Myc-induced proliferation and transformation require Akt-mediated phosphorylation of FoxO proteins
Publication date
2004
Authors
Bouchard, C.
Marquardt, J.
Brás, A.
Medema, R.H.
Eilers, M.
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Document Type
Article
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Abstract
Myc synergizes with Ras and PI3-kinase in cell transformation,
yet the molecular basis for this behavior is poorly
understood. We now show that Myc recruits TFIIH,
P-TEFb and Mediator to the cyclin D2 and other target
promoters, while the PI3-kinase pathway controls formation
of the preinitiation complex and loading of RNA
polymerase II. The PI3-kinase pathway involves Aktmediated
phosphorylation of FoxO transcription factors.
In a nonphosphorylated state, FoxO factors inhibit induction
of multiple Myc target genes, Myc-induced cell proliferation
and transformation by Myc and Ras. Abrogation
of FoxO function enables Myc to activate target genes in
the absence of PI3-kinase activity and to induce foci
formation in primary cells in the absence of oncogenic
Ras. We suggest that the cooperativity between Myc and
Ras is at least in part due to the fact that Myc and FoxO
proteins control distinct steps in the activation of an overlapping
set of critical target genes.