Oncotarget

Research Papers:

Induction of hypoxia and necrosis in multicellular tumor spheroids is associated with resistance to chemotherapy treatment

Silvio Däster _, Nunzia Amatruda, Diego Calabrese, Robert Ivanek, Eleonora Turrini, Raoul A. Droeser, Paul Zajac, Carmela Fimognari, Giulio C. Spagnoli, Giandomenica Iezzi, Valentina Mele and Manuele G. Muraro

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Oncotarget. 2017; 8:1725-1736. https://doi.org/10.18632/oncotarget.13857

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Abstract

Silvio Däster1,*, Nunzia Amatruda1,2,*, Diego Calabrese2, Robert Ivanek2, Eleonora Turrini3, Raoul A. Droeser1, Paul Zajac1,2, Carmela Fimognari3, Giulio C. Spagnoli1,2, Giandomenica Iezzi1,2, Valentina Mele1,2,**, Manuele G. Muraro1,2,**

1Department of Surgery, University Hospital Basel, Basel, Switzerland

2Department of Biomedicine, University of Basel, Basel, Switzerland

3Department for Life Quality Studies, University of Bologna, Rimini, Italy

*These authors have contributed equally to this work

**Shared senior authorship

Correspondence to:

Valentina Mele, email: [email protected]

Manuele G. Muraro, email: [email protected]

Keywords: multicellular tumor spheroids, three-dimensional culture, tumor model, hypoxia, necrosis

Received: April 19, 2016     Accepted: September 19, 2016     Published: December 10, 2016

ABSTRACT

Culture of cancerous cells in standard monolayer conditions poorly mirrors growth in three-dimensional architectures typically observed in a wide majority of cancers of different histological origin. Multicellular tumor spheroid (MCTS) culture models were developed to mimic these features. However, in vivo tumor growth is also characterized by the presence of ischemic and necrotic areas generated by oxygenation gradients and differential access to nutrients. Hypoxia and necrosis play key roles in tumor progression and resistance to treatment. To provide in vitro models recapitulating these events in highly controlled and standardized conditions, we have generated colorectal cancer (CRC) cell spheroids of different sizes and analyzed their gene expression profiles and sensitivity to treatment with 5FU, currently used in therapeutic protocols. Here we identify three MCTS stages, corresponding to defined spheroid sizes, characterized by normoxia, hypoxia, and hypoxia plus necrosis, respectively. Importantly, we show that MCTS including both hypoxic and necrotic areas most closely mimic gene expression profiles of in vivo-developing tumors and display the highest resistance to 5FU. Taken together, our data indicate that MCTS may mimic in vitro generation of ischemic and necrotic areas in highly standardized and controlled conditions, thereby qualifying as relevant models for drug screening purposes.


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