A Living Biobank of Breast Cancer Organoids Captures Disease Heterogeneity | Zendy

Norman Sachs | Zendy; Joep de Ligt | Zendy; Oded Kopper | Zendy; Ewa Gogola | Zendy; Gergana Bounova | Zendy; Fleur Weeber | Zendy; Anjali Vanita Balgobind | Zendy; Karin Wind | Zendy; Ana Gudelj Gračanin | Zendy; Harry Begthel | Zendy; Jeroen Korving | Zendy; Ruben van Boxtel | Zendy; Alexandra A. Duarte | Zendy; Daphne Lelieveld | Zendy; Arne van Hoeck | Zendy; Robert F. Ernst | Zendy; Francis Blokzijl | Zendy; Isaäc J. Nijman | Zendy; Marlous Hoogstraat | Zendy; Marieke van de Ven | Zendy; David A. Egan | Zendy; Vittoria Zinzalla | Zendy; Jürgen Moll | Zendy; Sylvia F. Boj | Zendy; Emile E. Voest | Zendy; Lodewyk F.A. Wessels | Zendy; Paul Joannes van Diest | Zendy; Sven Rottenberg | Zendy; Robert G.J. Vries | Zendy; Edwin Cuppen | Zendy; Hans Clevers | Zendy

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A Living Biobank of Breast Cancer Organoids Captures Disease Heterogeneity

Author(s) -

Norman Sachs,

Joep de Ligt,

Oded Kopper,

Ewa Gogola,

Gergana Bounova,

Fleur Weeber,

Anjali Vanita Balgobind,

Karin Wind,

Ana Gudelj Gračanin,

Harry Begthel,

Jeroen Korving,

Ruben van Boxtel,

Alexandra A. Duarte,

Daphne Lelieveld,

Arne van Hoeck,

Robert F. Ernst,

Francis Blokzijl,

Isaäc J. Nijman,

Marlous Hoogstraat,

Marieke van de Ven,

David A. Egan,

Vittoria Zinzalla,

Jürgen Moll,

Sylvia F. Boj,

Emile E. Voest,

Lodewyk F.A. Wessels,

Paul Joannes van Diest,

Sven Rottenberg,

Robert G.J. Vries,

Edwin Cuppen,

Hans Clevers

Publication year - 2017

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2017.11.010

Subject(s) - organoid , biology , biobank , breast cancer , cancer , in vivo , computational biology , cancer research , bioinformatics , genetics

Breast cancer (BC) comprises multiple distinct subtypes that differ genetically, pathologically, and clinically. Here, we describe a robust protocol for long-term culturing of human mammary epithelial organoids. Using this protocol, >100 primary and metastatic BC organoid lines were generated, broadly recapitulating the diversity of the disease. BC organoid morphologies typically matched the histopathology, hormone receptor status, and HER2 status of the original tumor. DNA copy number variations as well as sequence changes were consistent within tumor-organoid pairs and largely retained even after extended passaging. BC organoids furthermore populated all major gene-expression-based classification groups and allowed in vitro drug screens that were consistent with in vivo xeno-transplantations and patient response. This study describes a representative collection of well-characterized BC organoids available for cancer research and drug development, as well as a strategy to assess in vitro drug response in a personalized fashion.

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