STRIPAK components determine mode of cancer cell migration and metastasis

CD Madsen, S Hooper, M Tozluoglu, A Bruckbauer… - Nature cell …, 2015 - nature.com
CD Madsen, S Hooper, M Tozluoglu, A Bruckbauer, G Fletcher, JT Erler, PA Bates
Nature cell biology, 2015nature.com
The contractile actomyosin cytoskeleton and its connection to the plasma membrane are
critical for control of cell shape and migration. We identify three STRIPAK complex
components, FAM40A, FAM40B and STRN3, as regulators of the actomyosin cortex. We
show that FAM40A negatively regulates the MST3 and MST4 kinases, which promote the co-
localization of the contractile actomyosin machinery with the Ezrin/Radixin/Moesin family
proteins by phosphorylating the inhibitors of PPP1CB, PPP1R14A–D. Using computational …
Abstract
The contractile actomyosin cytoskeleton and its connection to the plasma membrane are critical for control of cell shape and migration. We identify three STRIPAK complex components, FAM40A, FAM40B and STRN3, as regulators of the actomyosin cortex. We show that FAM40A negatively regulates the MST3 and MST4 kinases, which promote the co-localization of the contractile actomyosin machinery with the Ezrin/Radixin/Moesin family proteins by phosphorylating the inhibitors of PPP1CB, PPP1R14A–D. Using computational modelling, in vitro cell migration assays and in vivo breast cancer metastasis assays we demonstrate that co-localization of contractile activity and actin–plasma membrane linkage reduces cell speed on planar surfaces, but favours migration in confined environments similar to those observed in vivo. We further show that FAM40B mutations found in human tumours uncouple it from PP2A and enable it to drive a contractile phenotype, which may underlie its role in human cancer.
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