Overview
Background
Professor Radford leads the Cancer Immunotherapies Group at Mater Research Institute-UQ. Her research interests are focussed on understanding how the human immune system can be trained to recognise and fight cancer for the development of vaccines and immunotherapies.
Professor Radford’s leadership and globally-recognised expertise in the fields of human dendritic cell (DC), immuno-oncology, immunotherapy, cancer vaccines and humanised mice is evidenced by 59 publications in top journals including J Exp Med, Nat Immunol, Immunity and more than 50 invitations to speak. She has attracted >$6 million in funding as a Chief Investigator and >$5 million as a Co-Investigator. She has been recognised by awards including NHMRC CDF2 (2011-2014), Mater Medal for Outstanding Research Contribution 2015, ASI Miller Award 2018, a 2021 Fulbright Future Fellowship and Fellowship of the QLD Academy of Arts and Science.
Professor Radford’s expertise include development and clinical trial of the one of the first vaccines to use human circulating blood conventional DC (cDC) for cancer immunotherapy that was translated to a first-in-human clinical trial for metastatic prostate cancer. Her group was the first to functionally characterise the human cDC1 subset) and propose their potential as next-generation cancer vaccines, a finding described by international leaders as “a needle in the cancer vaccine haystack”. She has pioneered techniques to isolate cDC1s from human tissues, culture them from CD34 progenitors in vitro and in humanised mice in vivo and developed a suite of assays to interrogate their phenotype and function, including priming of human tumour specific immune responses. These have been applied to develop novel cancer vaccines that target human cDC1 in vivo, that are now being translated for commercialisation and clinical trial.
Professor Radford has pioneered the development of innovative models that faithfully replicate the human immune system (humanised mice). These are in high demand globally to enhance research impact and increase the speed and accuracy of immunotherapy drug development in oncology, autoimmunity, inflammatory and infectious disease. She has applied these to wide range of applications including hematopoeisis, cancer immunotherapy and autoimmune disease.
Availability
- Honorary Professor Kristen Radford is:
- Available for supervision
Research impacts
- The first functional characterization the rare human CD141+ (cDC1) dendritic cell subset. This finding, described as a “A needle in the cancer vaccine haystack” had an “exceptional impact” on the field because it identified these dendritic cells as being key for immune responses against viruses and cancer and attractive targets for vaccine enhancement. It challenged paradigms of how dendritic cells initiate immune responses and identified novel opportunities for vaccine development.
- Development of novel vaccines that specifically target human cDC1 dendritic cells.
- Development of the Human Immune Model Facility. These are highly regarded as next-generation models for studying the human immune system for a wide range of applications including haematopoiesis, immunology, cancer immunotherapy and autoimmune disease.
- Development of a novel cancer vaccine based on naturally circulating dendritic cells. These findings were translated to a Phase I clinical trial in metastatic prostate cancer that met endpoints of safety and feasibility.
Works
Search Professor Kristen Radford’s works on UQ eSpace
2009
Journal Article
Antibody to the dendritic cell surface activation antigen CD83 prevents acute graft-versus-host disease: Figure 6
Wilson, John, Cullup, Hannah, Lourie, Rohan, Sheng, Yonghua, Palkova, Anna, Radford, Kristen J., Dickinson, Anne M., Rice, Alison M., Hart, Derek N.J. and Munster, David J. (2009). Antibody to the dendritic cell surface activation antigen CD83 prevents acute graft-versus-host disease: Figure 6. The Journal of Experimental Medicine, 206 (5), 1203-1203. doi: 10.1084/jem.20070723041509c
2009
Conference Publication
CD83 antibody prevents GvHD and does not impair GvL induction
Cullup, H., Wilson, J., Lourie, R., Shen, Y., Palkova, A., Radford, K., Dickinson, A. M., Rice, A., Hart, D. and Munster, D. (2009). CD83 antibody prevents GvHD and does not impair GvL induction. 35th Annual Meeting of the European-Group-for-Blood-and-Marrow-Transplantation, Goteborg Sweden, Mar 29-Apr 01, 2009. LONDON: NATURE PUBLISHING GROUP.
2009
Journal Article
Antibody to the dendritic cell surface activation antigen CD83 prevents acute graft-versus-host disease
Wilson, John, Cullup, Hannah, Lourie, Rohan, Sheng, Yonghua, Palkova, Anna, Radford, Kristen J., Dickinson, Anne M., Rice, Alison M., Hart, Derek N. J. and Munster, David J. (2009). Antibody to the dendritic cell surface activation antigen CD83 prevents acute graft-versus-host disease. Journal of Experimental Medicine, 206 (2), 387-398. doi: 10.1084/jem.20070723
2008
Book Chapter
Dendritic Cells in Cancer Immunotherapy
Vulink, A., Radford, K. J., Melief, C. and Hart, D. N. J. (2008). Dendritic Cells in Cancer Immunotherapy. Advances in Cancer Research. (pp. 363-407) London, U.K.: Elsevier Inc.. doi: 10.1016/S0065-230X(07)99006-5
2007
Conference Publication
Residual lymphocytes in GM-CSF and IL-15 differentiated monocyte-derived dendritic cells enables cytotoxic T lymphocyte responses
Hardy, Melinda Y., Kassianos, Andrew J., Wilkinson, Ray, Vulink, Anneie, Hart, Derek N. J. and Radford, Kristen J. (2007). Residual lymphocytes in GM-CSF and IL-15 differentiated monocyte-derived dendritic cells enables cytotoxic T lymphocyte responses. 49th Annual Meeting of the American-Society-of-Hematology, Atlanta Ga, Dec 08-11, 2007. WASHINGTON: AMER SOC HEMATOLOGY.
2007
Journal Article
Blood monocytes, myeloid dendritic cells and the cytokines interleukin (IL)-7 and IL-15 maintain human CD4(+) T memory cells with mixed helper/regulatory function
McKinlay, Adam, Radford, Kristen, Kato, Masato, Field, Ken, Gardiner, Damien, Khalil, Dalia, Burnell, Fiona, Hart, Derek and Vuckovic, Slavica (2007). Blood monocytes, myeloid dendritic cells and the cytokines interleukin (IL)-7 and IL-15 maintain human CD4(+) T memory cells with mixed helper/regulatory function. Immunology, 120 (3), 392-403. doi: 10.1111/j.1365-2567.2006.02515.x
2007
Journal Article
Enhanced delivery of immunoliposomes to human dendritic cells by targeting the multilectin receptor DEC-205
Badiee, A., Davies, N. M., McDonald, K., Radford, K., Michiue, H., Hart, D. and Kato, M. (2007). Enhanced delivery of immunoliposomes to human dendritic cells by targeting the multilectin receptor DEC-205. Vaccine, 25 (25), 4757-4766. doi: 10.1016/j.vaccine.2007.04.029
2006
Journal Article
Numerical and functional assessment of blood dendritic cells in prostate cancer patients
Wilkinson, Ray, Kassianos, Andrew J., Swindle, Peter, Hart, Derek N. J. and Radford, Kristen J. (2006). Numerical and functional assessment of blood dendritic cells in prostate cancer patients. The Prostate, 66 (2), 180-192. doi: 10.1002/pros.20333
2006
Journal Article
CD11c+ blood dendritic cells induce antigen-specific cytotoxic T lymphocytes with similar efficiency compared to monocyte-derived dendritic cells despite higher levels of MHC class I expression
Radford, Kristen J., Turtle, Cameron J., Kassianos, Andrew J. and Hart, Derek N. J. (2006). CD11c+ blood dendritic cells induce antigen-specific cytotoxic T lymphocytes with similar efficiency compared to monocyte-derived dendritic cells despite higher levels of MHC class I expression. Journal of Immunotherapy, 29 (6), 596-605. doi: 10.1097/01.cji.0000211310.90621.5d
2005
Journal Article
Vaccine strategies to treat lymphoproliferative disorders
Radford, Kristen J., Vari, Frank and Hart, Derek N. J. (2005). Vaccine strategies to treat lymphoproliferative disorders. Pathology, 37 (6), 534-550. doi: 10.1080/00313020500376462
2005
Conference Publication
Human memory CD4(+) T cells maintained in the absence of antigen develop regulatory T cells capable of suppressing antibody responses
Mckinlay, A, Radford, KJ, Gardiner, D, Khalil, D, Field, K, Burnell, F, Hart, DNJ and Vuckovic, S (2005). Human memory CD4(+) T cells maintained in the absence of antigen develop regulatory T cells capable of suppressing antibody responses. 35th Annual SCientific Meeting of the Australasian-Society-for-Immunology/14th International HLA and Immunogenetics Workshops, Melbourne Australia, Nov 29-Dec 02, 2005. OXFORD: BLACKWELL PUBLISHING.
2005
Conference Publication
Production of IL-2, IL-12, and IL-10 by human blood myeloid dendritic cells
Hardy, MY, Kassianos, AJ, Clark, GJ, Hart, DNJ and Radford, KJ (2005). Production of IL-2, IL-12, and IL-10 by human blood myeloid dendritic cells. 35th Annual SCientific Meeting of the Australasian-Society-for-Immunology/14th International HLA and Immunogenetics Workshops, Melbourne Australia, Nov 29-Dec 02, 2005. OXFORD: BLACKWELL PUBLISHING.
2005
Journal Article
Immunoselection of functional CMRF-56+ blood dendritic cells from multiple myeloma patients for immunotherapy
Radford, Kristen J., Turtle, Cameron J., Kassianos, Andrew J., Vuckovic, Slavica, Gardiner, Damien, Khalil, Dahlia, Taylor, Kerry, Wright, Sue, Gill, Devinder and Hart, Derek N. J. (2005). Immunoselection of functional CMRF-56+ blood dendritic cells from multiple myeloma patients for immunotherapy. Journal of Immunotherapy, 28 (4), 322-331. doi: 10.1097/01.cji.0000163592.66910.e4
2004
Conference Publication
RNA-loading of CMRF-56 positive blood dendritic cells is a promising strategy for multiple myeloma immunotherapy
Turtle, C. J., Radford, K. J., Allan, C. P., Kassianos, A., Kato, M., Vuckovic, S., MacDonald, K.J., Lopez, Jose A., Jackson, D. C., Wright, S., Taylor, K., Marlton, P., Gill, D., Hart, D. N. J. and Korngold, R. (2004). RNA-loading of CMRF-56 positive blood dendritic cells is a promising strategy for multiple myeloma immunotherapy. Tandem BMT 2004 Meeting, Orlando, Florida, U.S., 13-17 February 2004. CHARLOTTESVILLE: AMER SOC HEMATOLOGY. doi: 10.1016/j.bbmt.2003.12.081
2004
Journal Article
Potential therapeutic applications of recombinant, invasive E. coli
Critchley, R, Jezzard, S, Radford, KJ, Goussard, S, Lemoine, NR, Grillot-Courvalin, C and Vassaux, G (2004). Potential therapeutic applications of recombinant, invasive E. coli. Gene Therapy, 11 (15), 1224-1233. doi: 10.1038/sj.gt.3302281
2003
Conference Publication
RNA-loading of CMRF-56 positive blood dendritic cells is a promising strategy for multiple myeloma immunotherapy.
Turtle, CJ, Radford, KJ, Allan, CP, Kato, M and Hart, DNJ (2003). RNA-loading of CMRF-56 positive blood dendritic cells is a promising strategy for multiple myeloma immunotherapy.. 45th Annual Meeting of the American-Society-of-Hematology, San Diego California, Dec 06-09, 2003. WASHINGTON: AMER SOC HEMATOLOGY.
2003
Journal Article
Recombinant E. coli efficiently delivers antigen and maturation signals to human dendritic cells: Presentation of MART1 to CD8+ T cells
Radford, KJ, Jackson, AM, Wang, JH, Vassaux, G and Lemoine, NR (2003). Recombinant E. coli efficiently delivers antigen and maturation signals to human dendritic cells: Presentation of MART1 to CD8+ T cells. International Journal of Cancer, 105 (6), 811-819. doi: 10.1002/ijc.11149
2002
Journal Article
A recombinant E. coli vaccine to promote MHC class I-dependent antigen presentation: application to cancer immunotherapy
Radford, K. J., Higgins, D. E., Pasquini, S., Cheadle, E. J., Carta, L., Jackson, A. M., Lemoine, N. R. and Vassaux, G. (2002). A recombinant E. coli vaccine to promote MHC class I-dependent antigen presentation: application to cancer immunotherapy. Gene Therapy, 9 (21), 1455-1463. doi: 10.1038/sj.gt.3301812
1997
Journal Article
Immunogenicity of CD63 in a patient with melanoma
Smith, Melanie, Bleijs, Rik, Radford, Kristen and Mersey, Peter (1997). Immunogenicity of CD63 in a patient with melanoma. Melanoma Research, 7 (SUPPL. 2)
1997
Journal Article
Regulation of tumor cell motility and migration by CD63 in a human melanoma cell line
Radford, KJ, Thorne, RF and Hersey, P (1997). Regulation of tumor cell motility and migration by CD63 in a human melanoma cell line. Journal of Immunology, 158 (7), 3353-3358.
Funding
Current funding
Supervision
Availability
- Honorary Professor Kristen Radford is:
- Available for supervision
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Available projects
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The role of human DC1 in cancer
Immunotherapies are one of the most successful treatments for advanced cancer patients but only 15% of patients benefit. The inability of cancer patients to initiate an immune response to their tumour is one of the major reasons for this. Dendritic cells (DCs) play a critical role in the initiation and regulation of tumour immune responses and are promising therapeutic agents. The capture of cell debris by DC is the critical first step that governs whether tolerance or immunity is generated but the molecular mechanisms underpinning programming induced following by dead cell uptake by DC subsets remains largely uncharacterised. This proposal uses novel preclinical assays to dissect the molecular mechanisms by which human DC subsets process tumour cells, how this influences their ability to initiate or regulate tumour immune responses, and identify new therapeutic targets to enhance tumour immunogenicity.
Supervision history
Current supervision
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Doctor Philosophy
Development of novel vaccines for cancer immunotherapy
Principal Advisor
Other advisors: Dr Kelvin Tuong, Professor Maher Gandhi
-
Doctor Philosophy
Personalised therapy for lymphoma
Associate Advisor
Other advisors: Professor Maher Gandhi
-
Doctor Philosophy
Investigations in the development of cord blood derived, GMP grade cellular immunotherapies
Associate Advisor
Other advisors: Professor Maher Gandhi
Completed supervision
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2022
Doctor Philosophy
Establishing Humanized Mouse Models to Evaluate Immunotherapy
Principal Advisor
Other advisors: Dr Ingrid Winkler, Dr Camille Guillerey
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2019
Doctor Philosophy
Human dendritic cell immunoprofiling in advanced melanoma patients and responses to immunotherapy
Principal Advisor
Other advisors: Professor Andrew Barbour
-
2016
Doctor Philosophy
Molecular characterisation and targeting of the dendritic cell receptor Clec9A
Principal Advisor
-
2016
Master Philosophy
The role of human CD1c+ dendritic cells at activating innate and adaptive cells of the immune system
Principal Advisor
Other advisors: Emeritus Professor Ross Barnard
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2015
Master Philosophy
Development of humanised mouse model for DC based immunotherapy
Principal Advisor
-
2010
Doctor Philosophy
The functional characterisation of human blood CD11c+ myeloid dendritic cell subsets
Principal Advisor
-
2008
Doctor Philosophy
The manipulation of human dendritic cells subsets and the design of optimal preparations for tumour immunotherapy
Principal Advisor
-
2024
Doctor Philosophy
Engineering antigen-presenting cells for tolerogenic gene therapy in humanised mice.
Associate Advisor
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2024
Doctor Philosophy
Immune cell regulation by the microenvironment
Associate Advisor
Other advisors: Dr Hana Starobova, Dr Ingrid Winkler
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2024
Doctor Philosophy
Defining the Clinical Phenotype of Autoantibody Associated Epilepsy
Associate Advisor
Other advisors: Professor Pamela McCombe
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2022
Doctor Philosophy
Understanding the early inflammatory response to traumatic spinal cord injury
Associate Advisor
Other advisors: Professor Marc Ruitenberg
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2020
Doctor Philosophy
The role of receptor for advanced glycation end products (RAGE) in the development of type 1 diabetes
Associate Advisor
Other advisors: Honorary Professor Josephine Forbes
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2015
Doctor Philosophy
CD83 as a Drug Target in GVHD and Humoral Immunity
Associate Advisor
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2013
Doctor Philosophy
The role of Mincle in the human innate immune response to Candida albicans
Associate Advisor
Other advisors: Professor Ranjeny Thomas
Media
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