Asparagine synthetase regulates lung-cancer metastasis by stabilizing the β-catenin complex and modulating mitochondrial response

The availability of asparagine is the limitation of cell growth and metastasis. Asparagine synthetase (ASNS) was an essential enzyme for endogenous asparagine products. In our study, ASNS-induced asparagine products were essential to maintain tumor growth and colony formations in vitro. But mutated ASNS which defected endogenous asparagine products still upregulated cell invasiveness, which indicated that ASNS promoted invasiveness by alternative pathways. Mechanically, ASNS modulated Wnt signal transduction by promoting GSK3β phosphorylation on ser9 and stabilizing the β-catenin complex, as result, ASNS could promote more β-catenin translocation into nucleus independent of endogenous asparagine. At the same time, ASNS modulated mitochondrial response to Wnt stimuli with increased mitochondrial potential and membrane fusion. In summary, ASNS promoted metastasis depending on Wnt pathway and mitochondrial functions even without endogenous asparagine products.Subject terms: Non-small-cell lung cancer, Cell invasion, Hydrolases

In the Wnt pathway, phosphorylation of GSK3β(S9) is very important to stabilize β-catenin complex, ASNS can upregulate phosphorylation of AKT on Ser473, then promote GSK3β phosphorylation on Ser9 to stabilize β-catenin complex. When Wnt pathway is activated, ASNS elevates p-DRP1(637) and decreases p-DRP1(616) to suppress mitochondrial fission.