Dual regulation of Snail by GSK-3β-mediated phosphorylation in control of epithelial–mesenchymal transition

BP Zhou, J Deng, W Xia, J Xu, YM Li, M Gunduz… - Nature cell …, 2004 - nature.com
BP Zhou, J Deng, W Xia, J Xu, YM Li, M Gunduz, MC Hung
Nature cell biology, 2004nature.com
The phenotypic changes of increased motility and invasiveness of cancer cells are
reminiscent of the epithelial–mesenchymal transition (EMT) that occurs during embryonic
development. Snail, a zinc-finger transcription factor, triggers this process by repressing E-
cadherin expression; however, the mechanisms that regulate Snail remain elusive. Here we
find that Snail is highly unstable, with a short half-life about 25 min. We show that GSK-3β
binds to and phosphorylates Snail at two consensus motifs to dually regulate the function of …
Abstract
The phenotypic changes of increased motility and invasiveness of cancer cells are reminiscent of the epithelial–mesenchymal transition (EMT) that occurs during embryonic development. Snail, a zinc-finger transcription factor, triggers this process by repressing E-cadherin expression; however, the mechanisms that regulate Snail remain elusive. Here we find that Snail is highly unstable, with a short half-life about 25 min. We show that GSK-3β binds to and phosphorylates Snail at two consensus motifs to dually regulate the function of this protein. Phosphorylation of the first motif regulates its β-Trcp-mediated ubiquitination, whereas phosphorylation of the second motif controls its subcellular localization. A variant of Snail (Snail-6SA), which abolishes these phosphorylations, is much more stable and resides exclusively in the nucleus to induce EMT. Furthermore, inhibition of GSK-3β results in the upregulation of Snail and downregulation of E-cadherin in vivo. Thus, Snail and GSK-3β together function as a molecular switch for many signalling pathways that lead to EMT.
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