Vav1 downmodulates Akt in different breast cancer subtypes: a new promising chance to improve breast cancer outcome.

Silvia Grassilli,Federica Brugnoli,Alberto Bavelloni,Mauro Piantelli,Letizia Perracchio,Marco Marchisio,Silvano Capitani,Rossano Lattanzio,Valeria Bertagnolo

doi:10.1002/1878-0261.12203

Silvia Grassilli, Federica Brugnoli + Show 7 more

Open Access

https://doi.org/10.1002/1878-0261.12203

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Abstract

Targeting different members of the Akt pathways is a promising therapeutic chance in solid tumors including breast cancer. The variable expression levels of Akt isoforms with opposite effects on tumor growth and metastasis, however, make it difficult to select the inhibitors to be used for specific breast tumor subtypes. Using in vitro and in vivo models, we demonstrated here that Vav1, ectopically expressed in invasive breast tumors derived cells, downmodulates Akt acting at expression and/or activation levels depending on tumor subtype. The decreased p‐Akt1 (Ser473) levels are a common effect of Vav1 upmodulation, suggesting that, in breast tumor‐derived cells and independently of their phenotype, Vav1 interferes with signaling pathways ended to specifically recruit Akt1. Only in ER‐negative cell lines, the silencing of Vav1 induced the expression but not the activation of Akt2. A retrospective analysis of early invasive breast tumors allowed to establish the prognostic significance of the p‐Akt/Vav1 relationship. In particular, low Vav1 levels negatively influence the follow‐up of patients with low p‐Akt in their primary tumors and subjected to adjuvant chemotherapy. As the use of specific or pan Akt inhibitors may not be sufficient or may even be detrimental, increasing the levels of Vav1 could be a new approach to improve breast cancer outcomes. This might be particularly relevant for tumors with a triple‐negative phenotype, for which target‐based therapies are not currently available.

Highlights

The multidomain protein Vav1 is physiologically expressed solely in the hematopoietic system in which it participates to cytoskeleton reorganization and gene transcription (Romero and Fischer, 1996; Tybulewicz, 2005)
Once established that Vav1 modulates the activation of Akt1 in breast tumor-derived cells, we investigated the association between the Vav1/p-Akt (Ser473) levels and the clinical outcome of breast cancer patients
We firstly investigated the role of Vav1 in regulating Akt1 in triple-negative breast cancers (TNBC)-derived MDA-MB231 cells, confirming our previous data indicating that the forced modulation of Vav1 is unable to affect the expression of Akt1 (Grassilli et al, 2014)

Summary

Introduction

The multidomain protein Vav is physiologically expressed solely in the hematopoietic system in which it participates to cytoskeleton reorganization and gene transcription (Romero and Fischer, 1996; Tybulewicz, 2005). Vav downregulates Akt in breast cancer (Bartolome et al, 2006; Fernandez-Zapico et al, 2005; Hornstein et al, 2003; Lazer et al, 2009; Qi et al, 2015; Wakahashi et al, 2013; Zhu et al, 2017), in which this protein is involved in signal transduction processes correlated with tumor phenotype (Fernandez-Zapico et al, 2005; Qi et al, 2015; Zhu et al, 2017). In early-stage invasive breast tumors, high levels of nuclear Vav were positively correlated with low risk of relapse, constituting a positive prognostic factor independent of molecular subtypes. The upmodulation of Vav in invasive breast tumor-derived cells reduced their invasiveness in vitro and their metastatic efficiency in vivo (Grassilli et al, 2014)

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