PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells

PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells

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The prion protein (PrP) plays a key role in prion disease pathogenesis. Although the misfolded and pathologic variant of this protein (PrPSC) has been studied in depth, the physiological role of PrPC remains elusive and controversial. PrPC is a cell-surface glycoprotein involved in multiple cellular functions at the plasma membrane, where it interacts with a myriad of partners and regulates several intracellular signal transduction cascades. However, little is known about the gene expression changes modulated by PrPC in animals and in cellular models. In this article, we present PrPC-dependent gene expression signature in N2a cells and its implication in the most overrepresented functions cell cycle, cell growth and proliferation, and maintenance of cell shape. PrPC over-expression enhances cell proliferation and cell cycle re-entrance after serum stimulation, while PrPC silencing slows down cell cycle progression. In addition, MAP kinase and protein kinase B (AKT) pathway activation are under the regulation of PrPC in asynchronous cells and following mitogenic stimulation. These effects are due in part to the modulation of epidermal growth factor receptor (EGFR) by PrPC in the plasma membrane, where the two proteins interact in a multimeric complex. We also describe how PrPC over-expression modulates filopodia formation by Rho GTPase regulation mainly in an AKT-Cdc42-N-WASP-dependent pathway. In this study, we analyzed the PrPC-dependent gene expression signature of neuroblastoma (N2a) cells after transient acute up-regulation and down-regulation of PrPC. We demonstrate that PrPC plays roles in proliferation and neuritogenesis through modulation of EGFR activity. This approach will give new insights into the molecular mechanisms by which PrPC regulates key cellular functions in cell physiology. In this study, we analyzed the PrPC-dependent gene expression signature of neuroblastoma (N2a) cells after transient acute up-regulation and down-regulation of PrPC. We demonstrate that PrPC plays roles in proliferation and neuritogenesis through modulation of EGFR activity. This approach will give new insights into the molecular mechanisms by which PrPC regulates key cellular functions in cell physiology. © 2013 International Society for Neurochemistry.

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Main Authors: Llorens, F., Carulla, P., Villa Díaz, Ana, Torres, J. M., Fortes, P., Ferrer, I., Del Río, J. A.
Format: artículo biblioteca
Language:English
Published: Wiley 2013
Subjects:Cell signaling, Cellular prion protein, Filopodia, Gene expression, Microarray, Proliferation,
Online Access:http://hdl.handle.net/20.500.12792/5233
http://hdl.handle.net/10261/291721
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spelling dig-inia-es-10261-2917212023-02-20T07:21:24Z PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells Llorens, F. Carulla, P. Villa Díaz, Ana Torres, J. M. Fortes, P. Ferrer, I. Del Río, J. A. Cell signaling Cellular prion protein Filopodia Gene expression Microarray Proliferation The prion protein (PrP) plays a key role in prion disease pathogenesis. Although the misfolded and pathologic variant of this protein (PrPSC) has been studied in depth, the physiological role of PrPC remains elusive and controversial. PrPC is a cell-surface glycoprotein involved in multiple cellular functions at the plasma membrane, where it interacts with a myriad of partners and regulates several intracellular signal transduction cascades. However, little is known about the gene expression changes modulated by PrPC in animals and in cellular models. In this article, we present PrPC-dependent gene expression signature in N2a cells and its implication in the most overrepresented functions cell cycle, cell growth and proliferation, and maintenance of cell shape. PrPC over-expression enhances cell proliferation and cell cycle re-entrance after serum stimulation, while PrPC silencing slows down cell cycle progression. In addition, MAP kinase and protein kinase B (AKT) pathway activation are under the regulation of PrPC in asynchronous cells and following mitogenic stimulation. These effects are due in part to the modulation of epidermal growth factor receptor (EGFR) by PrPC in the plasma membrane, where the two proteins interact in a multimeric complex. We also describe how PrPC over-expression modulates filopodia formation by Rho GTPase regulation mainly in an AKT-Cdc42-N-WASP-dependent pathway. In this study, we analyzed the PrPC-dependent gene expression signature of neuroblastoma (N2a) cells after transient acute up-regulation and down-regulation of PrPC. We demonstrate that PrPC plays roles in proliferation and neuritogenesis through modulation of EGFR activity. This approach will give new insights into the molecular mechanisms by which PrPC regulates key cellular functions in cell physiology. In this study, we analyzed the PrPC-dependent gene expression signature of neuroblastoma (N2a) cells after transient acute up-regulation and down-regulation of PrPC. We demonstrate that PrPC plays roles in proliferation and neuritogenesis through modulation of EGFR activity. This approach will give new insights into the molecular mechanisms by which PrPC regulates key cellular functions in cell physiology. © 2013 International Society for Neurochemistry. 2023-02-20T07:21:24Z 2023-02-20T07:21:24Z 2013 artículo Journal of Neurochemistr 127: 124-138 (2013) 0022-3042 http://hdl.handle.net/20.500.12792/5233 http://hdl.handle.net/10261/291721 10.1111/jnc.12283 1471-4159 en none Wiley
institution INIA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-inia-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del INIA España
language English
topic Cell signaling
Cellular prion protein
Filopodia
Gene expression
Microarray
Proliferation
Cell signaling
Cellular prion protein
Filopodia
Gene expression
Microarray
Proliferation
spellingShingle Cell signaling
Cellular prion protein
Filopodia
Gene expression
Microarray
Proliferation
Cell signaling
Cellular prion protein
Filopodia
Gene expression
Microarray
Proliferation
Llorens, F.
Carulla, P.
Villa Díaz, Ana
Torres, J. M.
Fortes, P.
Ferrer, I.
Del Río, J. A.
PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells
description The prion protein (PrP) plays a key role in prion disease pathogenesis. Although the misfolded and pathologic variant of this protein (PrPSC) has been studied in depth, the physiological role of PrPC remains elusive and controversial. PrPC is a cell-surface glycoprotein involved in multiple cellular functions at the plasma membrane, where it interacts with a myriad of partners and regulates several intracellular signal transduction cascades. However, little is known about the gene expression changes modulated by PrPC in animals and in cellular models. In this article, we present PrPC-dependent gene expression signature in N2a cells and its implication in the most overrepresented functions cell cycle, cell growth and proliferation, and maintenance of cell shape. PrPC over-expression enhances cell proliferation and cell cycle re-entrance after serum stimulation, while PrPC silencing slows down cell cycle progression. In addition, MAP kinase and protein kinase B (AKT) pathway activation are under the regulation of PrPC in asynchronous cells and following mitogenic stimulation. These effects are due in part to the modulation of epidermal growth factor receptor (EGFR) by PrPC in the plasma membrane, where the two proteins interact in a multimeric complex. We also describe how PrPC over-expression modulates filopodia formation by Rho GTPase regulation mainly in an AKT-Cdc42-N-WASP-dependent pathway. In this study, we analyzed the PrPC-dependent gene expression signature of neuroblastoma (N2a) cells after transient acute up-regulation and down-regulation of PrPC. We demonstrate that PrPC plays roles in proliferation and neuritogenesis through modulation of EGFR activity. This approach will give new insights into the molecular mechanisms by which PrPC regulates key cellular functions in cell physiology. In this study, we analyzed the PrPC-dependent gene expression signature of neuroblastoma (N2a) cells after transient acute up-regulation and down-regulation of PrPC. We demonstrate that PrPC plays roles in proliferation and neuritogenesis through modulation of EGFR activity. This approach will give new insights into the molecular mechanisms by which PrPC regulates key cellular functions in cell physiology. © 2013 International Society for Neurochemistry.
format artículo
topic_facet Cell signaling
Cellular prion protein
Filopodia
Gene expression
Microarray
Proliferation
author Llorens, F.
Carulla, P.
Villa Díaz, Ana
Torres, J. M.
Fortes, P.
Ferrer, I.
Del Río, J. A.
author_facet Llorens, F.
Carulla, P.
Villa Díaz, Ana
Torres, J. M.
Fortes, P.
Ferrer, I.
Del Río, J. A.
author_sort Llorens, F.
title PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells
title_short PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells
title_full PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells
title_fullStr PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells
title_full_unstemmed PrPC regulates epidermal growth factor receptor function and cell shape dynamics in Neuro2a cells
title_sort prpc regulates epidermal growth factor receptor function and cell shape dynamics in neuro2a cells
publisher Wiley
publishDate 2013
url http://hdl.handle.net/20.500.12792/5233
http://hdl.handle.net/10261/291721
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AT villadiazana prpcregulatesepidermalgrowthfactorreceptorfunctionandcellshapedynamicsinneuro2acells
AT torresjm prpcregulatesepidermalgrowthfactorreceptorfunctionandcellshapedynamicsinneuro2acells
AT fortesp prpcregulatesepidermalgrowthfactorreceptorfunctionandcellshapedynamicsinneuro2acells
AT ferreri prpcregulatesepidermalgrowthfactorreceptorfunctionandcellshapedynamicsinneuro2acells
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