Author
Listed:
- Claire Vennin
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney
the Netherlands Cancer Institute)
- Pauline Mélénec
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Romain Rouet
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Max Nobis
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Aurélie S. Cazet
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Kendelle J. Murphy
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- David Herrmann
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Daniel A. Reed
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Morghan C. Lucas
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Sean C. Warren
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Zehra Elgundi
(University of New South Wales Sydney)
- Mark Pinese
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Gabriella Kalna
(Cancer Research UK Beatson Institute)
- Daniel Roden
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Monisha Samuel
(La Trobe University)
- Anaiis Zaratzian
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre)
- Shane T. Grey
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Andrew Silva
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre)
- Wilfred Leung
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney
Cornell University)
- Suresh Mathivanan
(La Trobe University)
- Yingxiao Wang
(University of California)
- Anthony W. Braithwaite
(University of Sydney
University of Otago
University of Otago)
- Daniel Christ
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Ales Benda
(University of New South Wales)
- Ashleigh Parkin
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Phoebe A. Phillips
(University of New South Wales
University of New South Wales)
- John M. Whitelock
(University of New South Wales Sydney)
- Anthony J. Gill
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of Sydney
Royal North Shore Hospital, St Leonards
Kolling Institute of Medical Research)
- Owen J. Sansom
(Cancer Research UK Beatson Institute)
- David R. Croucher
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Benjamin L. Parker
(the University of Sydney)
- Marina Pajic
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Jennifer P. Morton
(Cancer Research UK Beatson Institute)
- Thomas R. Cox
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
- Paul Timpson
(The Garvan Institute of Medical Research & The Kinghorn Cancer Centre
University of New South Wales Sydney)
Abstract
Heterogeneous subtypes of cancer-associated fibroblasts (CAFs) coexist within pancreatic cancer tissues and can both promote and restrain disease progression. Here, we interrogate how cancer cells harboring distinct alterations in p53 manipulate CAFs. We reveal the existence of a p53-driven hierarchy, where cancer cells with a gain-of-function (GOF) mutant p53 educate a dominant population of CAFs that establish a pro-metastatic environment for GOF and null p53 cancer cells alike. We also demonstrate that CAFs educated by null p53 cancer cells may be reprogrammed by either GOF mutant p53 cells or their CAFs. We identify perlecan as a key component of this pro-metastatic environment. Using intravital imaging, we observe that these dominant CAFs delay cancer cell response to chemotherapy. Lastly, we reveal that depleting perlecan in the stroma combined with chemotherapy prolongs mouse survival, supporting it as a potential target for anti-stromal therapies in pancreatic cancer.
Suggested Citation
Claire Vennin & Pauline Mélénec & Romain Rouet & Max Nobis & Aurélie S. Cazet & Kendelle J. Murphy & David Herrmann & Daniel A. Reed & Morghan C. Lucas & Sean C. Warren & Zehra Elgundi & Mark Pinese &, 2019.
"CAF hierarchy driven by pancreatic cancer cell p53-status creates a pro-metastatic and chemoresistant environment via perlecan,"
Nature Communications, Nature, vol. 10(1), pages 1-22, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10968-6
DOI: 10.1038/s41467-019-10968-6
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Cited by:
- Hongjuan Yao & Wenping Song & Rui Cao & Cheng Ye & Li Zhang & Hebing Chen & Junting Wang & Yuchen Shi & Rui Li & Yi Li & Xiujun Liu & Xiaofei Zhou & Rongguang Shao & Liang Li, 2022.
"An EGFR/HER2-targeted conjugate sensitizes gemcitabine-sensitive and resistant pancreatic cancer through different SMAD4-mediated mechanisms,"
Nature Communications, Nature, vol. 13(1), pages 1-24, December.
- Michael Papanicolaou & Amelia L. Parker & Michelle Yam & Elysse C. Filipe & Sunny Z. Wu & Jessica L. Chitty & Kaitlin Wyllie & Emmi Tran & Ellie Mok & Audrey Nadalini & Joanna N. Skhinas & Morghan C. , 2022.
"Temporal profiling of the breast tumour microenvironment reveals collagen XII as a driver of metastasis,"
Nature Communications, Nature, vol. 13(1), pages 1-21, December.
- Hugo Croizer & Rana Mhaidly & Yann Kieffer & Geraldine Gentric & Lounes Djerroudi & Renaud Leclere & Floriane Pelon & Catherine Robley & Mylene Bohec & Arnaud Meng & Didier Meseure & Emanuela Romano &, 2024.
"Deciphering the spatial landscape and plasticity of immunosuppressive fibroblasts in breast cancer,"
Nature Communications, Nature, vol. 15(1), pages 1-28, December.
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