Disrupting Akt-Wnt/β-catenin signaling suppresses glioblastoma stem cell growth and tumor progression in immunocompetent mice
Sarkar, M. M.; Gonsalves, N.; Davarzani, A.; Mitchell, E.; Singh, A. M.; Karumbaiah, L.; Stice, S. L.
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Glioblastoma (GBM) is an aggressive primary malignant brain tumor in adults with a median patient survival of 12-18 months post-diagnosis. The PI3K/Akt and Wnt/{beta}-catenin signaling pathways promote GBM cell growth, survival, invasiveness and therapeutic resistance. We hypothesize that inhibiting Akt and {beta}-catenin, which are central regulatory proteins of the PI3K/Akt and Wnt/{beta}-catenin pathway, will suppress GBM growth and progression. Our in vitro studies demonstrate that MK-2206, a pan-Akt inhibitor, effectively reduced cell viability, induced apoptosis, and inhibited {beta}-catenin activity; consistently outperforming iCRT3, a {beta}-catenin-TCF interaction inhibitor, in CT-2A mouse glioma cells, and N08-30 human glioma stem cells. Luciferase-expressing CT-2A cells were then intracranially implanted in C57BL/6J mice followed by MK-2206 treatment, and we observed a reduction in phosphorylated Akt and GSK-3{beta} levels, consistent with disruption of the Akt and Wnt/{beta}-catenin signaling axis causing tumor suppression. In summary, MK-2206 outperformed iCRT3 efficacy in vitro, and suppressed GBM progression, in vivo. These findings suggest that Akt inhibition via MK-2206 may offer a promising therapeutic strategy for treating GBM characterized by dysregulation of PI3K/Akt or Wnt/{beta}-catenin pathways.
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