A Self‐Assembled 3D Model Demonstrates How Stiffness Educates Tumor Cell Phenotypes and Therapy Resistance in Pancreatic Cancer-Reference-Cited by-同舟云学术

A Self‐Assembled 3D Model Demonstrates How Stiffness Educates Tumor Cell Phenotypes and Therapy Resistance in Pancreatic Cancer

Published:2024-03-22 Issue:17 Volume:13 Page:
ISSN:2192-2640
Container-title:Advanced Healthcare Materials
language:en
Short-container-title:Adv Healthcare Materials

Author:

Liu Ying¹²,Okesola Babatunde O.³,Osuna de la Peña David¹²,Li Weiqi²,Lin Meng‐Lay¹,Trabulo Sara¹,Tatari Marianthi¹,Lawlor Rita T.⁴⁵,Scarpa Aldo⁴⁵,Wang Wen²,Knight Martin⁶⁷,Loessner Daniela¹⁸⁹¹⁰,Heeschen Christopher¹¹^ORCID,Mata Alvaro¹²¹³¹⁴^ORCID,Pearce Oliver M. T.¹^ORCID

Affiliation:

1. Barts Cancer Institute Queen Mary University of London London EC1M 6BQ UK

2. School of Engineering and Materials Science Queen Mary University of London London E1 4NS UK

3. School of Life Sciences Faculty of Medicine and Health Sciences University of Nottingham Nottingham NG7 2RD UK

4. Department of Diagnostics and Public Health Section of Pathology University of Verona Verona 37134 Italy

5. ARC‐Net Applied Research on Cancer Centre University of Verona Verona 37134 Italy

6. Centre for Bioengineering School of Engineering and Materials Science Queen Mary University of London London E1 4NS UK

7. Centre for Predictive in vitro Models Queen Mary University of London London E1 4NS UK

8. Department of Chemical and Biological Engineering Faculty of Engineering Monash University Melbourne VIC 3800 Australia

9. Department of Materials Science and Engineering Faculty of Engineering Monash University Melbourne VIC 3800 Australia

10. Department of Anatomy and Developmental Biology Faculty of Medicine Nursing and Health Sciences Monash University Melbourne VIC 3800 Australia

11. Pancreatic Cancer Heterogeneity Candiolo Cancer Institute – FPO – IRCCS Candiolo (TO) 10060 Italy

12. School of Pharmacy University of Nottingham University Park Nottingham NG7 2RD UK

13. Biodiscovery Institute University of Nottingham University Park Nottingham NG7 2RD UK

14. Department of Chemical and Environmental Engineering University of Nottingham University Park Nottingham NG7 2RD UK

Abstract

AbstractPancreatic ductal adenocarcinoma (PDAC) is characterized by a dense and stiff extracellular matrix (ECM) associated with tumor progression and therapy resistance. To further the understanding of how stiffening of the tumor microenvironment (TME) contributes to aggressiveness, a three‐dimensional (3D) self‐assembling hydrogel disease model is developed based on peptide amphiphiles (PAs, PA‐E3Y) designed to tailor stiffness. The model displays nanofibrous architectures reminiscent of native TME and enables the study of the invasive behavior of PDAC cells. Enhanced tuneability of stiffness is demonstrated by interacting thermally annealed aqueous solutions of PA‐E3Y (PA‐E3Yh) with divalent cations to create hydrogels with mechanical properties and ultrastructure similar to native tumor ECM. It is shown that stiffening of PA‐E3Yh hydrogels to levels found in PDAC induces ECM deposition, promotes epithelial‐to‐mesenchymal transition (EMT), enriches CD133+/CXCR4+ cancer stem cells (CSCs), and subsequently enhances drug resistance. The findings reveal how a stiff 3D environment renders PDAC cells more aggressive and therefore more faithfully recapitulates in vivo tumors.

Funder

Biotechnology and Biological Sciences Research Council

Medical Research Council

European Research Council

Cancer Research UK

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adhm.202301941

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