Scientific Reports (Feb 2022)

ASCL1 phosphorylation and ID2 upregulation are roadblocks to glioblastoma stem cell differentiation

  • Roberta Azzarelli,
  • Aoibheann McNally,
  • Claudia Dell’Amico,
  • Marco Onorati,
  • Benjamin Simons,
  • Anna Philpott

DOI
https://doi.org/10.1038/s41598-022-06248-x
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 12

Abstract

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Abstract The growth of glioblastoma (GBM), one of the deadliest adult cancers, is fuelled by a subpopulation of stem/progenitor cells, which are thought to be the source of resistance and relapse after treatment. Re-engagement of a latent capacity of these cells to re-enter a trajectory resulting in cell differentiation is a potential new therapeutic approach for this devastating disease. ASCL1, a proneural transcription factor, plays a key role in normal brain development and is also expressed in a subset of GBM cells, but fails to engage a full differentiation programme in this context. Here, we investigated the barriers to ASCL1-driven differentiation in GBM stem cells. We see that ASCL1 is highly phosphorylated in GBM stem cells where its expression is compatible with cell proliferation. However, overexpression of a form of ASCL1 that cannot be phosphorylated on Serine–Proline sites drives GBM cells down a neuronal lineage and out of cell cycle more efficiently than its wild-type counterpart, an effect further enhanced by deletion of the inhibitor of differentiation ID2, indicating mechanisms to reverse the block to GBM cell differentiation.