Cytoskeleton remodeling induced by SMYD2 methyltransferase drives breast cancer metastasis

Author:

Casanova Alexandre G.,Roth Gael S.,Hausmann Simone,Lu Xiaoyin,Belmudes Lucid,Bourova-Flin Ekaterina,Flores Natasha M.,Benitez Ana Morales,Caporicci Marcello,Vayr Jessica,Blanchet Sandrine,Ielasi Francesco,Rousseaux Sophie,Hainaut Pierre,Gozani Or,Couté YohannORCID,Palencia Andres,Mazur Pawel K.,Reynoird Nicolas

Abstract

ABSTRACTMalignant forms of breast cancer refractory to existing therapies remain a major unmet health issue, primarily due to metastatic spread. A better understanding of the mechanisms at play will provide better insights for alternative treatments to prevent breast cancer cells dispersion. Here, we identify the lysine methyltransferase SMYD2 as a clinically actionable master regulator of breast cancer metastasis. While SMYD2 is overexpressed in aggressive breast cancers, we notice that it is not required for primary tumor growth. However, mammary-epithelium specific SMYD2 ablation increases mouse overall survival by blocking the primary tumor cells ability to metastasize. Mechanistically, we identify BCAR3 as a genuine physiological substrate of SMYD2 in breast cancer cells. BCAR3 monomethylated at lysine K334 (K334me1) is recognized by a novel methyl-binding domain present in FMNLs proteins. These actin cytoskeleton regulators are recruited at the cell edges by the SMYD2 methylation signaling and modulates lamellipodia properties. Breast cancer cells with impaired BCAR3 methylation loose migration and invasiveness capacityin vitroand are ineffective in promoting metastasesin vivo. Remarkably, SMYD2 pharmacologic inhibition efficiently impairs the metastatic spread of breast cancer cells, PDX and aggressive mammary tumors from genetically engineered mice. This study provides a rationale for innovative therapeutic prevention of malignant breast cancer metastatic progression by targeting the SMYD2-BCAR3-FMNL axis.

Publisher

Cold Spring Harbor Laboratory

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