Cell Reports (Nov 2019)

A Systems-Based Map of Human Brain Cell-Type Enriched Genes and Malignancy-Associated Endothelial Changes

  • Philip Dusart,
  • Björn Mikael Hallström,
  • Thomas Renné,
  • Jacob Odeberg,
  • Mathias Uhlén,
  • Lynn Marie Butler

Journal volume & issue
Vol. 29, no. 6
pp. 1690 – 1706.e4

Abstract

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Summary: Changes in the endothelium of the cerebral vasculature can contribute to inflammatory, thrombotic, and malignant disorders. The importance of defining cell-type-specific genes and their modification in disease is increasingly recognized. Here, we develop a bioinformatics-based approach to identify normal brain cell-enriched genes, using bulk RNA sequencing (RNA-seq) data from 238 normal human cortex samples from 2 independent cohorts. We compare endothelial cell-enriched gene profiles with astrocyte, oligodendrocyte, neuron, and microglial cell profiles. Endothelial changes in malignant disease are explored using RNA-seq data from 516 lower-grade gliomas and 401 glioblastomas. Lower-grade gliomas appear to be an “endothelial intermediate” between normal brain and glioblastoma. We apply our method for the prediction of glioblastoma-specific endothelial biomarkers, providing potential diagnostic or therapeutic targets. In summary, we provide a roadmap of endothelial cell identity in normal and malignant brain, using a method developed to resolve bulk RNA-seq into constituent cell-type-enriched profiles. : Dusart et al. use a correlation-based bulk RNA-seq analysis method to identify cell-type-enriched transcriptomes in human brain. The endothelial transcriptome in glioblastoma is profiled and compared to normal brain to predict tumor-specific endothelial markers. A web-based portal is provided to allow exploration of cell-type enrichment profiles. Keywords: endothelial cells, brain, RNA-seq, gene expression, cell identity, glioblastoma, tumor vasculature