Sir Peter MacCallum Department of Oncology - Research Publications

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Author: Beavis, Paul × Author: Darcy, Phillip × End date: 2021 × Start date: 2020 ×

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    IL-15 Preconditioning Augments CAR T Cell Responses to Checkpoint Blockade for Improved Treatment of Solid Tumors
    Giuffrida, L ; Sek, K ; Henderson, MA ; House, IG ; Lai, J ; Chen, AXY ; Todd, KL ; Petley, E ; Mardiana, S ; Todorovski, I ; Gruber, E ; Kelly, MJ ; Solomon, BJ ; Vervoort, SJ ; Johnstone, RW ; Parish, IA ; Neeson, PJ ; Kats, LM ; Darcy, PK ; Beavis, PA (CELL PRESS, 2020-11-04)
    Chimeric antigen receptor (CAR) T cell therapy has been highly successful in hematological malignancies leading to their US Food and Drug Administration (FDA) approval. However, the efficacy of CAR T cells in solid tumors is limited by tumor-induced immunosuppression, leading to the development of combination approaches, such as adjuvant programmed cell death 1 (PD-1) blockade. Current FDA-approved methods for generating CAR T cells utilize either anti-CD3 and interleukin (IL)-2 or anti-CD3/CD28 beads, which can generate a T cell product with an effector/exhausted phenotype. Whereas different cytokine preconditioning milieu, such as IL-7/IL-15, have been shown to promote T cell engraftment, the impact of this approach on CAR T cell responses to adjuvant immune-checkpoint blockade has not been assessed. In the current study, we reveal that the preconditioning of CAR T cells with IL-7/IL-15 increased CAR T cell responses to anti-PD-1 adjuvant therapy. This was associated with the emergence of an intratumoral CD8+CD62L+TCF7+IRF4- population that was highly responsive to anti-PD-1 therapy and mediated the vast majority of transcriptional and epigenetic changes in vivo following PD-1 blockade. Our data indicate that preservation of CAR T cells in a TCF7+ phenotype is crucial for their responsiveness to adjuvant immunotherapy approaches and should be a key consideration when designing clinical protocols.
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    A New Safety Approach Allowing Reversible Control of CAR T Cell Responses
    Chen, AXY ; House, IG ; Beavis, PA ; Darcy, PK (CELL PRESS, 2020-07-08)
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    MAIT cells regulate NK cell-mediated tumor immunity
    Petley, E ; Koay, H-F ; Henderson, MA ; Sek, K ; Todd, KL ; Keam, SP ; Lai, J ; House, IG ; Li, J ; Zethoven, M ; Chen, AXY ; Oliver, AJ ; Michie, J ; Freeman, AJ ; Giuffrida, L ; Chan, JD ; Pizzolla, A ; Mak, JYW ; McCulloch, TR ; Souza-Fonseca-Guimaraes, F ; Kearney, CJ ; Millen, R ; Ramsay, RG ; Huntington, ND ; McCluskey, J ; Oliaro, J ; Fairlie, DP ; Neeson, PJ ; Godfrey, D ; Beavis, PA ; Darcy, PK (NATURE PORTFOLIO, 2021-08-06)
    The function of MR1-restricted mucosal-associated invariant T (MAIT) cells in tumor immunity is unclear. Here we show that MAIT cell-deficient mice have enhanced NK cell-dependent control of metastatic B16F10 tumor growth relative to control mice. Analyses of this interplay in human tumor samples reveal that high expression of a MAIT cell gene signature negatively impacts the prognostic significance of NK cells. Paradoxically, pre-pulsing tumors with MAIT cell antigens, or activating MAIT cells in vivo, enhances anti-tumor immunity in B16F10 and E0771 mouse tumor models, including in the context of established metastasis. These effects are associated with enhanced NK cell responses and increased expression of both IFN-γ-dependent and inflammatory genes in NK cells. Importantly, activated human MAIT cells also promote the function of NK cells isolated from patient tumor samples. Our results thus describe an activation-dependent, MAIT cell-mediated regulation of NK cells, and suggest a potential therapeutic avenue for cancer treatment.
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    Myeloma natural killer cells are exhausted and have impaired regulation of activation
    D'Souza, C ; Keam, SP ; Yeang, HXA ; Neeson, M ; Richardson, K ; Hsu, AK ; Canfield, R ; Bezman, N ; Robbins, M ; Quach, H ; Ritchie, DS ; Harrison, SJ ; Trapani, JA ; Prince, HM ; Beavis, PA ; Darcy, PK ; Neeson, PJ (FERRATA STORTI FOUNDATION, 2021-09)
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    CRISPR/Cas9 mediated deletion of the adenosine A2A receptor enhances CAR T cell efficacy
    Giuffrida, L ; Sek, K ; Henderson, MA ; Lai, J ; Chen, AXY ; Meyran, D ; Todd, KL ; Petley, E ; Mardiana, S ; Molck, C ; Stewart, GD ; Solomon, BJ ; Parish, IA ; Neeson, PJ ; Harrison, SJ ; Kats, LM ; House, IG ; Darcy, PK ; Beavis, PA (NATURE PORTFOLIO, 2021-05-28)
    Adenosine is an immunosuppressive factor that limits anti-tumor immunity through the suppression of multiple immune subsets including T cells via activation of the adenosine A2A receptor (A2AR). Using both murine and human chimeric antigen receptor (CAR) T cells, here we show that targeting A2AR with a clinically relevant CRISPR/Cas9 strategy significantly enhances their in vivo efficacy, leading to improved survival of mice. Effects evoked by CRISPR/Cas9 mediated gene deletion of A2AR are superior to shRNA mediated knockdown or pharmacological blockade of A2AR. Mechanistically, human A2AR-edited CAR T cells are significantly resistant to adenosine-mediated transcriptional changes, resulting in enhanced production of cytokines including IFNγ and TNF, and increased expression of JAK-STAT signaling pathway associated genes. A2AR deficient CAR T cells are well tolerated and do not induce overt pathologies in mice, supporting the use of CRISPR/Cas9 to target A2AR for the improvement of CAR T cell function in the clinic.
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    PTPN2 phosphatase deletion in T cells promotes anti-tumour immunity and CAR T-cell efficacy in solid tumours
    Wiede, F ; Lu, K-H ; Du, X ; Liang, S ; Hochheiser, K ; Dodd, GT ; Goh, PK ; Kearney, C ; Meyran, D ; Beavis, PA ; Henderson, MA ; Park, SL ; Waithman, J ; Zhang, S ; Zhang, Z-Y ; Oliaro, J ; Gebhardt, T ; Darcy, PK ; Tiganis, T (WILEY, 2020-01-15)
    Although adoptive T-cell therapy has shown remarkable clinical efficacy in haematological malignancies, its success in combating solid tumours has been limited. Here, we report that PTPN2 deletion in T cells enhances cancer immunosurveillance and the efficacy of adoptively transferred tumour-specific T cells. T-cell-specific PTPN2 deficiency prevented tumours forming in aged mice heterozygous for the tumour suppressor p53. Adoptive transfer of PTPN2-deficient CD8+ T cells markedly repressed tumour formation in mice bearing mammary tumours. Moreover, PTPN2 deletion in T cells expressing a chimeric antigen receptor (CAR) specific for the oncoprotein HER-2 increased the activation of the Src family kinase LCK and cytokine-induced STAT-5 signalling, thereby enhancing both CAR T-cell activation and homing to CXCL9/10-expressing tumours to eradicate HER-2+ mammary tumours in vivo. Our findings define PTPN2 as a target for bolstering T-cell-mediated anti-tumour immunity and CAR T-cell therapy against solid tumours.