Tumor Biomechanics Alters Metastatic Dissemination of Triple Negative Breast Cancer via Rewiring Fatty Acid Metabolism-Reference-Cited by-同舟云学术

Tumor Biomechanics Alters Metastatic Dissemination of Triple Negative Breast Cancer via Rewiring Fatty Acid Metabolism

Published:2024-04-11 Issue:23 Volume:11 Page:
ISSN:2198-3844
Container-title:Advanced Science
language:en
Short-container-title:Advanced Science

Author:

Filipe Elysse C.¹²,Velayuthar Sipiththa¹,Philp Ashleigh¹²³,Nobis Max¹²,Latham Sharissa L.¹²,Parker Amelia L.¹²,Murphy Kendelle J.¹²,Wyllie Kaitlin¹²,Major Gretel S.¹,Contreras Osvaldo²⁴,Mok Ellie T. Y.¹²,Enriquez Ronaldo F.¹,McGowan Suzanne¹,Feher Kristen⁵,Quek Lake‐Ee⁶,Hancock Sarah E.⁴⁷,Yam Michelle¹,Tran Emmi¹,Setargew Yordanos F. I.¹,Skhinas Joanna N.¹,Chitty Jessica L.¹²,Phimmachanh Monica¹,Han Jeremy Z. R.¹,Cadell Antonia L.¹,Papanicolaou Michael¹⁸,Mahmodi Hadi⁹,Kiedik Beata¹,Junankar Simon¹²,Ross Samuel E.¹,Lam Natasha¹,Coulson Rhiannon¹,Yang Jessica¹,Zaratzian Anaiis¹,Da Silva Andrew M.¹,Tayao Michael¹,Chin Ian L.¹⁰,Cazet Aurélie¹²,Kansara Maya¹²,Segara Davendra¹¹,Parker Andrew²¹²,Hoy Andrew J.¹³,Harvey Richard P.²⁴,Bogdanovic Ozren¹¹⁴,Timpson Paul¹²,Croucher David R.¹²,Lim Elgene¹²,Swarbrick Alexander¹²,Holst Jeff⁷,Turner Nigel⁴⁷,Choi Yu Suk¹⁰,Kabakova Irina V.⁹,Philp Andrew¹²¹⁵¹⁶,Cox Thomas R.¹²^ORCID

Affiliation:

1. Cancer Ecosystems Program Garvan Institute of Medical Research and The Kinghorn Cancer Centre Darlinghurst NSW 2010 Australia

2. School of Clinical Medicine St Vincent's Clinical Campus UNSW Medicine & Health UNSW Sydney Sydney 2010 Australia

3. Centenary Institute Camperdown NSW 2050 Australia

4. Victor Chang Cardiac Research Institute Darlinghurst NSW 2010 Australia

5. South Australian immunoGENomics Cancer Institute (SAiGENCI) Adelaide SA 5005 Australia

6. School of Mathematics and Statistics, Charles Perkins Centre University of Sydney Sydney 2050 Australia

7. School of Biomedical Sciences UNSW Sydney Sydney 2033 Australia

8. School of Life Sciences University of Technology Sydney Sydney NSW 2007 Australia

9. School of Mathematical and Physical Sciences University of Technology Sydney Sydney NSW 2007 Australia

10. School of Human Sciences University of Western Australia Crawley WA 6009 Australia

11. St Vincent's Hospital Darlinghurst NSW 2010 Australia

12. Department of Pathology St. Vincent's Hospital Sydney 2010 Australia

13. School of Medical Sciences Charles Perkins Centre Faculty of Medicine and Health University of Sydney Sydney NSW 2050 Australia

14. School of Biotechnology and Biomolecular Sciences UNSW Sydney Sydney 2033 Australia

15. Biology of Ageing Laboratory and Centre for Healthy Ageing Centenary Institute Missenden Road, Camperdown Sydney NSW 2050 Australia

16. School of Sport Exercise and Rehabilitation Sciences University of Technology Sydney Ultimo NSW 2007 Australia

Abstract

AbstractIn recent decades, the role of tumor biomechanics on cancer cell behavior at the primary site has been increasingly appreciated. However, the effect of primary tumor biomechanics on the latter stages of the metastatic cascade, such as metastatic seeding of secondary sites and outgrowth remains underappreciated. This work sought to address this in the context of triple negative breast cancer (TNBC), a cancer type known to aggressively disseminate at all stages of disease progression. Using mechanically tuneable model systems, mimicking the range of stiffness's typically found within breast tumors, it is found that, contrary to expectations, cancer cells exposed to softer microenvironments are more able to colonize secondary tissues. It is shown that heightened cell survival is driven by enhanced metabolism of fatty acids within TNBC cells exposed to softer microenvironments. It is demonstrated that uncoupling cellular mechanosensing through integrin β1 blocking antibody effectively causes stiff primed TNBC cells to behave like their soft counterparts, both in vitro and in vivo. This work is the first to show that softer tumor microenvironments may be contributing to changes in disease outcome by imprinting on TNBC cells a greater metabolic flexibility and conferring discrete cell survival advantages.

Funder

Australian Research Council

Perpetual

National Heart Foundation of Australia

Cancer Council NSW

National Health and Medical Research Council

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/advs.202307963

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