Spatial analysis of recurrent glioblastoma reveals perivascular niche organization
Ugoma Onubogu, Chandler D. Gatenbee, Sandhya Prabhakaran, Kelsey L. Wolfe, Benjamin Oakes, Roberto Salatino, Rachael Vaubel, Oszkar Szentirmai, Alexander R.A. Anderson, Michalina Janiszewska
Ugoma Onubogu, Chandler D. Gatenbee, Sandhya Prabhakaran, Kelsey L. Wolfe, Benjamin Oakes, Roberto Salatino, Rachael Vaubel, Oszkar Szentirmai, Alexander R.A. Anderson, Michalina Janiszewska
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Research Article Oncology

Spatial analysis of recurrent glioblastoma reveals perivascular niche organization

Abstract

Tumor evolution is driven by genetic variation; however, it is the tumor microenvironment (TME) that provides the selective pressure contributing to evolution in cancer. Despite high histopathological heterogeneity within glioblastoma (GBM), the most aggressive brain tumor, the interactions between the genetically distinct GBM cells and the surrounding TME are not fully understood. To address this, we analyzed matched primary and recurrent GBM archival tumor tissues with imaging-based techniques aimed to simultaneously evaluate tumor tissues for the presence of hypoxic, angiogenic, and inflammatory niches, extracellular matrix (ECM) organization, TERT promoter mutational status, and several oncogenic amplifications on the same slide and location. We found that the relationships between genetic and TME diversity are different in primary and matched recurrent tumors. Interestingly, the texture of the ECM, identified by label-free reflectance imaging, was predictive of single-cell genetic traits present in the tissue. Moreover, reflectance of ECM revealed structured organization of the perivascular niche in recurrent GBM, enriched in immunosuppressive macrophages. Single-cell spatial transcriptomics further confirmed the presence of the niche-specific macrophage populations and identified interactions between endothelial cells, perivascular fibroblasts, and immunosuppressive macrophages. Our results underscore the importance of GBM tissue organization in tumor evolution and highlight genetic and spatial dependencies.

Authors

Ugoma Onubogu, Chandler D. Gatenbee, Sandhya Prabhakaran, Kelsey L. Wolfe, Benjamin Oakes, Roberto Salatino, Rachael Vaubel, Oszkar Szentirmai, Alexander R.A. Anderson, Michalina Janiszewska

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Figure 1

Immunogenotyping of primary and recurrent archival GBM samples.

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Immunogenotyping of primary and recurrent archival GBM samples. (A) Stud...
(A) Study outline. (B) Top panels: Representative images of immunofluorescent staining for markers of hypoxia (HIF1α), endothelial cells (CD31), and immune cells (CD45RO). Bottom panels: Image segmentation. (C) Top panels: Representative FISH images for CDK4, EGFR, and PDGFRA and STAR-FISH for TERT promoter (TERTp) mutation, respectively. Bottom panels: Image segmentation. Scale bars: 40 μm (B and C). (D) Left panels: Quantification of cell frequency based on phenotypes (top) and genotypes (bottom) in representative images in B and C. Right panels: Spatial distribution of cells classified into distinct phenotypes and genotypes corresponding to the genotype panels on the left. (E) Top panel: Quantification of cell frequency based on TERTp mutation status in representative images in B and C. Bottom panel: Spatial distribution of cells classified into TERTp WT and MUT.