Hyangyee Oh scite author profile

Yorkie (Yki), a transcription factor of the Fat and Hippo signaling pathways, is negatively regulated by the Warts kinase. Here, we use Phos-tag gels to characterize Warts-dependent phosphorylation of Yki in vivo, and show that Warts promotes phosphorylation of Yki at multiple sites. We also show that Warts inhibits Yki nuclear localization in vivo, and can promote binding of Yki to 14-3-3 proteins in cultured cells. In vivo assessment of the influence of individual upstream regulators of Warts reveals that some mutants(e.g. fat) have only partial effects on Yki phosphorylation, and weak effects on Yki localization, whereas other genotypes (e.g. ex fatdouble mutants) have stronger effects on both Yki phosphorylation and localization. We also identify serine 168 as a critical site through which negative regulation of Yki by Warts-mediated phosphorylation occurs, but find that this site is not sufficient to explain effects of Hippo signaling on Yki in vivo. These results identify modulation of subcellular localization as a mechanism of Yki regulation, and establish that this regulation occurs in vivo through multiple sites of Warts-dependent phosphorylation on Yki.

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In vivo analysis of Yorkie phosphorylation sites

Irvine

2009

Oncogene

166

197

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The co-activator Yorkie (Yki) mediates transcriptional regulation effected by the Drosophila Fat-Warts (Wts)-Hippo (Hpo) pathways. Yki is inhibited by Wts-mediated phosphorylation, and a Wts phosphorylation site at Ser168 has been identified. Here we identify two additional Wts phosphorylation sites on Yki, and examine the respective contribution of all three sites to Yki nuclear localization and activity. Our results show that although Ser168 is the most critical site, all three phosphorylation sites influence Yki localization and activity in vivo, and can be sites of regulation by Wts. Thus, investigations of the role of Yki and its mammalian homolog Yesassociated protein (YAP) in development and oncogenesis should include evaluations of additional sites. The WW domains of Yki are not required for its phosphorylation, but instead are positively required for its activity. We also identify two potential sites of phosphorylation by an unknown kinase, which could influence phosphorylation of Ser168 by Wts, suggesting that there are additional mechanisms for regulating Yki/YAP activity.

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Zyxin Links Fat Signaling to the Hippo Pathway

et al. 2011

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Hyangyee Oh

In vivo regulation of Yorkie phosphorylation and localization

In vivo analysis of Yorkie phosphorylation sites

Zyxin Links Fat Signaling to the Hippo Pathway

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