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1. Tissue-colonizing disseminated tumor cells secrete prostaglandin E2 to promote NK cell dysfunction and evade anti-metastatic immunity

Author

Anna-Marie Pedde, Hyunu Kim, Sainitin Donakonda, Tobias Baumann, Felix Bayerl, Philippa Meiser, Anna Hirschberger, Christine Klement, Simon Grassmann, Rupert Öllinger, Norbert Hüser, Daniel Hartmann, Melanie Laschinger, Joseph A. Trapani, Alfred Zippelius, Tobias Bald, Gabriela M. Wiedemann, Roland Rad, Joseph C. Sun, Bastian Höchst, and Jan P. Böttcher

Subjects
CP: Immunology, CP: Cancer, Biology (General), QH301-705.5
Abstract

Summary: Natural killer (NK) cells are critical for anti-metastatic immunity and can eliminate metastasizing tumor cells within circulation and sites of metastatic seeding. Here, we show that disseminated tumor cells (DTCs) colonizing the mouse lung secrete prostaglandin E2 (PGE2) to locally induce NK cell dysfunction, allowing outgrowing metastases to escape immune control and establish metastatic disease. Mechanistically, PGE2 signaling through its receptors EP2 and EP4 mediates NK cell dysfunction, which leads to reprogramming of NK cell gene expression and results in impaired production of anti-metastatic cytokines. In human cancer patients, the PGE2-EP2/EP4 axis is associated with NK cell dysfunction within distant organ metastases. Disabling EP2/EP4 signaling in NK cells prevents their dysfunction in DTC-colonized lungs and achieves effective NK cell-mediated control of metastatic disease. Our findings reveal a suppressive signaling axis exploited by metastasizing tumor cells to escape immune control in distant organs that could be targeted for metastatic cancer therapy.

Published
2024
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2. Cancer cell-specific PD-L1 expression is a predictor of poor outcome in patients with locally advanced oral cavity squamous cell carcinoma

Author

Thu Nguyen, Minyu Wang, Sean Macdonald, David Goode, Sevastjan Kranz, Paul Joseph Neeson, Kevin Thia, Joseph A Trapani, Lei Qin, Simone Belobrov, and David Wiesenfeld

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Background Locally advanced oral cavity squamous cell carcinoma (OCSCC) presents a significant clinical challenge despite being partially responsive to standard treatment modalities. This study investigates the prognostic implications of programmed death-ligand 1 (PD-L1) expression in these tumors, focusing on its association with treatment outcomes and the immune microenvironment.Methods We assessed tumor-infiltrating lymphocytes (TILs) in 132 patients with OCSCC to evaluate their impact on survival. Multiplex immunohistochemistry staining for CD3, CD68, CD11c, PD-L1, and P40 was used to explore correlations with clinical outcomes in patients with early-stage (n=22) and locally advanced (n=36) OCSCC. These initial findings were validated through differential gene expression analysis, gene set enrichment, and immune cell deconvolution in a The Cancer Genome Atlas cohort of 163 locally advanced OCSCC tumors. Additionally, single-cell RNA sequencing (scRNA-seq) on a smaller cohort (n=10) further characterized the PD-L1hi or PD-L1lo cancer cells in these tumors.Results Elevated PD-L1 expression was associated with poor outcomes in patients with locally advanced OCSCC undergoing standard adjuvant therapy, irrespective of “hot” or “cold” classification based on TILs assessment. PD-L1hi tumors exhibited an active immune response phenotype, enriched with M1 macrophages, CD8+ T cells and T regulatory cells in the tumor microenvironment. Notably, the negative impact of PD-L1 expression on outcomes was primarily attributed to its expression by cancer cells, rather than immune cells. Furthermore, scRNA-seq revealed that immune interactions were not essential for PD-L1 upregulation in cancer cells, instead, complex regulatory networks were involved. Additionally, PD-L1lo locally advanced tumors exhibited more complex pathway enrichment and diverse T-cell populations compared with those in the early-stage.Conclusion Our findings underscore the prognostic significance of PD-L1 expression in locally advanced OCSCC, and unveil the complex interplay between PD-L1 expression, immune responses, and molecular pathways in the tumor microenvironment. This study provides insights that may inform future therapeutic strategies, including the possibility of tailored immunotherapeutic approaches for patients with PD-L1hi locally advanced OCSCC.

Published
2024
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3. Pharmacologic inhibition of dipeptidyl peptidase 1 (cathepsin C) does not block in vitro granzyme-mediated target cell killing by CD8 T or NK cells

Author

Vivien R. Sutton, Sally V. Watt, Hedieh Akhlaghi, David C. Cipolla, Kuan-Ju Chen, Daniel LaSala, Patrick P. McDonald, Paul A. Beavis, Isabelle Munoz, Adrian W. Hodel, Tahereh Noori, Ilia Voskoboinik, and Joseph A. Trapani

Subjects
DPP1, granzyme, apoptosis, serine protease, T cell, lysosome, Therapeutics. Pharmacology, RM1-950
Abstract

Recently developed small-molecule inhibitors of the lysosomal protease dipeptidyl peptidase 1 (DPP1), also known as cathepsin C (CatC), can suppress suppurative inflammation in vivo by blocking the processing of zymogenic (pro-) forms of neutrophil serine proteases (NSPs), including neutrophil elastase, proteinase 3, and cathepsin G. DPP1 also plays an important role in activating granzyme serine proteases that are expressed by cytotoxic T lymphocytes (CTL) and natural killer (NK) cells. Therefore, it is critical to determine whether DPP1 inhibition can also cause off-target suppression of CTL/NK-cell-mediated killing of virus-infected or malignant cells. Herein, we demonstrate that the processing of human granzymes A and B, transitioning from zymogen to active proteases, is not solely dependent on DPP1. Thus, the killing of target cells by primary human CD8+ T cells, NK cells, and gene-engineered anti-CD19 CAR T cells was not blocked in vitro even after prior exposure to high concentrations of the reversible DPP1 inhibitor brensocatib. Consistent with this observation, the turnover of model granzyme A/B peptide substrates in the human CTL/NK cell lysates was not significantly reduced by brensocatib. In contrast, preincubation with brensocatib almost entirely abolished (>90%) both the cytotoxic activity of mouse CD8+ T cells and granzyme substrate turnover. Overall, our finding that the effects of DPP1 inhibition on human cytotoxic lymphocytes are attenuated in comparison to those of mice indicates that granzyme processing/activation pathways differ between mice and humans. Moreover, the in vitro data suggest that human subjects treated with reversible DPP1 inhibitors, such as brensocatib, are unlikely to experience any appreciable deficits in CTL/NK-cell-mediated immunities.

Published
2024
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4. A novel transcriptional signature identifies T-cell infiltration in high-risk paediatric cancer

Author

Chelsea Mayoh, Andrew J. Gifford, Rachael Terry, Loretta M. S. Lau, Marie Wong, Padmashree Rao, Tyler Shai-Hee, Federica Saletta, Dong-Anh Khuong-Quang, Vicky Qin, Marion K. Mateos, Deborah Meyran, Katherine E. Miller, Aysen Yuksel, Emily V. A. Mould, Rachel Bowen-James, Dinisha Govender, Akanksha Senapati, Nataliya Zhukova, Natacha Omer, Hetal Dholaria, Frank Alvaro, Heather Tapp, Yonatan Diamond, Luciano Dalla Pozza, Andrew S. Moore, Wayne Nicholls, Nicholas G. Gottardo, Geoffrey McCowage, Jordan R. Hansford, Seong-Lin Khaw, Paul J. Wood, Daniel Catchpoole, Catherine E. Cottrell, Elaine R. Mardis, Glenn M. Marshall, Vanessa Tyrrell, Michelle Haber, David S. Ziegler, Orazio Vittorio, Joseph A. Trapani, Mark J. Cowley, Paul J. Neeson, and Paul G. Ekert

Subjects
Paediatric cancer, Tumour immune microenvironment, T-cell infiltration, Biomarkers, Transcriptome signature, Medicine, Genetics, QH426-470
Abstract

Abstract Background Molecular profiling of the tumour immune microenvironment (TIME) has enabled the rational choice of immunotherapies in some adult cancers. In contrast, the TIME of paediatric cancers is relatively unexplored. We speculated that a more refined appreciation of the TIME in childhood cancers, rather than a reliance on commonly used biomarkers such as tumour mutation burden (TMB), neoantigen load and PD-L1 expression, is an essential prerequisite for improved immunotherapies in childhood solid cancers. Methods We combined immunohistochemistry (IHC) with RNA sequencing and whole-genome sequencing across a diverse spectrum of high-risk paediatric cancers to develop an alternative, expression-based signature associated with CD8+ T-cell infiltration of the TIME. Furthermore, we explored transcriptional features of immune archetypes and T-cell receptor sequencing diversity, assessed the relationship between CD8+ and CD4+ abundance by IHC and deconvolution predictions and assessed the common adult biomarkers such as neoantigen load and TMB. Results A novel 15-gene immune signature, Immune Paediatric Signature Score (IPASS), was identified. Using this signature, we estimate up to 31% of high-risk cancers harbour infiltrating T-cells. In addition, we showed that PD-L1 protein expression is poorly correlated with PD-L1 RNA expression and TMB and neoantigen load are not predictive of T-cell infiltration in paediatrics. Furthermore, deconvolution algorithms are only weakly correlated with IHC measurements of T-cells. Conclusions Our data provides new insights into the variable immune-suppressive mechanisms dampening responses in paediatric solid cancers. Effective immune-based interventions in high-risk paediatric cancer will require individualised analysis of the TIME.

Published
2023
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5. Imaging immunity in patients with cancer using positron emission tomography

Author

Fiona Hegi-Johnson, Stacey Rudd, Rodney J. Hicks, Dirk De Ruysscher, Joseph A. Trapani, Thomas John, Paul Donnelly, Benjamin Blyth, Gerard Hanna, Sarah Everitt, Peter Roselt, and Michael P. MacManus

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Immune checkpoint inhibitors and related molecules can achieve tumour regression, and even prolonged survival, for a subset of cancer patients with an otherwise dire prognosis. However, it remains unclear why some patients respond to immunotherapy and others do not. PET imaging has the potential to characterise the spatial and temporal heterogeneity of both immunotherapy target molecules and the tumor immune microenvironment, suggesting a tantalising vision of personally-adapted immunomodulatory treatment regimens. Personalised combinations of immunotherapy with local therapies and other systemic therapies, would be informed by immune imaging and subsequently modified in accordance with therapeutically induced immune environmental changes. An ideal PET imaging biomarker would facilitate the choice of initial therapy and would permit sequential imaging in time-frames that could provide actionable information to guide subsequent therapy. Such imaging should provide either prognostic or predictive measures of responsiveness relevant to key immunotherapy types but, most importantly, guide key decisions on initiation, continuation, change or cessation of treatment to reduce the cost and morbidity of treatment while enhancing survival outcomes. We survey the current literature, focusing on clinically relevant immune checkpoint immunotherapies, for which novel PET tracers are being developed, and discuss what steps are needed to make this vision a reality.

Published
2022
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6. Reprogrammed CRISPR-Cas13b suppresses SARS-CoV-2 replication and circumvents its mutational escape through mismatch tolerance

Author

Mohamed Fareh, Wei Zhao, Wenxin Hu, Joshua M. L. Casan, Amit Kumar, Jori Symons, Jennifer M. Zerbato, Danielle Fong, Ilia Voskoboinik, Paul G. Ekert, Rajeev Rudraraju, Damian F. J. Purcell, Sharon R. Lewin, and Joseph A. Trapani

Subjects
Science
Abstract

Cas13b can be harnessed to target and degrade RNA transcripts inside a cellular environment. Here the authors reprogram Cas13b to target SARSCoV-2 transcripts in infected mammalian cells and reveal its resilience to variants thanks to single mismatch tolerance.

Published
2021
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7. The efficacy of combination treatment with elotuzumab and lenalidomide is dependent on crosstalk between natural killer cells, monocytes and myeloma cells

Author

Kelden Richardson, Simon P. Keam, Joe Jiang Zhu, Deborah Meyran, Criselle D’Souza, Sean Macdonald, Kerry Campbell, Michael Robbins, Natalie A. Bezman, Kirsten Todd, Hang Quach, David S. Ritchie, Simon J. Harrison, H. Miles Prince, Joseph A. Trapani, Misty R. Jenkins, Paul A. Beavis, Phillip K. Darcy, and Paul J. Neeson

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Patients with refractory relapsed multiple myeloma respond to combination treatment with elotuzumab and lenalidomide. The mechanisms underlying this observation are not fully understood. Furthermore, biomarkers predictive of response have not been identified to date. To address these issues, we used a humanized myeloma mouse model and adoptive transfer of human natural killer (NK) cells to show that elotuzumab and lenalidomide treatment controlled myeloma growth, and this was mediated through CD16 on NK cells. In co-culture studies, we showed that peripheral blood mononuclear cells from a subset of patients with refractory relapsed multiple myeloma were effective killers of OPM2 myeloma cells when treated with elotuzumab and lenalidomide, and this was associated with significantly increased expression of CD54 on OPM2 cells. Furthermore, elotuzumab- and lenalidomide-induced OPM2 cell killing and increased OPM2 CD54 expression were dependent on both monocytes and NK cells, and these effects were not mediated by soluble factors alone. At the transcript level, elotuzumab and lenalidomide treatment significantly increased OPM2 myeloma cell expression of genes for trafficking and adhesion molecules, NK cell activation ligands and antigen presentation molecules. In conclusion, our findings suggest that multiple myeloma patients require elotuzumab- and lenalidomide-mediated upregulation of CD54 on autologous myeloma cells, in combination with NK cells and monocytes to mediate an effective anti-tumor response. Furthermore, our data suggest that increased myeloma cell CD54 expression levels could be a powerful predictive biomarker for response to elotuzumab and lenalidomide treatment.

Published
2022
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8. Antigen-driven EGR2 expression is required for exhausted CD8+ T cell stability and maintenance

Author

Mayura V. Wagle, Stephin J. Vervoort, Madison J. Kelly, Willem Van Der Byl, Timothy J. Peters, Ben P. Martin, Luciano G. Martelotto, Simone Nüssing, Kelly M. Ramsbottom, James R. Torpy, Deborah Knight, Sinead Reading, Kevin Thia, Lisa A. Miosge, Debbie R. Howard, Renee Gloury, Sarah S. Gabriel, Daniel T. Utzschneider, Jane Oliaro, Jonathan D. Powell, Fabio Luciani, Joseph A. Trapani, Ricky W. Johnstone, Axel Kallies, Christopher C. Goodnow, and Ian A. Parish

Subjects
Science
Abstract

Exhausted T cells arise when chronic activation triggers functional defects. Here the authors show that chronic antigenic stimulation in both tumour and infection models induces the expression of EGR2, which drives and stabilises exhausted cell epigenetic and transcriptional identity.

Published
2021
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10. Natural killer cells kill extracellular Pseudomonas aeruginosa using contact-dependent release of granzymes B and H.

Author

David D Feehan, Khusraw Jamil, Maria J Polyak, Henry Ogbomo, Mark Hasell, Shu Shun Li, Richard F Xiang, Michael Parkins, Joseph A Trapani, Joe J Harrison, and Christopher H Mody

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Pseudomonas aeruginosa is an opportunistic pathogen that often infects individuals with the genetic disease cystic fibrosis, and contributes to airway blockage and loss of lung function. Natural killer (NK) cells are cytotoxic, granular lymphocytes that are part of the innate immune system. NK cell secretory granules contain the cytolytic proteins granulysin, perforin and granzymes. In addition to their cytotoxic effects on cancer and virally infected cells, NK cells have been shown to play a role in an innate defense against microbes, including bacteria. However, it is not known if NK cells kill extracellular P. aeruginosa or how bacterial killing might occur at the molecular level. Here we show that NK cells directly kill extracellular P. aeruginosa using NK effector molecules. Live cell imaging of a co-culture of YT cells, a human NK cell line, and GFP-expressing P. aeruginosa in the presence of the viability dye propidium iodide demonstrated that YT cell killing of P. aeruginosa is contact-dependent. CRISPR knockout of granulysin or perforin in YT cells had no significant effect on YT cell killing of P. aeruginosa. Pre-treatment of YT and NK cells with the serine protease inhibitor 3,4-dichloroisocoumarin (DCI) to inhibit all granzymes, resulted in an inhibition of killing. Although singular CRISPR knockout of granzyme B or H had no effect, knockout of both in YT cells completely abrogated killing of P. aeruginosa in comparison to wild type YT cell controls. Nitrocefin assays suggest that the bacterial membrane is damaged. Inhibition of killing by antioxidants suggest that ROS are required for the bactericidal mode-of-action. Taken together, these results identify that NK cells kill P. aeruginosa through a membrane damaging, contact-dependent process that requires granzyme induced ROS production, and moreover, that granzyme B and H are redundant in this killing process.

Published
2022
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11. Lipid order and charge protect killer T cells from accidental death

Author

Jesse A. Rudd-Schmidt, Adrian W. Hodel, Tahereh Noori, Jamie A. Lopez, Hyun-Jung Cho, Sandra Verschoor, Annette Ciccone, Joseph A. Trapani, Bart W. Hoogenboom, and Ilia Voskoboinik

Subjects
Science
Abstract

Cytotoxic T lymphocytes (CTLs) eliminate virus-infected and cancerous cells by secreting the pore-forming protein (perforin) and pro-apoptotic serine proteases (granzymes). Here authors show that two mechanisms protect the membranes of CTLs from disruption by perforin and granzymes.

Published
2019
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12. Myeloma natural killer cells are exhausted and have impaired regulation of activation

Author

Criselle D’Souza, Simon P. Keam, Han Xian Aw Yeang, Michael Neeson, Kelden Richardson, Andy K. Hsu, Rachael Canfield, Natalie Bezman, Michael Robbins, Hang Quach, David S. Ritchie, Simon J. Harrison, Joseph A. Trapani, H. Miles Prince, Paul A. Beavis, Phillip K. Darcy, and Paul J. Neeson

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Published
2021
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13. PVRIG is a novel natural killer cell immune checkpoint receptor in acute myeloid leukemia

Author

Jessica Li, Sarah Whelan, Maya F. Kotturi, Deborah Meyran, Criselle D’Souza, Kyle Hansen, Spencer Liang, John Hunter, Joseph A. Trapani, and Paul J. Neeson

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

This study explored the novel immune checkpoint poliovirus receptor- related immunoglobulin domain-containing (PVRIG) in acute myeloid leukemia (AML). We showed that AML patient blasts consistently expressed the PVRIG ligand (poliovirus receptor-related 2, PVRL2). Furthermore, PVRIG blockade significantly enhanced naural killer (NK)-cell killing of PVRL2+, poliovirus receptor (PVR)lo AML cell lines, and significantly increased NK-cell activation and degranulation in the context of patient primary AML blasts. However, in AML patient bone marrow, NK-cell PVRIG expression levels were not increased. In order to understand how PVRIG blockade might potentially be exploited therapeutically, we investigated the biology of PVRIG and revealed that NK-cell activation resulted in reduced PVRIG expression on the cell surface. This occurred whether NK cells were activated by tumor cell recognition, cytokines (interleukin 2 [IL-2] and IL-12) or activating receptor stimulation (CD16 and NKp46). PVRIG was present at higher levels in the cytoplasm than on the cell surface, particularly on CD56bright NK cells, which further increased cytoplasmic PVRIG levels following IL-2 and IL-12 activation. PVRIG was continually transported to the cell surface via the endoplasmic reticulum and Golgi in both unstimulated and activated NK cells. Taken together, our findings suggest that anti-PVRIG blocking antibody functions by binding to surface-bound PVRIG, which undergoes rapid turnover in both unstimulated and activated NK cells. We conclude that the PVRIG-PVRL2 immune checkpoint axis can feasibly be targeted with PVRIG blocking antibody for NK-mediated immunotherapy of PVRL2+ AML.

Published
2020
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14. Revisiting T Cell Tolerance as a Checkpoint Target for Cancer Immunotherapy

Author

Simone Nüssing, Joseph A. Trapani, and Ian A. Parish

Subjects
cancer immunotherapies, immunological tolerance, cancer immune evasion, CD8+ T cell, checkpoint blockade, Immunologic diseases. Allergy, RC581-607
Abstract

Immunotherapy has revolutionized the treatment of cancer. Nevertheless, the majority of patients do not respond to therapy, meaning a deeper understanding of tumor immune evasion strategies is required to boost treatment efficacy. The vast majority of immunotherapy studies have focused on how treatment reinvigorates exhausted CD8+ T cells within the tumor. In contrast, how therapies influence regulatory processes within the draining lymph node is less well studied. In particular, relatively little has been done to examine how tumors may exploit peripheral CD8+ T cell tolerance, an under-studied immune checkpoint that under normal circumstances prevents detrimental autoimmune disease by blocking the initiation of T cell responses. Here we review the therapeutic potential of blocking peripheral CD8+ T cell tolerance for the treatment of cancer. We first comprehensively review what has been learnt about the regulation of CD8+ T cell peripheral tolerance from the non-tumor models in which peripheral tolerance was first defined. We next consider how the tolerant state differs from other states of negative regulation, such as T cell exhaustion and senescence. Finally, we describe how tumors hijack the peripheral tolerance immune checkpoint to prevent anti-tumor immune responses, and argue that disruption of peripheral tolerance may contribute to both the anti-cancer efficacy and autoimmune side-effects of immunotherapy. Overall, we propose that a deeper understanding of peripheral tolerance will ultimately enable the development of more targeted and refined cancer immunotherapy approaches.

Published
2020
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15. Differential effects of BTK inhibitors ibrutinib and zanubrutinib on NK-cell effector function in patients with mantle cell lymphoma

Author

Thijs W.H. Flinsenberg, Charnelle C. Tromedjo, Nan Hu, Ye Liu, Yin Guo, Kevin Y.T. Thia, Tahereh Noori, Xiaomin Song, Han X. Aw Yeang, Daniela G. Tantalo, Sasanka Handunnetti, John F. Seymour, Andrew W. Roberts, David Ritchie, Rachel Koldej, Paul J. Neeson, Lai Wang, Joseph A. Trapani, Constantine S. Tam, and Ilia Voskoboinik

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Published
2020
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16. Therapeutic strategies to remodel immunologically cold tumors

Author

Minyu Wang, Sen Wang, Jayesh Desai, Joseph A Trapani, and Paul J Neeson

Subjects
immune checkpoint inhibitor, tumor microenvironment, immune surveillance and resistance, cold tumor, therapeutic strategy, cancer immunotherapy, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Immune checkpoint inhibitors (ICIs) induce a durable response in a wide range of tumor types, but only a minority of patients outside these ‘responsive’ tumor types respond, with some totally resistant. The primary predictor of intrinsic immune resistance to ICIs is the complete or near‐complete absence of lymphocytes from the tumor, so‐called immunologically cold tumors. Here, we propose two broad approaches to convert ‘cold’ tumors into ‘hot’ tumors. The first is to induce immunogenic tumor cell death, through the use of oncolytic viruses or bacteria, conventional cancer therapies (e.g. chemotherapy or radiation therapy) or small molecule drugs. The second approach is to target the tumor microenvironment, and covers diverse options such as depleting immune suppressive cells; inhibiting transforming growth factor‐beta; remodelling the tumor vasculature or hypoxic environment; strengthening the infiltration and activation of antigen‐presenting cells and/or effector T cells in the tumor microenvironment with immune modulators; and enhancing immunogenicity through personalised cancer vaccines. Strategies that successfully modify cold tumors to overcome their resistance to ICIs represent mechanistically driven approaches that will ultimately result in rational combination therapies to extend the clinical benefits of immunotherapy to a broader cancer cohort.

Published
2020
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17. Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells

Author

Jack D Chan, Bianca vonScheidt, Bijun Zeng, Amanda J Oliver, Ashleigh S Davey, Aesha I Ali, Ranjeny Thomas, Joseph A Trapani, Phillip K Darcy, Michael H Kershaw, Riccardo Dolcetti, and Clare Y Slaney

Subjects
CAR T cells, Clec9A, cross‐presentation, dendritic cells, nanoemulsion, vaccine, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Objectives Adoptive transfer of chimeric antigen receptor (CAR)‐modified T cells is a form of cancer immunotherapy that has achieved remarkable efficacy in patients with some haematological cancers. However, challenges remain in CAR T‐cell treatment of solid tumours because of tumour‐mediated immunosuppression. Methods We have demonstrated that CAR T‐cell stimulation through T‐cell receptors (TCRs) in vivo can generate durable responses against solid tumours in a variety of murine models. Since Clec9A‐targeting tailored nanoemulsion (Clec9A‐TNE) vaccine enhances antitumour immune responses through selective activation of Clec9A+ cross‐presenting dendritic cells (DCs), we hypothesised that Clec9A‐TNE could prime DCs for antigen presentation to CAR T cells through TCRs and thus improve CAR T‐cell responses against solid tumours. To test this hypothesis, we used CAR T cells expressing transgenic TCRs specific for ovalbumin (OVA) peptides SIINFEKL (CAROTI) or OVA323‐339 (CAROTII). Results We demonstrated that the Clec9A‐TNEs encapsulating full‐length recombinant OVA protein (OVA‐Clec9A‐TNE) improved CAROT T‐cell proliferation and inflammatory cytokine secretion in vitro. Combined treatment using the OVA‐Clec9A‐TNE and CAROT cells resulted in durable responses and some rejections of tumours in immunocompetent mice. Tumour regression was accompanied by enhanced CAROT cell proliferation and infiltration into the tumours. Conclusion Our study presents Clec9A‐TNE as a prospective avenue to enhance CAR T‐cell efficacy for solid cancers.

Published
2020
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18. Enhancing the Potential of Immunotherapy in Paediatric Sarcomas: Breaking the Immunosuppressive Barrier with Receptor Tyrosine Kinase Inhibitors

Author

Emmy D. G. Fleuren, Rachael L. Terry, Deborah Meyran, Natacha Omer, Joseph A. Trapani, Michelle Haber, Paul J. Neeson, and Paul G. Ekert

Subjects
paediatric and AYA sarcoma, immunotherapy, immune checkpoint inhibitors, receptor tyrosine kinase inhibitors, Biology (General), QH301-705.5
Abstract

Despite aggressive surgery, chemotherapy, and radiotherapy, survival of children and adolescents and young adults (AYAs) with sarcoma has not improved significantly in the past four decades. Immune checkpoint inhibitors (ICIs) are an exciting type of immunotherapy that offer new opportunities for the treatment of paediatric and AYA sarcomas. However, to date, most children do not derive a benefit from this type of treatment as a monotherapy. The immunosuppressive tumour microenvironment is a major barrier limiting their efficacy. Combinations of ICIs, such as anti-PD-1 therapy, with targeted molecular therapies that have immunomodulatory properties may be the key to breaking through immunosuppressive barriers and improving patient outcomes. Preclinical studies have indicated that several receptor tyrosine kinase inhibitors (RTKi) can alter the tumour microenvironment and boost the efficacy of anti-PD-1 therapy. A number of these combinations have entered phase-1/2 clinical trials, mostly in adults, and in most instances have shown efficacy with manageable side-effects. In this review, we discuss the status of ICI therapy in paediatric and AYA sarcomas and the rationale for co-treatment with RTKis. We highlight new opportunities for the integration of ICI therapy with RTK inhibitors, to improve outcomes for children with sarcoma.

Published
2021
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19. Agonist immunotherapy restores T cell function following MEK inhibition improving efficacy in breast cancer

Author

Sathana Dushyanthen, Zhi Ling Teo, Franco Caramia, Peter Savas, Christopher P. Mintoff, Balaji Virassamy, Melissa A. Henderson, Stephen J. Luen, Mariam Mansour, Michael H. Kershaw, Joseph A. Trapani, Paul J. Neeson, Roberto Salgado, Grant A. McArthur, Justin M. Balko, Paul A. Beavis, Phillip K. Darcy, and Sherene Loi

Subjects
Science
Abstract

MEK inhibition in breast cancer is associated with increased tumour infiltrating lymphocytes (TILs), however, MAPK activity is required for T cells function. Here the authors show that TILs activity following MEK inhibition can be enhanced by agonist immunotherapy resulting in synergic therapeutic effects.

Published
2017
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20. T STEM -like CAR-T cells exhibit improved persistence and tumor control compared with conventional CAR-T cells in preclinical models

Author

Deborah Meyran, Joe Jiang Zhu, Jeanne Butler, Daniela Tantalo, Sean MacDonald, Thu Ngoc Nguyen, Minyu Wang, Niko Thio, Criselle D’Souza, Vicky Mengfei Qin, Clare Slaney, Aaron Harrison, Kevin Sek, Pasquale Petrone, Kevin Thia, Lauren Giuffrida, Andrew M. Scott, Rachael L. Terry, Ben Tran, Jayesh Desai, H. Miles Prince, Simon J. Harrison, Paul A. Beavis, Michael H. Kershaw, Ben Solomon, Paul G. Ekert, Joseph A. Trapani, Phillip K. Darcy, and Paul J. Neeson

Subjects
General Medicine
Abstract

Patients who receive chimeric antigen receptor (CAR)–T cells that are enriched in memory T cells exhibit better disease control as a result of increased expansion and persistence of the CAR-T cells. Human memory T cells include stem-like CD8 + memory T cell progenitors that can become either functional stem-like T (T STEM ) cells or dysfunctional T progenitor exhausted (T PEX ) cells. To that end, we demonstrated that T STEM cells were less abundant in infused CAR-T cell products in a phase 1 clinical trial testing Lewis Y-CAR-T cells (NCT03851146), and the infused CAR-T cells displayed poor persistence in patients. To address this issue, we developed a production protocol to generate T STEM -like CAR-T cells enriched for expression of genes in cell replication pathways. Compared with conventional CAR-T cells, T STEM -like CAR-T cells had enhanced proliferative capacity and increased cytokine secretion after CAR stimulation, including after chronic CAR stimulation in vitro. These responses were dependent on the presence of CD4 + T cells during T STEM -like CAR-T cell production. Adoptive transfer of T STEM -like CAR-T cells induced better control of established tumors and resistance to tumor rechallenge in preclinical models. These more favorable outcomes were associated with increased persistence of T STEM -like CAR-T cells and an increased memory T cell pool. Last, T STEM -like CAR-T cells and anti–programmed cell death protein 1 (PD-1) treatment eradicated established tumors, and this was associated with increased tumor-infiltrating CD8 + CAR + T cells producing interferon-γ. In conclusion, our CAR-T cell protocol generated T STEM -like CAR-T cells with enhanced therapeutic efficacy, resulting in increased proliferative capacity and persistence in vivo.

Published
2023
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21. Supplementary Video Legends and Figures from BET Inhibition Enhances TNF-Mediated Antitumor Immunity

Author

Ricky W. Johnstone, Daniel Rohle, Astrid Ruefli-Brasse, Jake Shortt, Jane Oliaro, Joseph A. Trapani, Stephin J. Vervoort, Conor J. Kearney, Leonie A. Cluse, Axel Paehler, Phillip Thienger, Laura Jarassier, Daniel Marbach, Tanja Fauti, Marina Bacac, Kelly M. Ramsbottom, Jessica Michie, Daniela Geiss, Thomas Friess, Dane M. Newman, Simon J. Hogg, and Lisa C. Wellinger

Abstract

Supplementary Video Legends and Supplementary Figures 1-10

Published
2023
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22. Supplementary Figure S1 from ASC Modulates CTL Cytotoxicity and Transplant Outcome Independent of the Inflammasome

Author

Geoffrey R. Hill, Motoko Koyama, Mariapia A. Degli-Esposti, Joseph A. Trapani, Kelli P.A. MacDonald, Christian R. Engwerda, Mark J. Smyth, Glen M. Boyle, Kate A. Markey, Slavica Vuckovic, Antiopi Varelias, Greg Kelly, Vivien R. Sutton, Karshing Chang, Jose Paulo Martins, Christopher E. Andoniou, Rachel D. Kuns, Ping Zhang, Siok-Keen Tey, Jason S. Lee, Kate H. Gartlan, and Melody Cheong

Abstract

Supplementary Figure S1: GVHD survival of lethally-irradiated (day 0, 1000cGy split dose) B6.WT, B6.ASC-/- or B6.NLRP3-/- recipients transplanted with BALB/c BM (5x106) and T cells (5x106). The non-GVHD control group received TCD BM cells (5x106) only. Results combined from 2 independent experiments (n = 20 per T cell-replete group, n = 8 for TCD BM group). ****P < 0.0001; B6.NLRP3-/- vs. B6.WT. Results are presented as means {plus minus} SEM.

Published
2023
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23. Video 3 from BET Inhibition Enhances TNF-Mediated Antitumor Immunity

Author

Ricky W. Johnstone, Daniel Rohle, Astrid Ruefli-Brasse, Jake Shortt, Jane Oliaro, Joseph A. Trapani, Stephin J. Vervoort, Conor J. Kearney, Leonie A. Cluse, Axel Paehler, Phillip Thienger, Laura Jarassier, Daniel Marbach, Tanja Fauti, Marina Bacac, Kelly M. Ramsbottom, Jessica Michie, Daniela Geiss, Thomas Friess, Dane M. Newman, Simon J. Hogg, and Lisa C. Wellinger

Abstract

Supp Video 3

Published
2023
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24. Data from ASC Modulates CTL Cytotoxicity and Transplant Outcome Independent of the Inflammasome

Author

Geoffrey R. Hill, Motoko Koyama, Mariapia A. Degli-Esposti, Joseph A. Trapani, Kelli P.A. MacDonald, Christian R. Engwerda, Mark J. Smyth, Glen M. Boyle, Kate A. Markey, Slavica Vuckovic, Antiopi Varelias, Greg Kelly, Vivien R. Sutton, Karshing Chang, Jose Paulo Martins, Christopher E. Andoniou, Rachel D. Kuns, Ping Zhang, Siok-Keen Tey, Jason S. Lee, Kate H. Gartlan, and Melody Cheong

Abstract

The adaptor protein ASC (apoptosis-associated speck-like protein containing a CARD) is known to facilitate caspase-1 activation, which is essential for innate host immunity via the formation of the inflammasome complex, a multiprotein structure responsible for processing IL1β and IL18 into their active moieties. Here, we demonstrated that ASC-deficient CD8+ T cells failed to induce severe graft-versus-host disease (GVHD) and had impaired capacity for graft rejection and graft-versus-leukemia (GVL) activity. These effects were inflammasome independent because GVHD lethality was not altered in recipients of caspase-1/11–deficient T cells. We also demonstrated that ASC deficiency resulted in a decrease in cytolytic function, with a reduction in granzyme B secretion and CD107a expression by CD8+ T cells. Altogether, our findings highlight that ASC represents an attractive therapeutic target for improving outcomes of clinical transplantation.

Published
2023
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25. Video 4 from BET Inhibition Enhances TNF-Mediated Antitumor Immunity

Author

Ricky W. Johnstone, Daniel Rohle, Astrid Ruefli-Brasse, Jake Shortt, Jane Oliaro, Joseph A. Trapani, Stephin J. Vervoort, Conor J. Kearney, Leonie A. Cluse, Axel Paehler, Phillip Thienger, Laura Jarassier, Daniel Marbach, Tanja Fauti, Marina Bacac, Kelly M. Ramsbottom, Jessica Michie, Daniela Geiss, Thomas Friess, Dane M. Newman, Simon J. Hogg, and Lisa C. Wellinger

Abstract

Supp Video 4

Published
2023
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26. Supplementary Table S1 from BET Inhibition Enhances TNF-Mediated Antitumor Immunity

Author

Ricky W. Johnstone, Daniel Rohle, Astrid Ruefli-Brasse, Jake Shortt, Jane Oliaro, Joseph A. Trapani, Stephin J. Vervoort, Conor J. Kearney, Leonie A. Cluse, Axel Paehler, Phillip Thienger, Laura Jarassier, Daniel Marbach, Tanja Fauti, Marina Bacac, Kelly M. Ramsbottom, Jessica Michie, Daniela Geiss, Thomas Friess, Dane M. Newman, Simon J. Hogg, and Lisa C. Wellinger

Abstract

Cell lines used in this study.

Published
2023
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27. Video 2 from BET Inhibition Enhances TNF-Mediated Antitumor Immunity

Author

Ricky W. Johnstone, Daniel Rohle, Astrid Ruefli-Brasse, Jake Shortt, Jane Oliaro, Joseph A. Trapani, Stephin J. Vervoort, Conor J. Kearney, Leonie A. Cluse, Axel Paehler, Phillip Thienger, Laura Jarassier, Daniel Marbach, Tanja Fauti, Marina Bacac, Kelly M. Ramsbottom, Jessica Michie, Daniela Geiss, Thomas Friess, Dane M. Newman, Simon J. Hogg, and Lisa C. Wellinger

Abstract

Supp Video 2

Published
2023
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29. Figure S2 from Dual PD-1 and CTLA-4 Checkpoint Blockade Promotes Antitumor Immune Responses through CD4+Foxp3− Cell–Mediated Modulation of CD103+ Dendritic Cells

Author

Phillip K. Darcy, Nicole M. Haynes, Michael H. Kershaw, Sherene Loi, Joseph A. Trapani, Clare Y. Slaney, Sherly Mardiana, Liza B. John, Nicole Milenkovski, Kevin Sek, Junyun Lai, Imran G. House, Emma V. Petley, Alexander J. Davenport, Lauren Giuffrida, Melissa A. Henderson, and Paul A. Beavis

Abstract

Supplementary Figure 2

Published
2023
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35. Supplementary Figure 5 from Dual-specific Chimeric Antigen Receptor T Cells and an Indirect Vaccine Eradicate a Variety of Large Solid Tumors in an Immunocompetent, Self-antigen Setting

Author

Michael H. Kershaw, Phillip K. Darcy, Paul Neeson, Nicholas P. Restifo, Steven A. Rosenberg, Zhiya Yu, Aesha Ali, Michele W. Teng, Mark J. Smyth, Ricky W. Johnstone, Joseph A. Trapani, H. Miles Prince, Sarah Ellis, David C. Tscharke, Sherly Mardiana, Jennifer A. Westwood, Paul A. Beavis, Alexander J. Davenport, Bianca von Scheidt, and Clare Y. Slaney

Abstract

CARaMEL T cells persist in long term surviving mice.

Published
2023
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36. Data from Intratumoral Copper Modulates PD-L1 Expression and Influences Tumor Immune Evasion

Author

Orazio Vittorio, Maria Kavallaris, Joseph A. Trapani, Michelle Haber, Paul A. Beavis, Chelsea Mayoh, Giuseppe Cirillo, Aria Ahmed-Cox, Jayne E. Murray, Sylvie Shen, Jourdin R.C. Rouaen, Daniele Mercatelli, Federico M. Giorgi, Federica Saletta, Kathleen Kimpton, Luigi Lerra, Emanuele Valli, and Florida Voli

Abstract

Therapeutic checkpoint antibodies blocking programmed death receptor 1/programmed death ligand 1 (PD-L1) signaling have radically improved clinical outcomes in cancer. However, the regulation of PD-L1 expression on tumor cells is still poorly understood. Here we show that intratumoral copper levels influence PD-L1 expression in cancer cells. Deep analysis of the The Cancer Genome Atlas database and tissue microarrays showed strong correlation between the major copper influx transporter copper transporter 1 (CTR-1) and PD-L1 expression across many cancers but not in corresponding normal tissues. Copper supplementation enhanced PD-L1 expression at mRNA and protein levels in cancer cells and RNA sequencing revealed that copper regulates key signaling pathways mediating PD-L1–driven cancer immune evasion. Conversely, copper chelators inhibited phosphorylation of STAT3 and EGFR and promoted ubiquitin-mediated degradation of PD-L1. Copper-chelating drugs also significantly increased the number of tumor-infiltrating CD8+ T and natural killer cells, slowed tumor growth, and improved mouse survival. Overall, this study reveals an important role for copper in regulating PD-L1 and suggests that anticancer immunotherapy might be enhanced by pharmacologically reducing intratumor copper levels.Significance:These findings characterize the role of copper in modulating PD-L1 expression and contributing to cancer immune evasion, highlighting the potential for repurposing copper chelators as enhancers of antitumor immunity.

Published
2023
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37. Supplementary Information from HDAC Inhibitor Panobinostat Engages Host Innate Immune Defenses to Promote the Tumoricidal Effects of Trastuzumab in HER2+ Tumors

Author

Nicole M. Haynes, Ricky W. Johnstone, Michael A. Henderson, Peter W. Atadja, Phillip K. Darcy, Mark J. Smyth, Joseph A. Trapani, Kelly M. Ramsbottom, Misty R. Jenkins, Jason Li, Stephin J Vervoort, Eva Vidacs, and Mikolaj Medon

Abstract

Supplemental Figure Legend, Supplementary Figure 1 Flow cytometric analysis of HER2 expression on AU565pv and BT474 tumor cells; Supplementary Figure 2 Co-treatment with panobinostat and trastuzumab does not alter splenic NK cell activation/maturation status or frequency in AU565pv tumor-bearing SCID mice; Supplementary Figure 3 Panobinostat-mediated enrichment of interferon-gamma response and chemokine associated gene signatures; Supplementary Figure 4 SCID mice bearing AU565pv tumors were treated with PBS/DMSO (Vehicle), DMSO/trastuzumab (10 mg/kg), PBS/panobinostat (15 mg/kg) or panobinostat and trastuzumab (combination); Supplementary Figure 5 Panobinostat treatment modulates expression of both the activation receptor CD69 and Fc-receptors CD16/32 on IL-2 activated mouse and human NK cells; Supplementary Figure 6 Co-treatment of panobinostat and trastuzumab attenuates HER2 expression in BT474 and BT474-MyrAKT tumor cells; Supplementary Figure 7 Panobinostat is more effective than doxorubicin at supporting the curative activity of anti-HER2 therapy in Her2/neu transgenic mice bearing established rHER2+ H2N113 mammary tumors; Supplementary Figure 8 Rejection of Bcl-2 over-expressing AU565pv tumors in SCID mice treated with the combination therapy.

Published
2023
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38. Figure S5 from Intratumoral Copper Modulates PD-L1 Expression and Influences Tumor Immune Evasion

Author

Orazio Vittorio, Maria Kavallaris, Joseph A. Trapani, Michelle Haber, Paul A. Beavis, Chelsea Mayoh, Giuseppe Cirillo, Aria Ahmed-Cox, Jayne E. Murray, Sylvie Shen, Jourdin R.C. Rouaen, Daniele Mercatelli, Federico M. Giorgi, Federica Saletta, Kathleen Kimpton, Luigi Lerra, Emanuele Valli, and Florida Voli

Abstract

DC increases tumor-infiltrating immune cells in Th-MYCN mice

Published
2023
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39. Supplementary Figure 3 from Dual-specific Chimeric Antigen Receptor T Cells and an Indirect Vaccine Eradicate a Variety of Large Solid Tumors in an Immunocompetent, Self-antigen Setting

Author

Michael H. Kershaw, Phillip K. Darcy, Paul Neeson, Nicholas P. Restifo, Steven A. Rosenberg, Zhiya Yu, Aesha Ali, Michele W. Teng, Mark J. Smyth, Ricky W. Johnstone, Joseph A. Trapani, H. Miles Prince, Sarah Ellis, David C. Tscharke, Sherly Mardiana, Jennifer A. Westwood, Paul A. Beavis, Alexander J. Davenport, Bianca von Scheidt, and Clare Y. Slaney

Abstract

CAR T cells lacking the pMEL TCR are less effective than CARaMEL T cells at inhibiting tumor growth.

Published
2023
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40. Supplementary Figure 1 from Dual-specific Chimeric Antigen Receptor T Cells and an Indirect Vaccine Eradicate a Variety of Large Solid Tumors in an Immunocompetent, Self-antigen Setting

Author

Michael H. Kershaw, Phillip K. Darcy, Paul Neeson, Nicholas P. Restifo, Steven A. Rosenberg, Zhiya Yu, Aesha Ali, Michele W. Teng, Mark J. Smyth, Ricky W. Johnstone, Joseph A. Trapani, H. Miles Prince, Sarah Ellis, David C. Tscharke, Sherly Mardiana, Jennifer A. Westwood, Paul A. Beavis, Alexander J. Davenport, Bianca von Scheidt, and Clare Y. Slaney

Abstract

Dual-specific T cells respond against both gp100 and Her2.

Published
2023
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41. Supplementary Figures 1 through 8 from A Multifunctional Role for Adjuvant Anti-4-1BB Therapy in Augmenting Antitumor Response by Chimeric Antigen Receptor T Cells

Author

Phillip K. Darcy, Paul A. Beavis, Michael H. Kershaw, Nicole M. Haynes, Sherene Loi, Paul J. Neeson, Joseph A. Trapani, Alexander J. Davenport, Lauren Giuffrida, Bianca von Scheidt, Clare Y. Slaney, Melissa A. Henderson, Liza B. John, and Sherly Mardiana

Abstract

Supplementary Figure S1. Expression of activation and memory markers on transduced mouse T cells. Supplementary Figure S2. CAR T cell cytotoxic responses are not modulated by anti-4-1BB mAb therapy. Supplementary Figure S3. Her2 expression level on the mouse breast cancer cell line e0771-Her2 is comparable to the Her2-overexpressing human breast cancer cell line SKBR3. Supplementary Figure S4. Tumor weight is significantly reduced following CAR T cell and alpha-4-1BB therapy. Supplementary Figure S5. Anti-4-1BB therapy does not modulate the frequency of transferred or endogenous CD8+ tumor-infiltrating T cells. Supplementary Figure S6. Anti-4-1BB therapy modulates the frequency of mature dendritic cells in tumors and draining lymph nodes. Supplementary Figure S7. Anti-4-1BB does not modulate the frequency of MDSCs and DCs in RAG -/- mice. Supplementary Figure S8. Anti-4-1BB therapy drives maturation of NK cells.

Published
2023
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42. Data from A Multifunctional Role for Adjuvant Anti-4-1BB Therapy in Augmenting Antitumor Response by Chimeric Antigen Receptor T Cells

Author

Phillip K. Darcy, Paul A. Beavis, Michael H. Kershaw, Nicole M. Haynes, Sherene Loi, Paul J. Neeson, Joseph A. Trapani, Alexander J. Davenport, Lauren Giuffrida, Bianca von Scheidt, Clare Y. Slaney, Melissa A. Henderson, Liza B. John, and Sherly Mardiana

Abstract

Adoptive immunotherapy utilizing chimeric antigen receptor (CAR) T cells has demonstrated high success rates in hematologic cancers, but results against solid malignancies have been limited to date, due in part to the immunosuppressive tumor microenvironment. Activation of the 4-1BB (CD137) pathway using an agonistic α-4-1BB antibody is known to provide strong costimulatory signals for augmenting and diversifying T-cell responses. We therefore hypothesized that a combination of α-4-1BB and CAR T-cell therapy would result in improved antitumor responses. Using a human-Her2 self-antigen mouse model, we report here that α-4-1BB significantly enhanced CAR T-cell efficacy directed against the Her2 antigen in two different established solid tumor settings. Treatment also increased the expression of IFNγ and the proliferation marker Ki67 in tumor-infiltrating CAR T cells when combined with α-4-1BB. Strikingly, α-4-1BB significantly reduced host immunosuppressive cells at the tumor site, including regulatory T cells and myeloid-derived suppressor cells, correlating with an increased therapeutic response. We conclude that α-4-1BB has a multifunctional role for enhancing CAR T-cell responses and that this combination therapy has high translational potential, given current phase I/II clinical trials with α-4-1BB against various types of cancer. Cancer Res; 77(6); 1296–309. ©2017 AACR.

Published
2023
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43. Data from Dual-specific Chimeric Antigen Receptor T Cells and an Indirect Vaccine Eradicate a Variety of Large Solid Tumors in an Immunocompetent, Self-antigen Setting

Author

Michael H. Kershaw, Phillip K. Darcy, Paul Neeson, Nicholas P. Restifo, Steven A. Rosenberg, Zhiya Yu, Aesha Ali, Michele W. Teng, Mark J. Smyth, Ricky W. Johnstone, Joseph A. Trapani, H. Miles Prince, Sarah Ellis, David C. Tscharke, Sherly Mardiana, Jennifer A. Westwood, Paul A. Beavis, Alexander J. Davenport, Bianca von Scheidt, and Clare Y. Slaney

Abstract

Purpose: While adoptive transfer of T cells bearing a chimeric antigen receptor (CAR) can eliminate substantial burdens of some leukemias, the ultimate challenge remains the eradication of large solid tumors for most cancers. We aimed to develop an immunotherapy approach effective against large tumors in an immunocompetent, self-antigen preclinical mouse model.Experimental Design: In this study, we generated dual-specific T cells expressing both a CAR specific for Her2 and a TCR specific for the melanocyte protein (gp100). We used a regimen of adoptive cell transfer incorporating vaccination (ACTIV), with recombinant vaccinia virus expressing gp100, to treat a range of tumors including orthotopic breast tumors and large liver tumors.Results: ACTIV therapy induced durable complete remission of a variety of Her2+ tumors, some in excess of 150 mm2, in immunocompetent mice expressing Her2 in normal tissues, including the breast and brain. Vaccinia virus induced extensive proliferation of T cells, leading to massive infiltration of T cells into tumors. Durable tumor responses required the chemokine receptor CXCR3 and exogenous IL2, but were independent of IFNγ. Mice were resistant to tumor rechallenge, indicating immune memory involving epitope spreading. Evidence of limited neurologic toxicity was observed, associated with infiltration of cerebellum by T cells, but was only transient.Conclusions: This study supports a view that it is possible to design a highly effective combination immunotherapy for solid cancers, with acceptable transient toxicity, even when the target antigen is also expressed in vital tissues. Clin Cancer Res; 23(10); 2478–90. ©2016 AACR.

Published
2023
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44. Supplementary Figure 4 from Dual-specific Chimeric Antigen Receptor T Cells and an Indirect Vaccine Eradicate a Variety of Large Solid Tumors in an Immunocompetent, Self-antigen Setting

Author

Michael H. Kershaw, Phillip K. Darcy, Paul Neeson, Nicholas P. Restifo, Steven A. Rosenberg, Zhiya Yu, Aesha Ali, Michele W. Teng, Mark J. Smyth, Ricky W. Johnstone, Joseph A. Trapani, H. Miles Prince, Sarah Ellis, David C. Tscharke, Sherly Mardiana, Jennifer A. Westwood, Paul A. Beavis, Alexander J. Davenport, Bianca von Scheidt, and Clare Y. Slaney

Abstract

ACTIV therapy induces cytokine secretion and apoptosis of tumor cells.

Published
2023
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47. Data from Sustained Antigen-Specific Antitumor Recall Response Mediated by Gene-Modified CD4+ T Helper-1 and CD8+ T Cells

Author

Phillip K. Darcy, Mark J. Smyth, Joseph A. Trapani, Jennifer A. Westwood, Rachel Cameron, Michael H. Kershaw, and Maria Moeller

Abstract

Given that specific subsets of T helper 1 (Th1) and T helper 2 (Th2) CD4+ T cells have been shown to play key roles in tumor rejection models, we wanted to assess the contribution of either Th1 or Th2 CD4+ cell subtypes for redirected T-cell immunotherapy. In this study, we have developed a novel method involving retroviral transduction and in vitro T-cell polarization to generate gene-engineered mouse CD4+ Th1 and Th2 cells or T helper intermediate (Thi) cells expressing an anti–erbB2-CD28-ζ chimeric receptor. Gene-modified Th1 and Th2 polarized CD4+ cells were characterized by the preferential secretion of IFN-γ and interleukin-4, respectively, whereas Thi cells secreted both cytokines following receptor ligation. In adoptive transfer studies using an erbB2+ lung metastasis model, complete survival of mice was observed when transduced Th1, Th2, or Thi CD4+ cells were transferred in combination with an equivalent number of transduced CD8+ T cells. Tumor rejection was consistently associated with transduced T cells at the tumor site and interleukin-2 secretion. However, the surviving mice treated with gene-modified Th1 CD4+ cells were significantly more resistant to a subsequent challenge with a different erbB2+ tumor (4T1.2) implanted s.c. This result correlated with both increased expansion of Th1 CD4+ and CD8+ T cells in the blood and a greater number of these cells localizing to the tumor site following rechallenge. These data support the use of gene-modified CD4+ Th1 and CD8+ T cells for mediating a sustained antitumor response. [Cancer Res 2007;67(23):11428–37]

Published
2023
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