Abstract / Description of output
Microglia actively promotes the growth of high-grade gliomas. Within the glioma microenvironment an amoeboid microglial morphology has been observed, however the underlying causes and the related impact on microglia functions and their tumor promoting activities is unclear. Using the advantages of the larval zebrafish model, we identified the underlying mechanism and show that microglial morphology and functions are already impaired during glioma initiation stages. The presence of pre-neoplastic HRasV12 expressing cells induces an amoeboid morphology of microglia, increases microglial numbers and decreases their motility and phagocytic activity. RNA sequencing analysis revealed lower expression levels of the actin nucleation promoting factor wasla in microglia. Importantly, a microglia specific rescue of wasla expression restores microglial morphology and functions. This results in increased phagocytosis of pre-neoplastic cells and slows down tumor progression. In conclusion, we identified a mechanism that de-activates core microglial functions within the emerging glioma microenvironment. Restoration of this mechanism might provide a way to impair glioma growth.
Original language | English |
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Pages (from-to) | 1027-1051 |
Journal | Glia |
Volume | 70 |
Issue number | 6 |
Early online date | 22 Feb 2022 |
DOIs | |
Publication status | Published - Jun 2022 |
Keywords / Materials (for Non-textual outputs)
- RNA sequencing
- cytoskeleton
- glioblastoma
- microglia
- morphology
- phagocytosis
- wasl
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Institute for Regeneration and Repair Flow Cytometry Facility
Shonna Johnston (Manager), Fiona Rossi (Manager), Claire Cryer (Other) & Ailsa Laird (Other)
Institute of Regeneration and RepairFacility/equipment: Facility