A 3D Bioprinted Human Neurovascular Unit Model of Glioblastoma Tumor Growth.

Abstract

A 3D bioprinted neurovascular unit (NVU) model was developed to study glioblastoma (GBM) tumor growth in a brain-like microenvironment. The NVU model included human primary astrocytes, pericytes and brain microvascular endothelial cells, and patient-derived glioblastoma cells (JHH-520) were used for this study. We used fluorescence reporters with confocal high content imaging to quantitate real-time microvascular network formation and tumor growth. Extensive validation of the NVU-GBM model included immunostaining for brain relevant cellular markers and extracellular matrix components; single cell RNA sequencing to establish physiologically relevant transcriptomics changes; and secretion of NVU and GBM-relevant cytokines. The scRNAseq revealed changes in gene expression and cytokines secretion associated with wound healing/angiogenesis, including the appearance of an endothelial mesenchymal transition (EndMT) cell population. The NVU-GBM model was used to test 18 chemotherapeutics and anti-cancer drugs to assess the pharmacological relevance of the model and robustness for high throughput screening. This article is protected by copyright. All rights reserved.