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SGK1 Signaling Promotes Glucose Metabolism and Survival in Extracellular Matrix Detached Cells

48 Pages Posted: 16 Apr 2020 Publication Status: Published

See all articles by Joshua A. Mason

Joshua A. Mason

University of Notre Dame - Department of Biological Sciences

Jordan A. Cockfield

University of Notre Dame - Department of Biological Sciences

Daniel J. Pape

University of Notre Dame - Department of Biological Sciences

Hannah Meissner

University of Notre Dame - Department of Biological Sciences

Michael Sokolowski

University of Notre Dame - Department of Biological Sciences

Taylor C. White

University of Notre Dame - Department of Biological Sciences

Jose C. Valentin-Lopez

University of Notre Dame - Department of Biological Sciences

Juan Liu

Duke University - Department of Pharmacology and Cancer Biology

Xiaojing Liu

Duke University - Department of Pharmacology and Cancer Biology

Inmaculada Martinez-Reyes

Northwestern University - Department of Medicine

Navdeep Chandel

Northwestern University - Department of Medicine; Northwestern University - Division of Pulmonary and Critical Care Medicine

Jason W. Locasale

Duke University - Department of Pharmacology and Cancer Biology

Zachary Schafer

University of Notre Dame - Department of Biological Sciences

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Abstract

Loss of integrin-mediated attachment to extracellular matrix (ECM) proteins can trigger a variety of cellular changes that impact cell viability. Foremost among these is the activation of anoikis, caspase-mediated cell death induced by ECM-detachment. In addition to anoikis, loss of ECM-attachment causes profound alterations in cellular metabolism that can lead to anoikis-independent cell death. Here, we describe a surprising role for serum and glucocorticoid kinase-1 (SGK1) in the promotion of energy production when cells are detached. Our data demonstrate that SGK1 activation is necessary and sufficient for ATP generation during ECM-detachment and anchorage-independent growth. More specifically, SGK1 promotes a substantial elevation in glucose uptake due to elevated GLUT1 transcription. In addition, carbon flux into the pentose phosphate pathway (PPP) is necessary to accommodate elevated glucose uptake and PPP-mediated glyceraldehyde-3-phosphate (G3P) is necessary for ATP production. Thus, our data unmask SGK1 as master regulator of glucose metabolism and cell survival during ECM-detached conditions.

Keywords: SGK1, glucose metabolism, anoikis, pentose phosphate pathway, signal transduction

Suggested Citation

Mason, Joshua A. and Cockfield, Jordan A. and Pape, Daniel J. and Meissner, Hannah and Sokolowski, Michael and White, Taylor C. and Valentin-Lopez, Jose C. and Liu, Juan and Liu, Xiaojing and Martinez-Reyes, Inmaculada and Chandel, Navdeep and Locasale, Jason W. and Schafer, Zachary, SGK1 Signaling Promotes Glucose Metabolism and Survival in Extracellular Matrix Detached Cells. Available at SSRN: https://ssrn.com/abstract=3570572 or http://dx.doi.org/10.2139/ssrn.3570572
This version of the paper has not been formally peer reviewed.

Joshua A. Mason

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Jordan A. Cockfield

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Daniel J. Pape

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Hannah Meissner

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Michael Sokolowski

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Taylor C. White

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Jose C. Valentin-Lopez

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

Juan Liu

Duke University - Department of Pharmacology and Cancer Biology

Box 3813, C334 LSRC, 308 Research Drive
Durham, NC
United States

Xiaojing Liu

Duke University - Department of Pharmacology and Cancer Biology

100 Fuqua Drive
Durham, NC 27708-0204
United States

Inmaculada Martinez-Reyes

Northwestern University - Department of Medicine

United States

Navdeep Chandel

Northwestern University - Department of Medicine

Northwestern University - Division of Pulmonary and Critical Care Medicine

United States

Jason W. Locasale

Duke University - Department of Pharmacology and Cancer Biology

Box 3813, C334 LSRC, 308 Research Drive
Durham, NC
United States

Zachary Schafer (Contact Author)

University of Notre Dame - Department of Biological Sciences

South Bend, IN
United States

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