Damon Tumes
School of Biological Sciences
Faculty of Sciences, Engineering and Technology
Research themes and projects in the Allergy and Cancer Immunology Laboratory (Tumes Lab):
Epigenetic regulation of Th2 cells in chronic allergic inflammation
Almost every cell in an individual has identical DNA yet can differentiate into all of the specialized cells of the body. This is accomplished via epigenetic regulation of gene expression. Our laboratory investigates how allergy associated T cells called Th2 cells are epigenetically programmed to drive diseases including asthma and chronic rhinosinusitis. Gata3 is a key driver of Th2 cell differentiation, and we have defined an intronic enhancer region of the Gata3 gene that is very important for epigenetic programming of Th2 cells. This project will extend these findings to determine how epigenetic regulation of Gata3 occurs in CD4 T cells using in vitro models of Th2 cell differentiation, 3D analysis of chromatin conformation, and newly developed in vivo asthma models.
Defining inflammatory networks and granulocyte heterogeneity in severe asthma
Severe asthma affects one in six asthmatics, yet this cohort comprises more than half of the $28 b/year asthma cost to Australia as these patients have a higher risk of life-threatening asthma attacks, poorer quality of life and progressive non-reversible loss of airway function. This project will 1) use spatial transcriptomics and computational analysis of cell-cell signalling networks to define inflammatory networks underlying severe steroid resistant airway inflammation and 2) use single cell RNA-Sequencing and proteomics to define new granulocyte subsets in the airways of humans with asthma. Until recently, eosinophils were viewed as homogenous effector cells that attack parasitic worms and viruses and often underlie chronic asthma. We have defined several new subsets of eosinophils in the airways of patients with chronic rhinosinusitis and asthma and this project will determine their functions and the potential to target them to treat severe airway disease.
Hijacking allergic inflammation to treat cancer
Groundbreaking discoveries in immunotherapy, such as inhibition of checkpoint receptors on T cells and chimeric antigen receptor (CAR) T cells have provided new hope in the war against cancer. Allergic inflammation manifests as strong aberrant responses to antigens in the environment; however, how these pathways intersect with cancer remains poorly understood. We have shown that polarisation of CD4 T cells to produce allergy driving cytokines results in enhanced ability to kill established lymphomas. This exciting finding shows that it may be possible to harness the strong pathophysiological mechanisms that normally drive allergic inflammation to treat cancer. This project will define how we can enhance T cell function in cancer and how the effector granulocytes (e.g. eosinophils, mast cells and basophils) that normally drive allergy can be manipulated to abolish solid tumors.
Deciphering epithelial programming events that potentiate development of asthma
Respiratory infections in early life are strongly associated with asthma development yet the mechanisms are unknown. This project uses in vitro 3D tissue organoid differentiation models and analysis of airway tissue from humans to determine how the airway epithelium is epigenetically programmed during differentiation and during early life.
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Journals
Year Citation 2025 Kan, W. L., Weekley, C. M., Nero, T. L., Hercus, T. R., Yip, K. H., Tumes, D. J., . . . Parker, M. W. (2025). The β Common Cytokine Receptor Family Reveals New Functional Paradigms From Structural Complexities. Immunological Reviews, 329(1), e13430-1-e13430-25.
Scopus1 WoS22025 Ryan, F. J., Clarke, M., Lynn, M. A., Benson, S. C., McAlister, S., Giles, L. C., . . . Lynn, D. J. (2025). Bifidobacteria support optimal infant vaccine responses. Nature, 641(8062), 456-464.
Scopus8 WoS5 Europe PMC12025 Tedesco, L., Ali, S. B., Erman, B., Baris, S., Pant, H., Hissaria, P., . . . Cildir, G. (2025). IgG4-Related Disease: Emerging Roles of Novel Genetic Variants, Immune Cell Subsets and Therapeutic Targets. Allergy European Journal of Allergy and Clinical Immunology, 17 pages.
2024 Wang, H., Yip, K. H., Keam, S. P., Vlahos, R., Nichol, K., Wark, P., . . . Tumes, D. J. (2024). Dual inhibition of airway inflammation and fibrosis by common β cytokine receptor blockade. Journal of Allergy and Clinical Immunology, 153(3), 672-683.e6.
Scopus7 WoS6 Europe PMC62024 Aba, Ü., Maslak, İ. C., İpşir, C., Pehlivan, D., Warnock, N. I., Tumes, D. J., . . . Erman, B. (2024). A Novel Homozygous Germline Mutation in Transferrin Receptor 1 (TfR1) Leads to Combined Immunodeficiency and Provides New Insights into Iron-Immunity Axis. Journal of Clinical Immunology, 44(2), 14 pages.
Scopus5 WoS5 Europe PMC52024 Wallach, I., Bernard, D., Nguyen, K., Ho, G., Morrison, A., Stecula, A., . . . Taglialatela, A. (2024). AI is a viable alternative to high throughput screening: a 318-target study. Scientific Reports, 14(1), 16 pages.
Scopus53 WoS56 Europe PMC522024 Cildir, G., Aba, U., Pehlivan, D., Tvorogov, D., Warnock, N. I., Ipsir, C., . . . Erman, B. (2024). Defective kinase activity of IKKα leads to combined immunodeficiency and disruption of immune tolerance in humans. Nature Communications, 15(1), 9944-1-9944-18.
Scopus1 WoS12023 Whyte, C. E., Tumes, D. J., Liston, A., & Burton, O. T. (2023). Correction to: Do more with Less: Improving High Parameter Cytometry Through Overnight Staining (Current Protocols, (2022), 2, 11, 10.1002/cpz1.589). Current Protocols, 3(1), 1 page.
Scopus1 Europe PMC12023 Yip, K. H., Chao, J., Coolen, C., Pant, H., Kral, A., Smith, W., . . . Tumes, D. J. (2023). IgE receptor of mast cells signals mediator release and inflammation via adaptor protein 14-3-3ζ. Journal of Allergy and Clinical Immunology, 152(3), 725-735.
Scopus5 WoS5 Europe PMC32022 Whyte, C. E., Tumes, D. J., Liston, A., & Burton, O. T. (2022). Do more with Less: Improving High Parameter Cytometry Through Overnight Staining. Current Protocols, 2(11), 20 pages.
Scopus29 WoS25 Europe PMC262022 Stevens, N. E., van Wolfswinkel, M., Bao, W., Ryan, F. J., Brook, B., Amenyogbe, N., . . . Lynn, D. J. (2022). Immunisation with the BCG and DTPw vaccines induces different programs of trained immunity in mice. Vaccine, 40(11), 1594-1605.
Scopus10 WoS10 Europe PMC72022 Yip, K. H., McKenzie, D., Ramshaw, H. S., Chao, J., McClure, B. J., Raquet, E., . . . Tumes, D. J. (2022). Targeting the human βc Receptor inhibits contact dermatitis in a transgenic mouse model. The Journal of Investigative Dermatology, 142(4), 1103-1113.
Scopus6 WoS5 Europe PMC72022 Wang, H., Tumes, D. J., Hercus, T. R., Yip, K. H., Aloe, C., Vlahos, R., . . . Bozinovski, S. (2022). Blocking the human common beta subunit of the GM-CSF, IL-5 and IL-3 receptors markedly reduces hyperinflammation in ARDS models. Cell Death and Disease, 13(2), 11 pages.
Scopus26 WoS22 Europe PMC152022 Pant, H., Hercus, T. R., Tumes, D. J., Yip, K. H., Parker, M. W., Owczarek, C. M., . . . Huston, D. P. (2022). Translating the biology of β common receptor-engaging cytokines into clinical medicine. Journal of Allergy and Clinical Immunology, 151(2), 324-344.
Scopus13 WoS9 Europe PMC82021 Nakajima, T., Kanno, T., Yokoyama, S., Sasamoto, S., Asou, H. K., Tumes, D. J., . . . Endo, Y. (2021). Acc1-expressing pathogenic t helper 2 cell populations facilitate lung and skin inflammation in mice. Journal of Experimental Medicine, 218(12), 27 pages.
Scopus25 WoS27 Europe PMC212021 Cildir, G., & Tumes, D. J. (2021). DOT1L leaves its mark on adaptive immunity. Immunology and Cell Biology, 99(4), 348-350.
2021 Blake, S. J., James, J., Ryan, F. J., Caparros-Martin, J., Eden, G. L., Tee, Y. C., . . . Lynn, D. J. (2021). The immunotoxicity, but not anti-tumor efficacy, of anti-CD40 and anti-CD137 immunotherapies is dependent on the gut microbiota. Cell Reports Medicine, 2(12), 100464-1-100464-e9.
Scopus26 WoS25 Europe PMC252021 Cildir, G., Yip, K. H., Pant, H., Tergaonkar, V., Lopez, A. F., & Tumes, D. J. (2021). Understanding mast cell heterogeneity at single cell resolution. Trends in Immunology, 42(6), 523-535.
Scopus31 WoS29 Europe PMC272021 De Silva, A. P., Schembri, M. A., Sarah, A. H., Chao, J., Yip, K. H., Cildir, G., . . . Pant, H. (2021). Short-term Oral Steroids Significantly Improves Chronic Rhinosinusitis Without Nasal Polyps. Laryngoscope, 131(10), E2618-E2626.
Scopus5 WoS5 Europe PMC32021 Zadeh Shirazi, A., McDonnell, M. D., Fornaciari, E., Bagherian, N. S., Scheer, K. G., Samuel, M. S., . . . Gomez, G. A. (2021). A deep convolutional neural network for segmentation of whole-slide pathology images identifies novel tumour cell-perivascular niche interactions that are associated with poor survival in glioblastoma. British Journal of Cancer, 125(3), 337-350.
Scopus31 WoS23 Europe PMC252020 Yip, K. H., Wilson, N. J., Pant, H., Brown, C. L., Busfield, S., Ng, M., . . . Owczarek, C. M. (2020). Anti-βc mAb CSL311 inhibits human nasal polyp pathophysiology in a humanized mouse xenograft model. Allergy, 75(2), 475-478.
Scopus9 WoS7 Europe PMC82020 Hojyo, S., Tumes, D., Murata, A., & Tokoyoda, K. (2020). Multiple developmental pathways lead to the generation of CD4 T-cell memory. International Immunology, 32(9), 589-595.
Scopus9 WoS9 Europe PMC82020 Suzuki, A. S., Yagi, R., Kimura, M. Y., Iwamura, C., Shinoda, K., Onodera, A., . . . Nakayama, T. (2020). Essential Role for CD30-Transglutaminase 2 Axis in Memory Th1 and Th17 Cell Generation. Frontiers in Immunology, 11, 12 pages.
Scopus7 WoS7 Europe PMC72020 Sarkander, J., Hojyo, S., Mursell, M., Yamasaki, Y., Wu, T. Y., Tumes, D. J., . . . Tokoyoda, K. (2020). Enhanced Cell Division Is Required for the Generation of Memory CD4 T Cells to Migrate Into Their Proper Location. Frontiers in Immunology, 10, 12 pages.
Scopus2 WoS3 Europe PMC12019 Ichikawa, T., Hirahara, K., Kokubo, K., Kiuchi, M., Aoki, A., Morimoto, Y., . . . Nakayama, T. (2019). CD103hi Treg cells constrain lung fibrosis induced by CD103lo tissue-resident pathogenic CD4 T cells. Nature Immunology, 20(11), 1469-1480.
Scopus98 WoS96 Europe PMC852019 Endo, Y., Onodera, A., Obata-Ninomiya, K., Koyama-Nasu, R., Asou, H. K., Ito, T., . . . Nakayama, T. (2019). ACC1 determines memory potential of individual CD4+ T cells by regulating de novo fatty acid biosynthesis. Nature Metabolism, 1(2), 261-275.
Scopus57 WoS61 Europe PMC472019 Tumes, D., Hirahara, K., Papadopoulos, M., Shinoda, K., Onodera, A., Kumagai, J., . . . Nakayama, T. (2019). Ezh2 controls development of natural killer T cells, which cause spontaneous asthma-like pathology. Journal of Allergy and Clinical Immunology, 144(2), 549-560.e10.
Scopus30 WoS27 Europe PMC222019 Yip, K. H., Papadopoulos, M., Pant, H., & Tumes, D. J. (2019). The role of invariant T cells in inflammation of the skin and airways. Seminars in Immunopathology, 41(3), 401-410.
Scopus16 WoS16 Europe PMC162018 Lynn, M., Tumes, D., Choo, J., Sribnaia, A., Blake, S., Leong, L., . . . Lynn, D. (2018). Early-life antibiotic-driven dysbiosis leads to dysregulated vaccine immune responses in mice. Cell Host and Microbe, 23(5), 653-660.
Scopus160 WoS145 Europe PMC1322018 Yamamoto, T., Endo, Y., Onodera, A., Hirahara, K., Asou, H. K., Nakajima, T., . . . Nakayama, T. (2018). DUSP10 constrains innate IL-33-mediated cytokine production in ST2hi memory-type pathogenic Th2 cells. Nature Communications, 9(1), 15 pages.
Scopus39 WoS39 Europe PMC292017 Tumes, D. J., Papadopoulos, M., Endo, Y., Onodera, A., Hirahara, K., & Nakayama, T. (2017). Epigenetic regulation of T-helper cell differentiation, memory, and plasticity in allergic asthma. Immunological Reviews, 278(1), 8-19.
Scopus80 WoS73 Europe PMC562017 Nakayama, T., Hirahara, K., Onodera, A., Endo, Y., Hosokawa, H., Shinoda, K., . . . Okamoto, Y. (2017). Th2 cells in health and disease. Annual Review of Immunology, 35(1), 53-84.
Scopus315 WoS286 Europe PMC2372016 Angela, M., Endo, Y., Asou, H. K., Yamamoto, T., Tumes, D. J., Tokuyama, H., . . . Nakayama, T. (2016). Fatty acid metabolic reprogramming via mTOR-mediated inductions of PPARγ directs early activation of T cells. Nature Communications, 7(1), 15 pages.
Scopus203 WoS190 Europe PMC1632016 Hayashizaki, K., Kimura, M. Y., Tokoyoda, K., Hosokawa, H., Shinoda, K., Hirahara, K., . . . Nakayama, T. (2016). Myosin light chains 9 and 12 are functional ligands for CD69 that regulate airway inflammation. Science Immunology, 1(3), 10 pages.
Scopus58 WoS57 Europe PMC502016 Shinoda, K., Hirahara, K., Iinuma, T., Ichikawa, T., Suzuki, A. S., Sugaya, K., . . . Nakayama, T. (2016). Thy1+ IL-7+ lymphatic endothelial cells in iBALT provide a survival niche for memory T-helper cells in allergic airway inflammation. Proceedings of the National Academy of Sciences of the United States of America, 113(20), E2842-E2851.
Scopus110 WoS96 Europe PMC872015 Endo, Y., Hirahara, K., Iinuma, T., Shinoda, K., Tumes, D. J., Asou, H. K., . . . Nakayama, T. (2015). The Interleukin-33-p38 kinase axis confers memory T helper 2 cell pathogenicity in the airway. Immunity, 42(2), 294-308.
Scopus209 WoS183 Europe PMC1552015 Onodera, A., Tumes, D. J., Watanabe, Y., Hirahara, K., Kaneda, A., Sugiyama, F., . . . Nakayama, T. (2015). Spatial interplay between polycomb and trithorax complexes controls transcriptional activity in T lymphocytes. Molecular and Cellular Biology, 35(22), 3841-3853.
Scopus17 WoS16 Europe PMC132015 Endo, Y., Asou, H. K., Matsugae, N., Hirahara, K., Shinoda, K., Tumes, D. J., . . . Nakayama, T. (2015). Obesity drives Th17 cell differentiation by inducing the lipid metabolic kinase, ACC1. Cell Reports, 12(6), 1042-1055.
Scopus204 WoS199 Europe PMC1642015 Hosokawa, H., Kato, M., Tohyama, H., Tamaki, Y., Endo, Y., Kimura, M. Y., . . . Nakayama, T. (2015). Methylation of Gata3 protein at Arg-261 regulates transactivation of the Il5 gene in T helper 2 cells. Journal of Biological Chemistry, 290(21), 13095-13103.
Scopus29 WoS28 Europe PMC232014 Watanabe, Y., Onodera, A., Kanai, U., Ichikawa, T., Obata-Ninomiya, K., Wada, T., . . . Nakayama, T. (2014). Trithorax complex component Menin controls differentiation and maintenance of T helper 17 cells. Proceedings of the National Academy of Sciences of the United States of America, 111(35), 12829-12834.
Scopus17 WoS13 Europe PMC142014 Endo, Y., Hirahara, K., Yagi, R., Tumes, D. J., & Nakayama, T. (2014). Pathogenic memory type Th2 cells in allergic inflammation. Trends in Immunology, 35(2), 69-78.
Scopus109 WoS102 Europe PMC902013 Tumes, D. J., Onodera, A., Suzuki, A., Shinoda, K., Endo, Y., Iwamura, C., . . . Nakayama, T. (2013). The Polycomb protein Ezh2 regulates differentiation and plasticity of CD4+ T helper Type 1 and type 2 cells. Immunity, 39(5), 819-832.
Scopus259 WoS247 Europe PMC2182013 Onodera, A., Tumes, D. J., & Nakayama, T. (2013). Too much of a good thing. Nature Immunology, 14(2), 112-114.
Scopus1 WoS1 Europe PMC12013 Hosokawa, H., Tanaka, T., Suzuki, Y., Iwamura, C., Ohkubo, S., Endoh, K., . . . Nakayama, T. (2013). Functionally distinct Gata3/Chd4 complexes coordinately establish T helper 2 (Th2) cell identity. Proceedings of the National Academy of Sciences of the United States of America, 110(12), 4691-4696.
Scopus71 WoS66 Europe PMC622012 Iwamura, C., Shinoda, K., Endo, Y., Watanabe, Y., Tumes, D. J., Motohashi, S., . . . Nakayama, T. (2012). Regulation of memory CD4 T-cell pool size and function by natural killer T cells in vivo. Proceedings of the National Academy of Sciences of the United States of America, 109(42), 16992-16997.
Scopus24 WoS26 Europe PMC202012 Yamashita, J., Iwamura, C., Mitsumori, K., Hosokawa, H., Sasaki, T., Takahashi, M., . . . Nakayama, T. (2012). Murine Schnurri-2 controls natural killer cell function and lymphoma development. Leukemia and Lymphoma, 53(3), 479-486.
Scopus3 WoS4 Europe PMC42012 Shinoda, K., Tokoyoda, K., Hanazawa, A., Hayashizaki, K., Zehentmeier, S., Hosokawa, H., . . . Nakayama, T. (2012). Type II membrane protein CD69 regulates the formation of resting T-helper memory. Proceedings of the National Academy of Sciences of the United States of America, 109(19), 7409-7414.
Scopus109 WoS108 Europe PMC982012 Kuwahara, M., Yamashita, M., Shinoda, K., Tofukuji, S., Onodera, A., Shinnakasu, R., . . . Nakayama, T. (2012). The transcription factor Sox4 is a downstream target of signaling by the cytokine TGF-β and suppresses T H2 differentiation. Nature Immunology, 13(8), 778-786.
Scopus151 WoS141 Europe PMC1292011 Endo, Y., Iwamura, C., Kuwahara, M., Suzuki, A., Sugaya, K., Tumes, D. J., . . . Nakayama, T. (2011). Eomesodermin controls interleukin-5 production in memory T helper 2 cells through inhibition of activity of the transcription factor GATA3. Immunity, 35(5), 733-745.
Scopus101 WoS95 Europe PMC802011 Kitajima, M., Ito, T., Tumes, D. J., Endo, Y., Onodera, A., Hashimoto, K., . . . Nakayama, T. (2011). Memory type 2 helper T cells induce long-lasting antitumor immunity by activating natural killer cells. Cancer Research, 71(14), 4790-4798.
Scopus27 WoS24 Europe PMC222010 Suzuki, A., Iwamura, C., Shinoda, K., Tumes, D. J., Kimura, M. Y., Hosokawa, H., . . . Nakayama, T. (2010). Polycomb group gene product Ring1B regulates Th2-driven airway inflammation through the inhibition of Bim-mediated apoptosis of effector Th2 cells in the lung. Journal of Immunology, 184(8), 4510-4520.
Scopus19 WoS17 Europe PMC152009 Tumes, D., Connolly, A., & Dent, L. (2009). Expression of survivin in lung eosinophils is associated with pathology in a mouse model of allergic asthma. International Immunology, 21(6), 633-644.
Scopus21 WoS17 Europe PMC142008 Tumes, D., Wong, A., Sewell, W., McColl, S., Connolly, A., & Dent, L. (2008). Differential rates of apoptosis and recruitment limit eosinophil accumulation in the lungs of asthma-resistant CBA/Ca mice. Molecular Immunology, 45(13), 3609-3617.
Scopus8 WoS8 Europe PMC62008 Giacomin, P., Cava, M., Tumes, D., Gauld, A., Iddawela, D., McColl, S., . . . Dent, L. (2008). Toxocara canis larval excretory/secretory proteins impair eosinophil-dependent resistance of mice to Nippostrongylus brasiliensis. Parasite Immunology, 30(8), 435-445.
Scopus13 WoS10 Europe PMC82007 Tumes, D., Cormie, J., Calvert, M., Stewart, K., Nassenstein, C., Braun, A., . . . Dent, L. (2007). Strain-dependent resistance to allergen-induced lung pathophysiology in mice correlates with rate of apoptosis of lung-derived eosinophils. Journal of Leukocyte Biology, 81(6), 1362-1373.
Scopus37 WoS36 Europe PMC282006 Nassenstein, C., Kutschker, J., Tumest, D., & Braun, A. (2006). Neuro-immune interaction in allergic asthma: Role of neurotrophins. Biochemical Society Transactions, 34(4), 591-593.
Scopus33 WoS27 Europe PMC24 -
Book Chapters
Year Citation 2024 Pant, H., Morrow, R., Tumes, D., & Seethala, R. (2024). Pathology of Nasal Polyps. In Nasal Polyposis and its Management Pathogenesis, Medical and Surgical Treatment Second Edition (pp. 23-34). Springer International Publishing.
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Conference Papers
Year Citation 2021 Shirazi, A. Z., McDonnell, M. D., Fornaciari, E., Bagherian, N. S., Scheer, K. G., Samuel, M. S., . . . Gomez, G. A. (2021). A deep convolutional neural network for segmentation of whole-slide pathology images in glioblastoma. In CLINICAL CANCER RESEARCH Vol. 27 (pp. 2 pages). ELECTR NETWORK: AMER ASSOC CANCER RESEARCH.
2016 Tumes, D., Onodera, A., Papadopoulos, M., & Nakayama, T. (2016). Epigenetic control of Gata3 gene expression in T helper 2 cells via histone modification and DNA conformation. In EUROPEAN JOURNAL OF IMMUNOLOGY Vol. 46 (pp. 1213). Melbourne, AUSTRALIA: WILEY-BLACKWELL. 2016 Onodera, A., Tumes, D., Kiuchi, M., Kokubo, K., Watanabe, Y., Hirahara, K., . . . Nakayama, T. (2016). Spatial interplay between Polycomb and trithorax complexes controls transcriptional activity in T lymphocytes. In EUROPEAN JOURNAL OF IMMUNOLOGY Vol. 46 (pp. 336). Melbourne, AUSTRALIA: WILEY-BLACKWELL. 2013 Tumes, D., Onodera, A., Suzuki, A., Shinoda, K., Endo, Y., Iwamura, C., . . . Nakayama, T. (2013). The histone methyltransferase Ezh2 regulates differentiation and plasticity of CD4 T helper cells.. In JOURNAL OF IMMUNOLOGY Vol. 190 (pp. 1 page). Honolulu, HI: AMER ASSOC IMMUNOLOGISTS. 2005 Tumes, D., Stewart, K., Calvert, M., Cormie, J., & Dent, L. (2005). Comparative studies of susceptibility to experimental asthma in commonly used mouse strains. In Tissue Antigens Vol. 65 (pp. 570). Melbourne, Australia: Blackwell.
MRFF Preventive and Public Health Research Initiative Chronic Respiratory Conditions Grant Proposal – Stream 1 (2024-2028). Role Co-CI. Reducing Steroid and Antibiotic Use in Rhinosinusitis and Asthma with Precision Medicine.
The Hospital Research Foundation project grant (2024-2025). Role Co-CI. Investigating the role of a novel genetic loci underlying urticaria development.
NHMRC Ideas Grant APP (2024-2027). Role AI. Elucidating the function of a novel regulator of IgE-mediated mast cell activation and chronic spontaneous urticaria development.
Channel 7 Children’s Research Foundation (2022-2024). Role CIA. Does airway epithelial progenitor cell reprogramming by viral and bacterial infections cause childhood asthma?
The Hospital Research Foundation project grant (2022-2024). Role CIA. Creating a diagnostic tool to identify antigens causing IgE-and non-IgE-mediated inflammation in people with eczema.
The Hospital Research Foundation project grant (2022-2024). Role CIA. Mapping inflammatory networks in asthmatics for personalised therapy.
NHMRC Ideas Grant APP2004288 (2021-2024). Role: CIB. Resolving eosinophil and inflammatory heterogeneity in chronic allergic airway disease for safer, effective and lasting precision therapies.
The Hospital Research Foundation Mid-Career Fellowship (01 Jan 2019-31 Dec 2021) - Role: Sole CI. Toward personalised medicine for allergic inflammation and harnessing allergic pathways to treat cancer.
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