3D geometry orchestrates the transcriptional landscape of metastatic neuroblastoma cells in a multicellular in vitro bone model

A key challenge for the discovery of novel molecular targets and therapeutics against pediatric bone metastatic disease is the lack of bona fide in vitro cell models. Here, we show that a beta-tricalcium phosphate (β-TCP) multicellular 3D in vitro bone microtissue model reconstitutes key phenotypic...

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Bibliographic Details
Published in:Materials today bio 2023-04, Vol.19, p.100596-100596, Article 100596
Main Authors: Nasehi, Ramin, Abdallah, Ali T., Pantile, Marcella, Zanon, Carlo, Vogt, Michael, Rütten, Stephan, Fischer, Horst, Aveic, Sanja
Format: Article
Language:English
Subjects:
3D bioengineering
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In vitro biological models
Metastatic bone model
Tumor microenvironment
β-TCP ceramics Application
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Summary:A key challenge for the discovery of novel molecular targets and therapeutics against pediatric bone metastatic disease is the lack of bona fide in vitro cell models. Here, we show that a beta-tricalcium phosphate (β-TCP) multicellular 3D in vitro bone microtissue model reconstitutes key phenotypic and transcriptional patterns of native metastatic tumor cells while promoting their stemness and proinvasive features. Comparing planar with interconnected channeled scaffolds, we identified geometry as a dominant orchestrator of proangiogenic traits in neuroblastoma tumor cells. On the other hand, the β-TCP-determined gene signature was DNA replication related. Jointly, the geometry and chemical impact of β-TCP revealed a prometastatic landscape of the engineered tumor microenvironment. The proposed 3D multicellular in vitro model of pediatric bone metastatic disease may advance further analysis of the molecular, genetic and metabolic bases of the disease and allow more efficient preclinical target validations. [Display omitted]
ISSN:2590-0064
2590-0064
DOI:10.1016/j.mtbio.2023.100596