Through bioinformatics and experimental approaches, we have assigned the first biochemical property to a predicted protein product in the human genome as a new 14-3-3 binding protein. 14-3-3 client proteins represent a diverse group of regulatory molecules that often function as signaling integrators in response to various environmental cues and include proteins such as Bad and Foxo. Using 14-3-3 as a probe in a yeast two-hybrid screen, we identified a novel 14-3-3 binding protein with unknown function, initially designated as clone 546. Confocal microscopy revealed that clone 546 localized to the nucleus of mammalian cells. Additional studies show that the gene encoding clone 546 is expressed in many human tissues, including the thymus, as well as a number of cancer cell lines. The interaction of clone 546 with 14-3-3 was confirmed in mammalian cells. Interestingly, this interaction was markedly enhanced by the expression of activated Akt/PKB, suggesting a phosphorylation dependent event. Mutational analysis was carried out to identify Ser479 as the predominant residue that mediates the clone 546/14-3-3 association. Phosphorylation of Ser479 by AKT/PKB further supports a critical role for Akt/PKB in regulation of the clone 546/14-3-3 interaction. On the basis of these findings, we named this undefined protein FAKTS: Fourteen-three-three associated AKT Substrate.
(c) 2007 Wiley-Liss, Inc.