Login / Signup

A regulatory circuit of miR-125b/miR-20b and Wnt signalling controls glioblastoma phenotypes through FZD6-modulated pathways.

Tianzhi HuangAngel A AlvarezRajendra P PangeniCraig M HorbinskiSongjian LuSung-Hak KimC David JamesJeffery J RaizerJohn A KesslerCameron W BrenannErik P SulmanGaetano FinocchiaroMing TanRyo NishikawaXinghua LuIchiro NakanoBo HuShi-Yuan Cheng
Published in: Nature communications (2016)
Molecularly defined subclassification is associated with phenotypic malignancy of glioblastoma (GBM). However, current understanding of the molecular basis of subclass conversion that is often involved in GBM recurrence remain rudimentary at best. Here we report that canonical Wnt signalling that is active in proneural (PN) but inactive in mesenchymal (MES) GBM, along with miR-125b and miR-20b that are expressed at high levels in PN compared with MES GBM, comprise a regulatory circuit involving TCF4-miR-125b/miR-20b-FZD6. FZD6 acts as a negative regulator of this circuit by activating CaMKII-TAK1-NLK signalling, which, in turn, attenuates Wnt pathway activity while promoting STAT3 and NF-κB signalling that are important regulators of the MES-associated phenotype. These findings are confirmed by targeting differentially enriched pathways in PN versus MES GBM that results in inhibition of distinct GBM subtypes. Correlative expressions of the components of this circuit are prognostic relevant for clinical GBM. Our findings provide insights for understanding GBM pathogenesis and for improving treatment of GBM.
Keyphrases
  • stem cells
  • cell proliferation
  • transcription factor
  • signaling pathway
  • bone marrow
  • inflammatory response
  • sensitive detection
  • nuclear factor
  • fluorescent probe
  • replacement therapy