Hedgehog ligands from glioblastoma cells induce astrocytes inhibition of cancer stem cells

Abstract BACKGROUND The Hedgehog pathway directs gene expression programs that are essential for glioblastoma stem cells in vitro, but a clinical trial suggested Hedgehog pathway inhibition does not improve glioblastoma outcomes (ABTC-0904). In pancreatic and bladder cancer, Hedgehog signaling through the tumor microenvironment induces stromal morphogens to inhibit cancer stem cell proliferation. Thus, we hypothesized Hedgehog signaling through the glioblastoma microenvironment may inhibit glioblastoma stem cell proliferation in vivo. METHODS Hedgehog signaling was studied using patient-derived, fluorescently-labeled IDH wild-type glioblastoma cells (GBM6, SF11956, SF11907, GPMP004, GPMP005) in vitro, in vivo after intracranial implantation in mice, or in 3D co-culture with iPSC-derived organoids comprised of human astrocytes or neurons. Genetic loss-of-function experiments were performed using CRISPR interference. Cell proliferation, stem cell marker expression, Sonic Hedgehog (SHH) expression, or primary cilia architecture were assessed using immunofluorescence, confocal microscopy, or live-cell imaging. Hedgehog signaling or morphogen expression were assessed using QPCR or single-cell RNA sequencing. Pharmacologic experiments were performed using vismodegib to inhibit the Hedgehog pathway, or FK506 to induce stromal morphogen expression. RESULTS Vismodegib increased glioblastoma cell proliferation and stem cell marker expression in vivo or in co-culture with astrocyte organoids. Single-cell RNA sequencing demonstrated glioblastoma cell co-culture with astrocyte organoids induced Hedgehog target genes and stem cell markers in glioblastoma cells, or stromal morphogens in astrocytes, which also expressed primary cilia. CRISPRi suppression of SHH in glioblastoma cells increased glioblastoma cell proliferation and stem cell marker expression in co-culture with astrocyte organoids. Neither vismodegib nor SHH suppression induced glioblastoma cell proliferation or stem cell marker expression in vitro or in co-culture with neuron organoids. FK506 induced astrocyte morphogen expression, inhibiting glioblastoma cell proliferation, stem cell marker expression, and the effects of vismodegib in co-culture with astrocyte organoids. CONCLUSIONS SHH from glioblastoma cells signals through astrocytes to inhibit cancer stem cell proliferation.