Axin cancer mutants form nanoaggregates to rewire the Wnt signaling network

Zeinab Anvarian, Hisashi Nojima, Eline C. Van Kappel, Tobias Madl, Maureen Spit, Martin Viertler, Ingrid Jordens, Teck Y. Low, Revina C. Van Scherpenzeel, Ineke Kuper, Klaus Richter, Albert J.R. Heck, Rolf Boelens, Jean Paul Vincent, Stefan G.D. Rüdiger, Madelon M. Maurice

Research output: Contribution to journalArticlepeer-review

30 Scopus citations

Abstract

Signaling cascades depend on scaffold proteins that regulate the assembly of multiprotein complexes. Missense mutations in scaffold proteins are frequent in human cancer, but their relevance and mode of action are poorly understood. Here we show that cancer point mutations in the scaffold protein Axin derail Wnt signaling and promote tumor growth in vivo through a gain-of-function mechanism. The effect is conserved for both the human and Drosophila proteins. Mutated Axin forms nonamyloid nanometer-scale aggregates decorated with disordered tentacles, which 'rewire' the Axin interactome. Importantly, the tumor-suppressor activity of both the human and Drosophila Axin cancer mutants is rescued by preventing aggregation of a single nonconserved segment. Our findings establish a new paradigm for misregulation of signaling in cancer and show that targeting aggregation-prone stretches in mutated scaffolds holds attractive potential for cancer treatment.

Original languageEnglish
Pages (from-to)324-332
Number of pages9
JournalNature Structural and Molecular Biology
Volume23
Issue number4
DOIs
StatePublished - 5 Apr 2016

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