Andrew D. Hauser scite author profile

During metastasis, cancer cells acquire the ability to dissociate from each other and migrate, which is recapitulated in vitro as cell scattering. The small guanosine triphosphatase (GTPase) Rap1 opposes cell scattering by promoting cell-cell adhesion, a function that requires its prenylation, or posttranslational modification with a C-terminal isoprenoid moiety, to enable its localization at cell membranes. Thus, signaling cascades that regulate the prenylation of Rap1 offer a mechanism to control the membrane localization of Rap1. Here, we identified a signaling cascade initiated by adenosine A2B receptors that suppressed the prenylation of Rap1B through phosphorylation of Rap1B, which decreased its interaction with the chaperone protein SmgGDS (small G-protein dissociation stimulator). These events promoted the cytosolic and nuclear accumulation of non-prenylated Rap1B and diminished cell-cell adhesion, resulting in cell scattering. We found that non-prenylated Rap1 was more abundant in mammary tumors than in normal mammary tissue in rats, and that activation of adenosine receptors delayed Rap1B prenylation in breast, lung, and pancreatic cancer cell lines. Our findings support a model in which high concentrations of extracellular adenosine, such as those that arise in the tumor microenvironment, can chronically activate A2B receptors to suppress Rap1B prenylation and signaling at the cell membrane, resulting in reduced cell-cell contact and promoting cell scattering. Inhibiting A2B receptors may be an effective method to prevent metastasis.

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Plasma membrane V-ATPase controls oncogenic RAS-induced macropinocytosis

Ramirez

Hauser

Vucic

et al. 2019

Nature

133

111

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Oncogenic activation of Ras is associated with the acquisition of a unique set of metabolic dependencies that contribute to tumor cell fitness. Mutant Ras cells are endowed with the capability to internalize and degrade extracellular protein via a fluid-phase uptake mechanism termed macropinocytosis 1 . There is a growing appreciation for the role of this Ras-dependent process in the generation of free amino acids that can be used to support tumor cell growth under nutrient limiting conditions 2 . However, little is known about the molecular steps that mediate the induction of macropinocytosis by oncogenic Ras. Here we identify vacuolar ATPase (v-ATPase) as an essential regulator of Ras-induced macropinocytosis. Oncogenic Ras promotes the translocation of v-ATPase from intracellular membranes to the plasma membrane (PM) via a pathway that requires protein kinase A (PKA) activation by a bicarbonate-dependent soluble adenylate cyclase (sAC). PM accumulation of v-ATPase is necessary for the cholesterol-dependent association of Rac1 with the PM, a prerequisite for the stimulation of membrane ruffling and macropinocytosis. These observations identify a link between v-ATPase trafficking and nutrient supply by macropinocytosis that could be exploited to curtail the metabolic adaptation capacity of mutant Ras tumor cells.To identify essential mediators of Ras-driven macropinocytosis, we conducted a full genome siRNA screen using a microscopy-based high-throughput assay in which oncogenic HRas (HRasV12)-dependent induction of macropinocytosis in HeLa cells is measured by uptake Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms

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The role of Rac1 in the regulation of NF-kB activity, cell proliferation, and cell migration in non-small cell lung carcinoma

Gastonguay

Berg

Hauser

et al. 2012

Cancer Biology & Therapy

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The SmgGDS Splice Variant SmgGDS-558 Is a Key Promoter of Tumor Growth and RhoA Signaling in Breast Cancer

Hauser

Bergom

Schuld

et al. 2014

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Breast cancer malignancy is promoted by the small GTPases RhoA and RhoC. SmgGDS is a guanine nucleotide exchange factor that activates RhoA and RhoC in vitro. We previously reported that two splice variants of SmgGDS, SmgGDS-607 and SmgGDS-558, have different characteristics in binding and transport of small GTPases. To define the role of SmgGDS in breast cancer, we tested the expression of SmgGDS in breast tumors, and the role of each splice variant in proliferation, tumor growth, Rho activation, and NF-κB transcriptional activity in breast cancer cells. We show upregulated SmgGDS protein expression in breast cancer samples compared to normal breast tissue. Additionally, Kaplan-Meier survival curves indicated that patients with high SmgGDS expression in their tumors had worse clinical outcomes. Knockdown of SmgGDS-558, but not SmgGDS-607, in breast cancer cells decreased proliferation, in vivo tumor growth, and RhoA activity. Futhermore, we found that SmgGDS promoted a Rho-dependent activation of the transcription factor NF-κB, which provides a potential mechanism to define how SmgGDS-mediated activation of RhoA promotes breast cancer. This study demonstrates that elevated SmgGDS expression in breast tumors correlates with poor survival, and that SmgGDS-558 plays a functional role in breast cancer malignancy. Taken together, these findings define SmgGDS-558 as a unique promoter of RhoA and NF-κB activity and a novel therapeutic target in breast cancer.

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The Chaperone Protein SmgGDS Interacts with Small GTPases Entering the Prenylation Pathway by Recognizing the Last Amino Acid in the CAAX Motif

Schuld

Vervacke

Lorimer

et al. 2014

Journal of Biological Chemistry

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Background: SmgGDS-607 and SmgGDS-558 regulate GTPase movement through the prenylation pathway. Results: The specificity of SmgGDS for GTPases depends on the GTPase CAAX sequence and the cellular context. Conclusion: SmgGDS-607 binds to nonprenylated GTPases that end in a leucine and enter the geranylgeranylation pathway. Significance: The identification of SmgGDS-607 as a novel CAAX-binding protein will accelerate the development of more effective cancer therapeutics.

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Andrew D. Hauser

An Adenosine-Mediated Signaling Pathway Suppresses Prenylation of the GTPase Rap1B and Promotes Cell Scattering

Plasma membrane V-ATPase controls oncogenic RAS-induced macropinocytosis

The role of Rac1 in the regulation of NF-kB activity, cell proliferation, and cell migration in non-small cell lung carcinoma

The SmgGDS Splice Variant SmgGDS-558 Is a Key Promoter of Tumor Growth and RhoA Signaling in Breast Cancer

The Chaperone Protein SmgGDS Interacts with Small GTPases Entering the Prenylation Pathway by Recognizing the Last Amino Acid in the CAAX Motif

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