Strong fascin expression promotes metastasis independent of its F-actin bundling activity.

Marina Mikhaylova,Jasmin Wellbrock,Sabine Windhorst,Yuan-Na Lin,Harriet Wikman,Johanna Schiewek,Stefanie Muhs,Tobias Lange,Marcus Nalaskowski,Lisa S Heinz,Leticia Oliveira-Ferrer,Saskia Grüb,Anja Konietzny

doi:10.18632/oncotarget.22249

Marina Mikhaylova, Jasmin Wellbrock + Show 11 more

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https://doi.org/10.18632/oncotarget.22249

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Abstract

High expression of the actin bundling protein Fascin increases the malignancy of tumor cells. Here we show that fascin expression is up-regulated in more malignant sub-cell lines of MDA-MB-231 cells as compared to parental cells. Since also parental MDA-MB-231 cells exhibit high fascin levels, increased fascin expression was termed as “hyperexpression”. To examine the effect of fascin hyperexpression, fascin was hyperexpressed in parental MDA-MB-231 cells and metastasis was analyzed in NOD scid gamma (NSG) mice. In addition, the effect of fascin mutants with inactive or constitutively active actin bundling activity was examined. Unexpectedly, we found that hyperexpression of both, wildtype (wt) and mutant fascin strongly increased metastasis in vivo, showing that the effect of fascin hyperexpression did not depend on its actin bundling activity. Cellular assays revealed that hyperexpression of wt and mutant fascin increased adhesion of MDA-MB-231 cells while transmigration and proliferation were not affected. Since it has been shown that fascin controls adhesion by directly interacting with microtubules (MTs), we analyzed if fascin hyperexpression affects MT dynamics. We found that at high concentrations fascin significantly increased MT dynamics in cells and in cell-free approaches. In summary our data show that strong expression of fascin in breast cancer cells increases metastasis independent of its actin bundling activity. Thus, it seems that the mechanism of fascin-stimulated metastasis depends on its concentration.

Highlights

Proteins regulating the cytoskeleton are very promising targets for therapy because they are essential to regulate morphological changes associated with tumor cell metastasis
Since cytoskeletal arrangements are required for metastatic spread, we analyzed whether mRNA levels of actin-associated proteins are altered in MDA-MB-231-BR and MDA-MB-231-SA cells as compared to the parental cell line. cDNA microarray data showed that the level of most actin-associated proteins were similar between parental and MDA-MB-231-BR and MDA-MB-231-SA cells
Thereby, we found that fascin was the only actin-associated protein examined whose expression was up-regulated in both MDAMB-231-SA and MDA-MB-231-BR cells

Summary

Introduction

Proteins regulating the cytoskeleton are very promising targets for therapy because they are essential to regulate morphological changes associated with tumor cell metastasis. Expression of the actin bundling protein fascin is up-regulated in many tumor types (reviewed in [1]) and it has been shown that this up-regulated fascin expression is associated with increased risk of mortality in breast, colorectal and gastric cancer [2]. Different groups [3, 4] revealed that direct inhibition of the actin bundling activity of fascin in malignant breast cancer cells had the same metastasissuppressing effect as its down-regulation. It seems that the actin bundling activity of fascin accounts for its metastasis-promoting activity. The actin bundling activity of fascin is essential for the formation of filopodia [5] and is needed for actin stabilization in invadopodia [6], indicating that fascin promotes metastasis by stabilizing cellular protrusions essential for adhesion and invasion

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