In glioblastoma, PI3kinase (PI3K) signaling is frequently activated by loss of the tumor suppressor PTEN1. However, it is not known whether inhibiting PI3K represents a selective and effective approach for treatment. Here we interrogate large databases and find that Shh signaling is activated in PTEN-deficient glioblastoma. We demonstrate that Shh and PI3K pathways synergize to promote tumor growth and viability in human PTEN-deficient glioblastomas. A combination of PI3K and Shh signaling inhibitors not only suppresses activation of both pathways, but also abrogates S6kinase signaling. Accordingly, simultaneously targeting both pathways results in mitotic catastrophe and tumor apoptosis, and dramatically reduces growth of PTEN-deficient glioblastomas in vitro and in vivo. The drugs tested here appear safe in humans; therefore this combination may provide new targeted treatment for glioblastoma.
Background: ARHGAP21 is an important Rho-GAP for Cdc42 involved in vesicle trafficking and focal adhesion kinase activity. Results: ARHGAP21 participates in cell-cell adhesion formation and cellular migration, interacts and modulates ␣-tubulin acetylation, and is essential for epithelial-mesenchymal transition. Conclusion: ARHGAP21 is a novel ␣-tubulin partner coordinating cell-cell adhesion, migration, and epithelial-mesenchymal transition. Significance: ARHGAP21 might be involved in cancer metastasis.
While interphase mitochondria associate with microtubules, mitotic mitochondria dissociate from spindle microtubules and localize in the cell periphery. Here, we show that this redistribution is not mediated by mitochondrial active transport or tethering to the cytoskeleton. Instead, kinesin and dynein, that link mitochondria to microtubules, are shed from the mitochondrial surface. Shedding is driven by phosphorylation of mitochondrial and cytoplasmic targets by CDK1 and Aurora A. Forced recruitment of motor proteins to mitotic mitochondria to override this shedding prevents their proper symmetrical distribution and disrupts the balanced inheritance of mitochondria to daughter cells. Moreover, when mitochondria with bound dynein bind to the mitotic spindle, they arrest cell cycle progression and produce binucleate cells. Thus, our results show that the regulated release of motor proteins from the mitochondrial surface is a critical mitotic event.
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