Kristi Bray scite author profile

IntroductionThe Rho GTPase Cdc42 is overexpressed and hyperactivated in breast tumors compared to normal breast tissue. Cdc42 regulates key processes that are critical for mammary gland morphogenesis and become disrupted during the development, progression, and metastasis of breast cancer. However, the contribution of Cdc42 to normal and neoplastic mammary gland development in vivo remains poorly understood. We were therefore interested in investigating the effects of Cdc42 overexpression on mammary gland morphogenesis as a first step toward understanding how its overexpression may contribute to mammary tumorigenesis.MethodsWe developed a tetracycline-regulatable Cdc42 overexpression mouse model in which Cdc42 can be inducibly overexpressed in the developing mammary gland. The effects of Cdc42 overexpression during postnatal mammary gland development were investigated using in vivo and in vitro approaches, including morphometric analysis of wholemounted mammary glands, quantification of histological markers, and primary mammary epithelial cell (MEC) functional and biochemical assays.ResultsAnalysis of Cdc42-overexpressing mammary glands revealed abnormal terminal end bud (TEB) morphologies, characterized by hyperbudding and trifurcation, and increased side branching within the ductal tree. Quantification of markers of proliferation and apoptosis suggested that these phenotypes were not due to increased cell proliferation or survival. Rather, Cdc42 overexpressing MECs were more migratory and contractile and formed dysmorphic, invasive acini in three-dimensional cultures. Cdc42 and RhoA activities, phosphorylated myosin light chain, and MAPK signaling, which contribute to migration and invasion, were markedly elevated in Cdc42 overexpressing MECs. Interestingly, Cdc42 overexpressing mammary glands displayed several features associated with altered epithelial-stromal interactions, which are known to regulate branching morphogenesis. These included increased stromal thickness and collagen deposition, and stromal cells isolated from Cdc42 overexpressing mammary glands exhibited elevated mRNA expression of extracellular matrix proteins and remodeling enzymes.ConclusionsThese data suggest that Cdc42 overexpression disrupts mammary gland branching morphogenesis by altering Rho GTPase and MAPK signaling, leading to increased MEC contractility and migration in association with stromal alterations. Our studies provide insight into how aberrant Cdc42 expression may contribute to mammary tumorigenesis.

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The Rho GTPase Cdc42 is required for primary mammary epithelial cell morphogenesis in vitro

Bray¹,

Brakebusch

Vargo-Gogola

2011

Small GTPases

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P190B RhoGAP Overexpression in the Developing Mammary Epithelium Induces TGFβ-dependent Fibroblast Activation

et al. 2013

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Rho GTPases mediate stromal-epithelial interactions that are important for mammary epithelial cell (MEC) morphogenesis. Increased extracellular matrix (ECM) deposition and reorganization affect MEC morphogenesis in a Rho GTPase-dependent manner. Although the effects of altered ECM on MEC morphogenesis have been described, how MECs regulate stromal deposition is not well understood. Previously, we showed that p190B RhoGAP overexpression disrupts mammary gland morphogenesis by inducing hyperbranching in association with stromal alterations. We therefore hypothesized that MEC overexpression of p190B regulates paracrine interactions to impact fibroblast activation. Using a combination of in vivo morphometric and immunohistochemical analyses and primary cell culture assays, we found that p190B overexpression in MECs activates fibroblasts leading to increased collagen, fibronectin, and laminin production and elevated expression of the collagen crosslinking enzyme lysyl oxidase. Phosphorylation of the TGF-β effector SMAD2 and expression of the TGF-β target gene αSma were increased in p190B-associated fibroblasts, suggesting that elevated TGF-β signaling promoted fibroblast activation. Mechanical tension and TGF-β cooperate to activate fibroblasts. Interestingly, active TGF-β was elevated in conditioned medium from p190B overexpressing MECs compared to control MECs, and p190B overexpressing MECs exhibited increased contractility in a collagen gel contraction assay. These data suggest that paracrine signaling from the p190B overexpressing MECs may activate TGF-β signaling in adjacent fibroblasts. In support of this, transfer of conditioned medium from p190B overexpressing MECs onto wildtype fibroblasts or co-culture of p190B overexpressing MECs with wildtype fibroblasts increased SMAD2 phosphorylation and mRNA expression of ECM genes in the fibroblasts when compared to fibroblasts treated with control CM or co-cultured with control MECs. The increased ECM gene expression and SMAD2 phosphorylation were blocked by treatment with a TGF-β receptor inhibitor. Taken together, these data suggest that p190B overexpression in the mammary epithelium induces fibroblast activation via elevated TGF-β paracrine signaling.

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Abstract 59: Effects of Cdc42 overexpression on the developing mammary gland

Bray

Hwang

Brakebusch

et al. 2012

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The Rho GTPase Cdc42 is overexpressed and hyperactivated in human breast cancer; however, its precise role during normal mammary gland (MG) development and the stochastic process of mammary tumor formation in vivo remains unknown. We, therefore, investigated the effects of Cdc42 knockout and overexpression during mammary morphogenesis using conditional mouse models. Previously, we demonstrated that loss of Cdc42 prevents primary mammary acinus formation in a three-dimensional (3D) in vitro culture system. Defects in proliferation, survival, and polarity contributed to the aberrant phenotype. Furthermore, preliminary studies using MMTV-cre mice to conditionally delete Cdc42 in ∼30% of mammary epithelial cells (MECs) in the developing MG suggest that Cdc42 knockout MECs are outcompeted by wildtype MECs in vivo. To investigate the effects of Cdc42 overexpression on MG development, and ultimately tumorigenesis, we generated tetracycline-regulatable Cdc42 overexpressing mice. Interestingly, Cdc42 overexpression results in aberrant terminal end bud (TEB) morphogenesis, increased ductal branching, and ductal dilation, suggesting that Cdc42 overexpression increases MEC proliferation and invasion and may cause defects in cell adhesion and tight junctions. Consistent with these data, Cdc42 overexpressing MECs give rise to dysmorphic, invasive acini in 3D culture assays. Taken together, these data demonstrate that Cdc42 is a key regulator of proliferation and tissue architecture in the developing MG and suggest that Cdc42 overexpression may contribute to tumor formation by disrupting these processes. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 59. doi:1538-7445.AM2012-59

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Kristi Bray

Cdc42 overexpression induces hyperbranching in the developing mammary gland by enhancing cell migration

The Rho GTPase Cdc42 is required for primary mammary epithelial cell morphogenesis in vitro

P190B RhoGAP Overexpression in the Developing Mammary Epithelium Induces TGFβ-dependent Fibroblast Activation

Abstract 59: Effects of Cdc42 overexpression on the developing mammary gland

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