Wnt and beyond Wnt: multiple mechanisms control the transcriptional property of β-catenin

T Jin, IG Fantus, J Sun - Cellular signalling, 2008 - Elsevier
Cellular signalling, 2008Elsevier
The bipartite transcription factor β-catenin/TCF (cat/TCF) has been recognized as the major
effector of the Wnt signaling pathway for more than a decade, and its over-activation has
been associated with malignancy such as colon and breast cancer. Extensive examination
in different cell lineages has shown that the activity of cat/TCF can be stimulated by
mechanisms other than via the Wnt glycoproteins, including the stimulation of β-cat nuclear
translocation and enhanced binding of cat/TCF to the Wnt target gene promoters by insulin …
The bipartite transcription factor β-catenin/TCF (cat/TCF) has been recognized as the major effector of the Wnt signaling pathway for more than a decade, and its over-activation has been associated with malignancy such as colon and breast cancer. Extensive examination in different cell lineages has shown that the activity of cat/TCF can be stimulated by mechanisms other than via the Wnt glycoproteins, including the stimulation of β-cat nuclear translocation and enhanced binding of cat/TCF to the Wnt target gene promoters by insulin and insulin-like growth factor-1 (IGF-1). In addition, the heterotrimeric G proteins of the G12 subfamily can interact with the cytoplasmic domain of cadherins, resulting in the release of the transcriptional activator β-cat. Furthermore, certain peptide hormones may stimulate cat/TCF-mediated gene transcription via activation of their corresponding G-protein coupled receptors. Recently, the serine/threonine kinase GSK-3 has been recognized to coordinate with AMP activated protein kinase (AMPK) in phosphorylation and activation of TSC2, the major component of the tumor suppressor complex TSC1/2. Thus, Wnt activation can stimulate protein translation via GSK-3 and TSC1/2 inactivation, followed by mTOR activation. Finally, β-cat also functions as a pivotal molecule in defense against oxidative stress via serving as a partner of forkhead box O (FOXO) transcription factors. Thus, FOXO proteins, which mainly mediate aging and stress signaling, and TCF factors, which mainly mediate developmental and proliferation signaling, compete for a limited pool of free β-cat. Insulin and growth factors, on the other hand, control the balance between TCF- and FOXO-mediated gene transcription via phosphorylation and nuclear exclusion of FOXO proteins. These observations provide new insight to understand how Wnt, insulin/growth factors, and FOXOs are involved in versatile physiological events and the development and progression of various human diseases.
Elsevier