SMAD4 regulates cell motility through transcription of N-cadherin in human pancreatic ductal epithelium

SMAD4 regulates cell motility through transcription of N-cadherin in human pancreatic ductal epithelium

Expression of the cellular adhesion protein N-cadherin is a critical event during epithelial-mesenchymal transition (EMT). The SMAD4 protein has been identified as a mediator of transforming growth factor-β (TGF-β) superfamily signaling, which regulates EMT, but the mechanisms linking TGF-β signalin...

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Veröffentlicht in:PloS one 2014-09, Vol.9 (9), p.e107948-e107948
Hauptverfasser: Kang, Ya'an, Ling, Jianhua, Suzuki, Rei, Roife, David, Chopin-Laly, Xavier, Truty, Mark J, Chatterjee, Deyali, Wang, Huamin, Thomas, Ryan M, Katz, Matthew H, Chiao, Paul J, Fleming, Jason B
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Base Sequence
Binding
Biology and Life Sciences
Cadherins
Cadherins - genetics
Cell adhesion & migration
Cell Line, Transformed
Cell Movement - physiology
Cellular biology
DNA Primers
Electrophoretic Mobility Shift Assay
Epithelial cells
Epithelial-Mesenchymal Transition
Epithelium
Epithelium - metabolism
Humans
Inflammation
Kinases
Mesenchyme
Metastasis
Motility
N-Cadherin
Nuclei
Oncology
Pancreas
Pancreatic cancer
Pancreatic Ducts - metabolism
Patients
Proteins
Real-Time Polymerase Chain Reaction
Signal transduction
Signaling
Smad protein
Smad4 protein
Smad4 Protein - genetics
Smad4 Protein - physiology
Telomerase
Transcription
Transcription, Genetic - physiology
Transforming growth factor-a
Transforming growth factor-b
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container_end_page e107948
container_issue 9
container_start_page e107948
container_title PloS one
container_volume 9
creator Kang, Ya'an
Ling, Jianhua
Suzuki, Rei
Roife, David
Chopin-Laly, Xavier
Truty, Mark J
Chatterjee, Deyali
Wang, Huamin
Thomas, Ryan M
Katz, Matthew H
Chiao, Paul J
Fleming, Jason B
description Expression of the cellular adhesion protein N-cadherin is a critical event during epithelial-mesenchymal transition (EMT). The SMAD4 protein has been identified as a mediator of transforming growth factor-β (TGF-β) superfamily signaling, which regulates EMT, but the mechanisms linking TGF-β signaling to N-cadherin expression remain unclear. When the TGF-β pathway is activated, SMAD proteins, including the common mediator SMAD4, are subsequently translocated into the nucleus, where they influence gene transcription via SMAD binding elements (SBEs). Here we describe a mechanism for control of CDH2, the gene encoding N-cadherin, through the canonical TGFβ-SMAD4 pathway. We first identified four previously undescribed SBEs within the CDH2 promoter. Using telomerase immortalized human pancreatic ductal epithelium, we found that TGF-β stimulation prompted specific SMAD4 binding to all four SBEs. Luciferase reporter and SMAD4-knockdown experiments demonstrated that specific SMAD4 binding to the SBE located at -3790 bp to -3795 bp within the promoter region of CDH2 was necessary for TGF-β-stimulated transcription. Expression of N-cadherin on the surface of epithelial cells facilitates motility and invasion, and we demonstrated that knockdown of SMAD4 causes decreased N-cadherin expression, which results in diminished migration and invasion of human pancreatic ductal epithelial cells. Similar reduction of cell motility was produced after CDH2 knockdown. Together, these findings suggest that SMAD4 is critical for the TGF-β-driven upregulation of N-cadherin and the resultant invasive phenotype of human pancreatic ductal epithelial cells during EMT.
doi_str_mv 10.1371/journal.pone.0107948
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The SMAD4 protein has been identified as a mediator of transforming growth factor-β (TGF-β) superfamily signaling, which regulates EMT, but the mechanisms linking TGF-β signaling to N-cadherin expression remain unclear. When the TGF-β pathway is activated, SMAD proteins, including the common mediator SMAD4, are subsequently translocated into the nucleus, where they influence gene transcription via SMAD binding elements (SBEs). Here we describe a mechanism for control of CDH2, the gene encoding N-cadherin, through the canonical TGFβ-SMAD4 pathway. We first identified four previously undescribed SBEs within the CDH2 promoter. Using telomerase immortalized human pancreatic ductal epithelium, we found that TGF-β stimulation prompted specific SMAD4 binding to all four SBEs. Luciferase reporter and SMAD4-knockdown experiments demonstrated that specific SMAD4 binding to the SBE located at -3790 bp to -3795 bp within the promoter region of CDH2 was necessary for TGF-β-stimulated transcription. Expression of N-cadherin on the surface of epithelial cells facilitates motility and invasion, and we demonstrated that knockdown of SMAD4 causes decreased N-cadherin expression, which results in diminished migration and invasion of human pancreatic ductal epithelial cells. Similar reduction of cell motility was produced after CDH2 knockdown. 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The SMAD4 protein has been identified as a mediator of transforming growth factor-β (TGF-β) superfamily signaling, which regulates EMT, but the mechanisms linking TGF-β signaling to N-cadherin expression remain unclear. When the TGF-β pathway is activated, SMAD proteins, including the common mediator SMAD4, are subsequently translocated into the nucleus, where they influence gene transcription via SMAD binding elements (SBEs). Here we describe a mechanism for control of CDH2, the gene encoding N-cadherin, through the canonical TGFβ-SMAD4 pathway. We first identified four previously undescribed SBEs within the CDH2 promoter. Using telomerase immortalized human pancreatic ductal epithelium, we found that TGF-β stimulation prompted specific SMAD4 binding to all four SBEs. Luciferase reporter and SMAD4-knockdown experiments demonstrated that specific SMAD4 binding to the SBE located at -3790 bp to -3795 bp within the promoter region of CDH2 was necessary for TGF-β-stimulated transcription. Expression of N-cadherin on the surface of epithelial cells facilitates motility and invasion, and we demonstrated that knockdown of SMAD4 causes decreased N-cadherin expression, which results in diminished migration and invasion of human pancreatic ductal epithelial cells. Similar reduction of cell motility was produced after CDH2 knockdown. Together, these findings suggest that SMAD4 is critical for the TGF-β-driven upregulation of N-cadherin and the resultant invasive phenotype of human pancreatic ductal epithelial cells during EMT.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>25264609</pmid><doi>10.1371/journal.pone.0107948</doi><oa>free_for_read</oa></addata></record>
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subjects Base Sequence
Binding
Biology and Life Sciences
Cadherins
Cadherins - genetics
Cell adhesion & migration
Cell Line, Transformed
Cell Movement - physiology
Cellular biology
DNA Primers
Electrophoretic Mobility Shift Assay
Epithelial cells
Epithelial-Mesenchymal Transition
Epithelium
Epithelium - metabolism
Humans
Inflammation
Kinases
Mesenchyme
Metastasis
Motility
N-Cadherin
Nuclei
Oncology
Pancreas
Pancreatic cancer
Pancreatic Ducts - metabolism
Patients
Proteins
Real-Time Polymerase Chain Reaction
Signal transduction
Signaling
Smad protein
Smad4 protein
Smad4 Protein - genetics
Smad4 Protein - physiology
Telomerase
Transcription
Transcription, Genetic - physiology
Transforming growth factor-a
Transforming growth factor-b
title SMAD4 regulates cell motility through transcription of N-cadherin in human pancreatic ductal epithelium
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