines (unpaid). The other authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2022