Afadin loss induces breast cancer metastasis through destabilisation of E-cadherin to F-actin linkage
Publication date
2025-05
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Abstract
Afadin is a multimodal scaffolding protein with essential functions in cell–cell adhesion. Although its loss of expression has been linked to breast cancer invasion and metastasis, the underlying mechanisms driving tumour progression upon mutational Afadin (AFDN) loss in breast cancers remains unclear. In the current study we identified a somatic frameshift AFDN mutation (p.Lys630fs) in an invasive breast cancer sample that coincides with loss of Afadin protein expression. Functional studies in E-cadherin-expressing breast cancer cells show that Afadin loss leads to immature and aberrant adherens junction (AJ) formation. The lack of AJ maturation results in a noncohesive cellular phenotype accompanied by Actomyosin-dependent anoikis resistance, which are classical progression hallmarks of single-cell breast cancer invasion. Reconstitution experiments using Afadin truncates show that proper F-actin organisation and epithelial cell–cell adhesion critically depend on the Coiled-Coil domain of Afadin but not on the designated C-terminal F-actin binding domain. Mouse xenograft experiments based on cell lines and primary patient-derived breast cancer organoids demonstrate that Afadin loss induces single-cell lobular-type invasion phenotypes and overt dissemination to the lungs and the peritoneum. In short, Afadin is a metastasis suppressor for breast cancer through stabilisation and maturation of a mechanical E-cadherin to F-actin outside-in link.
Keywords
Afadin, E-cadherin, adherens junction, metastatic breast cancer, Pathology and Forensic Medicine
Citation
Rätze, M A, Enserink, L N, Ishiyama, N, van Kempen, S, Veltman, C H, Nijman, I J, Haakma, W E, Caldas, C, Bernards, R, van Diest, P J, Christgen, M, Koorman, T & Derksen, P W 2025, 'Afadin loss induces breast cancer metastasis through destabilisation of E-cadherin to F-actin linkage', Journal of Pathology, vol. 266, no. 1, pp. 26-39. https://doi.org/10.1002/path.6394