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Biomimetic hydrogel supports initiation and growth of patient-derived breast tumor organoids

Author

Listed:
  • Elisabeth Prince

    (University of Toronto)

  • Jennifer Cruickshank

    (Princess Margaret Cancer Centre, University Health Network)

  • Wail Ba-Alawi

    (Princess Margaret Cancer Centre, University Health Network
    University of Toronto)

  • Kelsey Hodgson

    (Princess Margaret Cancer Centre, University Health Network)

  • Jillian Haight

    (Princess Margaret Cancer Centre, University Health Network)

  • Chantal Tobin

    (Princess Margaret Cancer Centre, University Health Network)

  • Andrew Wakeman

    (Princess Margaret Cancer Centre, University Health Network)

  • Alona Avoulov

    (University of Toronto)

  • Valentina Topolskaia

    (University of Toronto)

  • Mitchell J. Elliott

    (Princess Margaret Cancer Centre, University Health Network)

  • Alison P. McGuigan

    (University of Toronto
    University of Toronto)

  • Hal K. Berman

    (Princess Margaret Cancer Centre, University Health Network
    University of Toronto)

  • Benjamin Haibe-Kains

    (Princess Margaret Cancer Centre, University Health Network
    University of Toronto)

  • David W. Cescon

    (Princess Margaret Cancer Centre, University Health Network
    University of Toronto)

  • Eugenia Kumacheva

    (University of Toronto
    University of Toronto
    University of Toronto)

Abstract

Patient-derived tumor organoids (PDOs) are a highly promising preclinical model that recapitulates the histology, gene expression, and drug response of the donor patient tumor. Currently, PDO culture relies on basement-membrane extract (BME), which suffers from batch-to-batch variability, the presence of xenogeneic compounds and residual growth factors, and poor control of mechanical properties. Additionally, for the development of new organoid lines from patient-derived xenografts, contamination of murine host cells poses a problem. We propose a nanofibrillar hydrogel (EKGel) for the initiation and growth of breast cancer PDOs. PDOs grown in EKGel have histopathologic features, gene expression, and drug response that are similar to those of their parental tumors and PDOs in BME. In addition, EKGel offers reduced batch-to-batch variability, a range of mechanical properties, and suppressed contamination from murine cells. These results show that EKGel is an improved alternative to BME matrices for the initiation, growth, and maintenance of breast cancer PDOs.

Suggested Citation

  • Elisabeth Prince & Jennifer Cruickshank & Wail Ba-Alawi & Kelsey Hodgson & Jillian Haight & Chantal Tobin & Andrew Wakeman & Alona Avoulov & Valentina Topolskaia & Mitchell J. Elliott & Alison P. McGu, 2022. "Biomimetic hydrogel supports initiation and growth of patient-derived breast tumor organoids," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28788-6
    DOI: 10.1038/s41467-022-28788-6
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    References listed on IDEAS

    as
    1. Serena Nik-Zainal & Helen Davies & Johan Staaf & Manasa Ramakrishna & Dominik Glodzik & Xueqing Zou & Inigo Martincorena & Ludmil B. Alexandrov & Sancha Martin & David C. Wedge & Peter Van Loo & Young, 2016. "Landscape of somatic mutations in 560 breast cancer whole-genome sequences," Nature, Nature, vol. 534(7605), pages 47-54, June.
    2. Benjamin Haibe-Kains & Nehme El-Hachem & Nicolai Juul Birkbak & Andrew C. Jin & Andrew H. Beck & Hugo J. W. L. Aerts & John Quackenbush, 2013. "Inconsistency in large pharmacogenomic studies," Nature, Nature, vol. 504(7480), pages 389-393, December.
    3. Nikolce Gjorevski & Norman Sachs & Andrea Manfrin & Sonja Giger & Maiia E. Bragina & Paloma Ordóñez-Morán & Hans Clevers & Matthias P. Lutolf, 2016. "Designer matrices for intestinal stem cell and organoid culture," Nature, Nature, vol. 539(7630), pages 560-564, November.
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