Phosphorylations of serines 21/9 in glycogen synthase kinase 3α/β are dispensable for V600EBRAF-driven premalignant tumour development in the mouse intestine
Pooyeh Farahmand, Paulina Rzasa, Caleb Green, Fiona Hey, Susan Giblett, Hong Jin, Kevin West, Nicolas B. Sylvius, Catrin A. Pritchard, Alessandro Rufini, Divijendra Natha Sirigiri, Divijendra Natha Sirigiri, Divijendra Natha Sirigiri

TL;DR
This study shows that phosphorylation of GSK3αβ at serines 21/9 is not essential for tumor development in mice with a specific BRAF mutation in the intestine.
Contribution
The study demonstrates that GSK3αβ phosphorylation at S21/S9 is dispensable for V600EBRAF-driven tumor development in the mouse intestine.
Findings
Phosphorylation of GSK3αβ at S21/S9 has a marginal effect on crypt proliferation in the short term.
Long-term tumorigenesis and survival are unaffected by GSK3αβ S21/S9 phosphorylation mutations.
Only three genes are significantly affected by the GSK3αβ knock-in mutations.
Abstract
Valine to glutamate substitution at residue 600 of the BRAF oncogene (V600EBRAF mutation) is prevalent in human colorectal cancers with a serrated histopathology and is thought to be a founder mutation. Using a conditional knock-in mouse model we have previously demonstrated that V600EBraf drives crypt hyperplasia in the short term as well as shortened survival linked to increased tumour burden in the long-term. These phenotypes are associated with induction of gene signatures for E2F targets, MYC signalling, G2/M transition, canonical Wnt signalling, and cholesterol biosynthesis. Although these gene signatures are reverted by MEK inhibition, there remains a lack of understanding of the signalling pathways involved, particularly the mechanism of crosstalk between the MAPK and Wnt pathways. Here, we have examined a role for phosphorylation of GSK3αβ isoforms at residues S21/S9. By…
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Taxonomy
TopicsWnt/β-catenin signaling in development and cancer · Cancer Cells and Metastasis · Protein Kinase Regulation and GTPase Signaling
