A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7

The complex and heterogeneous nature of hepatocellular carcinoma (HCC) hampers the identification of effective therapeutic strategies. Cancer stem cells (CSCs) represent a fraction of cells within tumors with the ability to self-renew and differentiate, and thus significantly contribute to the forma...

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Autores principales: Firtina Karagonlar, Zeynep, Akbari, Soheil, Karabicici, Mustafa, Sahin, Eren, Tercan Avci, Sanem, Ersoy, Nevin, Eren Ates, Kıvılcım, Balli, Tugsan, Karacicek, Bilge, Kaplan, Kubra Nur, Celiker, Canan, Atabey, Nese, Erdal, Esra
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7290717/
https://www.ncbi.nlm.nih.gov/pubmed/32408542
http://dx.doi.org/10.3390/cells9051198
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author Firtina Karagonlar, Zeynep
Akbari, Soheil
Karabicici, Mustafa
Sahin, Eren
Tercan Avci, Sanem
Ersoy, Nevin
Eren Ates, Kıvılcım
Balli, Tugsan
Karacicek, Bilge
Kaplan, Kubra Nur
Celiker, Canan
Atabey, Nese
Erdal, Esra
author_facet Firtina Karagonlar, Zeynep
Akbari, Soheil
Karabicici, Mustafa
Sahin, Eren
Tercan Avci, Sanem
Ersoy, Nevin
Eren Ates, Kıvılcım
Balli, Tugsan
Karacicek, Bilge
Kaplan, Kubra Nur
Celiker, Canan
Atabey, Nese
Erdal, Esra
author_sort Firtina Karagonlar, Zeynep
collection PubMed
description The complex and heterogeneous nature of hepatocellular carcinoma (HCC) hampers the identification of effective therapeutic strategies. Cancer stem cells (CSCs) represent a fraction of cells within tumors with the ability to self-renew and differentiate, and thus significantly contribute to the formation and maintenance of heterogeneous tumor mass. Increasing evidence indicates high plasticity in tumor cells, suggesting that non-CSCs could acquire stem cell properties through de-differentiation or reprogramming processes. In this paper, we reveal KLF4 as a transcription factor that can induce a CSC-like phenotype in non-CSCs through upregulating the EpCAM and E-CAD expression. Our studies indicated that KLF4 could directly bind to the promoter of EpCAM and increase the number of EpCAM(+)/CD133(+) liver cancer stem cells (LCSCs) in the HuH7 HCC cell line. When KLF4 was overexpressed in EpCAM(−)/CD133(−) non-stem cells, the expressions of hepatic stem/progenitor cell genes such as CK19, EpCAM and LGR5 were significantly increased. KLF4 overexpressing non-stem cells exhibited greater cell viability upon sorafenib treatment, while the cell migration and invasion capabilities of these cells were suppressed. Importantly, we detected an increased membranous expression and colocalization of β-CAT, E-CAD and EpCAM in the KLF4-overexpressing EpCAM(−)/CD133(−) non-stem cells, suggesting that this complex might be required for the cancer stem cell phenotype. Moreover, our in vivo xenograft studies demonstrated that with a KLF4 overexpression, EpCAM(−)/CD133(−) non-stem cells attained an in vivo tumor forming ability comparable to EpCAM(+)/CD133(+) LCSCs, and the tumor specimens from KLF4-overexpressing xenografts had increased levels of both the KLF4 and EpCAM proteins. Additionally, we identified a correlation between the KLF4 and EpCAM protein expressions in human HCC tissues independent of the tumor stage and differentiation status. Collectively, our data suggest a novel function for KLF4 in modulating the de-differentiation of tumor cells and the induction of EpCAM(+)/CD133(+) LCSCs in HuH7 HCC cells.
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spelling pubmed-72907172020-06-17 A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7 Firtina Karagonlar, Zeynep Akbari, Soheil Karabicici, Mustafa Sahin, Eren Tercan Avci, Sanem Ersoy, Nevin Eren Ates, Kıvılcım Balli, Tugsan Karacicek, Bilge Kaplan, Kubra Nur Celiker, Canan Atabey, Nese Erdal, Esra Cells Article The complex and heterogeneous nature of hepatocellular carcinoma (HCC) hampers the identification of effective therapeutic strategies. Cancer stem cells (CSCs) represent a fraction of cells within tumors with the ability to self-renew and differentiate, and thus significantly contribute to the formation and maintenance of heterogeneous tumor mass. Increasing evidence indicates high plasticity in tumor cells, suggesting that non-CSCs could acquire stem cell properties through de-differentiation or reprogramming processes. In this paper, we reveal KLF4 as a transcription factor that can induce a CSC-like phenotype in non-CSCs through upregulating the EpCAM and E-CAD expression. Our studies indicated that KLF4 could directly bind to the promoter of EpCAM and increase the number of EpCAM(+)/CD133(+) liver cancer stem cells (LCSCs) in the HuH7 HCC cell line. When KLF4 was overexpressed in EpCAM(−)/CD133(−) non-stem cells, the expressions of hepatic stem/progenitor cell genes such as CK19, EpCAM and LGR5 were significantly increased. KLF4 overexpressing non-stem cells exhibited greater cell viability upon sorafenib treatment, while the cell migration and invasion capabilities of these cells were suppressed. Importantly, we detected an increased membranous expression and colocalization of β-CAT, E-CAD and EpCAM in the KLF4-overexpressing EpCAM(−)/CD133(−) non-stem cells, suggesting that this complex might be required for the cancer stem cell phenotype. Moreover, our in vivo xenograft studies demonstrated that with a KLF4 overexpression, EpCAM(−)/CD133(−) non-stem cells attained an in vivo tumor forming ability comparable to EpCAM(+)/CD133(+) LCSCs, and the tumor specimens from KLF4-overexpressing xenografts had increased levels of both the KLF4 and EpCAM proteins. Additionally, we identified a correlation between the KLF4 and EpCAM protein expressions in human HCC tissues independent of the tumor stage and differentiation status. Collectively, our data suggest a novel function for KLF4 in modulating the de-differentiation of tumor cells and the induction of EpCAM(+)/CD133(+) LCSCs in HuH7 HCC cells. MDPI 2020-05-12 /pmc/articles/PMC7290717/ /pubmed/32408542 http://dx.doi.org/10.3390/cells9051198 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Firtina Karagonlar, Zeynep
Akbari, Soheil
Karabicici, Mustafa
Sahin, Eren
Tercan Avci, Sanem
Ersoy, Nevin
Eren Ates, Kıvılcım
Balli, Tugsan
Karacicek, Bilge
Kaplan, Kubra Nur
Celiker, Canan
Atabey, Nese
Erdal, Esra
A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7
title A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7
title_full A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7
title_fullStr A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7
title_full_unstemmed A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7
title_short A Novel Function for KLF4 in Modulating the De-Differentiation of EpCAM(−)/CD133(−) nonStem Cells into EpCAM(+)/CD133(+) Liver Cancer Stem Cells in HCC Cell Line HuH7
title_sort novel function for klf4 in modulating the de-differentiation of epcam(−)/cd133(−) nonstem cells into epcam(+)/cd133(+) liver cancer stem cells in hcc cell line huh7
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7290717/
https://www.ncbi.nlm.nih.gov/pubmed/32408542
http://dx.doi.org/10.3390/cells9051198
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