HepaCAM Suppresses Glioblastoma Stem Cell Invasion in the Brain

Abstract: Glioblastoma (GBM) is a malignant brain cancer that contains sub-populations of highly invasive tumor cells that drive progression and recurrence after surgery and radiochemotherapy. The exact mechanisms that enable GBM cells to disperse from the main tumor mass and navigate throughout the brain microenvironment remain largely unknown. As a result, there is a lack of effective strategies to block cancer cell invasive growth in primary and recurrent GBM. Here we report that hepatocyte cell adhesion molecule (he… Show more

“…Astrocyte markers S100B, SOX9, HEPACAM, and GFAP are highly expressed in clusters 3 and 4, the astrocytes population, along with the CD44, PDGFRA, and EGFR genes. The HEPACAM gene is normally expressed in astrocytes in the human brain and serves the function of reducing glioblastoma cell proliferation and inhibiting invasion in the brain microenvironment by regulating ion homeostasis [3]. SOX9 is an astrocyte-specific marker and is also expressed by neural progenitor cells.…”

Unravelling glioblastoma heterogeneity by single-cell RNA sequencing

“…Astrocyte markers S100B, SOX9, HEPACAM, and GFAP are highly expressed in clusters 3 and 4, the astrocytes population, along with the CD44, PDGFRA, and EGFR genes. The HEPACAM gene is normally expressed in astrocytes in the human brain and serves the function of reducing glioblastoma cell proliferation and inhibiting invasion in the brain microenvironment by regulating ion homeostasis [3]. SOX9 is an astrocyte-specific marker and is also expressed by neural progenitor cells.…”

Unravelling glioblastoma heterogeneity by single-cell RNA sequencing