Abstract
Mutations in the adenomatous polyposis coli (APC) tumor suppressor gene strongly predispose to
development of gastro-intestinal tumors. Central to the tumorigenic events in APC mutant cells is the uncontrolled
stabilization and transcriptional activation of the protein b-catenin. Many questions remain as to how APC controls bcatenin
degradation. Remarkably, the large C-terminal region of APC, which spans over 2000 amino acids and includes
critical regions in downregulating b-catenin, is predicted to be natively unfolded. Here we discuss how this uncommonly
large disordered region may help to coordinate the multiple cellular functions of APC. Recently, a significant number of
germline and somatic missense mutations in the central region of APC were linked to tumorigenesis in the colon as well
as extra-intestinal tissues. We classify and localize all currently known missense mutations in the APC structure. The
molecular basis by which these mutations interfere with the function of APC remains unresolved. We propose several
mechanisms by which cancer-related missense mutations in the large disordered domain of APC may interfere with
tumor suppressor activity. Insight in the underlying molecular events will be invaluable in the development of novel
strategies to counter dysregulated Wnt signaling by APC mutations in cancer.
Original language | English |
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Pages (from-to) | 101/1-101/9 |
Number of pages | 9 |
Journal | Molecular Cancer |
Volume | 10 |
Publication status | Published - 2011 |