Author
Listed:
- Kevin Sek
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Amanda X. Y. Chen
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Thomas Cole
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Jesse D. Armitage
(University of Western Australia
Telethon Kids Institute)
- Junming Tong
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Kah Min Yap
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Isabelle Munoz
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Phoebe A. Dunbar
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Shiyi Wu
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Marit J. van Elsas
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Olivia Hidajat
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Christina Scheffler
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Lauren Giuffrida
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Melissa A. Henderson
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Deborah Meyran
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Fernando Souza-Fonseca-Guimaraes
(The University of Queensland)
- Dat Nguyen
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Yu-Kuan Huang
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Maria N. de Menezes
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Emily B. Derrick
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Cheok Weng Chan
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Kirsten L. Todd
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Jack D. Chan
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Jasmine Li
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Junyun Lai
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Emma V. Petley
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Sherly Mardiana
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Anthony Bosco
(The University of Arizona)
- Jason Waithman
(University of Western Australia
Telethon Kids Institute)
- Ian A. Parish
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Christina Mølck
(The University of Melbourne)
- Gregory D. Stewart
(Monash University)
- Lev Kats
(The University of Melbourne)
- Imran G. House
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Phillip K. Darcy
(Peter MacCallum Cancer Centre
The University of Melbourne)
- Paul A. Beavis
(Peter MacCallum Cancer Centre
The University of Melbourne)
Abstract
The efficacy of Chimeric Antigen Receptor T cells against solid tumors is limited by immunosuppressive factors in the tumor microenvironment including adenosine, which suppresses Chimeric Antigen Receptor T cells through activation of the A2A receptor. To overcome this, Chimeric Antigen Receptor T cells are engineered to express A1 receptor, a receptor that signals inversely to A2A receptor. Using murine and human Chimeric Antigen Receptor T cells, constitutive A1 receptor overexpression significantly enhances Chimeric Antigen Receptor T cell effector function albeit at the expense of Chimeric Antigen Receptor T cell persistence. Through a CRISPR/Cas9 homology directed repair “knock-in” approach we demonstrate that Chimeric Antigen Receptor T cells engineered to express A1 receptor in a tumor-localized manner, enhances anti-tumor therapeutic efficacy. This is dependent on the transcription factor IRF8 and is transcriptionally unique when compared to A2A receptor deletion. This data provides a novel approach for enhancing Chimeric Antigen Receptor T cell efficacy in solid tumors and provides proof of principle for site-directed expression of factors that promote effector T cell differentiation.
Suggested Citation
Kevin Sek & Amanda X. Y. Chen & Thomas Cole & Jesse D. Armitage & Junming Tong & Kah Min Yap & Isabelle Munoz & Phoebe A. Dunbar & Shiyi Wu & Marit J. van Elsas & Olivia Hidajat & Christina Scheffler , 2025.
"Tumor site-directed A1R expression enhances CAR T cell function and improves efficacy against solid tumors,"
Nature Communications, Nature, vol. 16(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59021-9
DOI: 10.1038/s41467-025-59021-9
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