Forkhead transcription factors FOXO1 (FKHR), FOXO3a (FKHRL1), and FOXO4 (AFX) play a pivotal role in tumor suppression by inducing growth arrest and apoptosis. Loss of function of these factors due to phosphorylation and proteasomal degradation has been implicated in cell transformation and malignancy. However, the ubiquitin ligase necessary for the ubiquitination of the FOXO factors and the relevance of this regulation to tumorigenesis have not been characterized. Here we demonstrate that Skp2, an oncogenic subunit of the Skp1͞Cul1͞F-box protein ubiquitin complex, interacts with, ubiquitinates, and promotes the degradation of FOXO1. This effect of Skp2 requires Akt-specific phosphorylation of FOXO1 at Ser-256. Moreover, expression of Skp2 inhibits transactivation of FOXO1 and abolishes the inhibitory effect of FOXO1 on cell proliferation and survival. Furthermore, expression of the FOXO1 protein is lost in a mouse lymphoma model, where Skp2 is overexpressed. These data suggest that the Skp2-promoted proteolysis of FOXO1 plays a key role in tumorigenesis.ubiquitin ligase ͉ proteasomal degradation ͉ cancer F orkhead family members FOXO1, FOXO3a, and FOXO4 are multifunctional transcription factors, which regulate transcription of a number of genes that play critical roles in inducing either cell cycle arrest or apoptosis. Activation of each member of this family in transformed and nontransformed cells results in upregulation of the cyclin-dependent kinase inhibitor p27 KIP1 and͞or down-regulation of D-type cyclins, thereby arresting cells at G 1 (1, 2). Activated FOXO proteins also trigger apoptosis in many cancer cell lines through regulation of a number of proapoptotic proteins, including Fas ligand, TRAIL, and Bim (3-5). Knocking down the FOXO3a protein in human breast cancer cells or inhibition of the transcriptional activity of FOXO1 in chicken embryo fibroblasts promotes cell transformation and tumor progression (6, 7). Thus, it has been postulated that FOXO factors play a pivotal role in the inhibition of cell transformation and tumorigenesis.The inhibitory function of FOXO proteins in cell proliferation and survival is often disrupted due to the overactivated phosphatidylinositol 3-kinase (PI3K)͞Akt pathway in cancer cells. Activated Akt phosphorylates a wide range of downstream proapoptotic proteins, among which are the forkhead factors FOXO1, FOXO3a, and FOXO4. Phosphorylated forkhead proteins translocate from the nucleus to the cytoplasm where they are inactive (3,(8)(9)(10). Recently, another kinase, I B kinase , has been shown to phosphorylate and inactivate FOXO3a in breast cancer cells (6). The tumor suppressor gene PTEN encodes a lipid phosphatase that specifically dephosphorylates the D3 position of phosphatidylinositol 3,4,5-trisphosphate (11) and in so doing functionally antagonizes the PI3K pathway. Because of frequent deletions and mutations in the PTEN gene in human cancers, it is believed that protein phosphorylation is a key mechanism that inactivates the FOXO factors.It has been demonstra...
