Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.

Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.

Ovarian cancer is the most lethal gynecological cancer, with over 200,000 women diagnosed each year and over half of those cases leading to death. These poor statistics are related to a lack of early symptoms and inadequate screening techniques. This results in the cancer going undetected until late...

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Main Authors: Trillitye Paullin, Chase Powell, Christopher Menzie, Robert Hill, Feng Cheng, Christopher J Martyniuk, Sandy D Westerheide
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5549971?pdf=render
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spelling doaj-dec39571b27b40abafc008cc4c9d664f2020-11-25T01:46:37ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01128e018293010.1371/journal.pone.0182930Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.Trillitye PaullinChase PowellChristopher MenzieRobert HillFeng ChengChristopher J MartyniukSandy D WesterheideOvarian cancer is the most lethal gynecological cancer, with over 200,000 women diagnosed each year and over half of those cases leading to death. These poor statistics are related to a lack of early symptoms and inadequate screening techniques. This results in the cancer going undetected until later stages when the tumor has metastasized through a process that requires the epithelial to mesenchymal transition (EMT). In lieu of traditional monolayer cell culture, EMT and cancer progression in general is best characterized through the use of 3D spheroid models. In this study, we examine gene expression changes through microarray analysis in spheroid versus monolayer ovarian cancer cells treated with TGFβ to induce EMT. Transcripts that included Coiled-Coil Domain Containing 80 (CCDC80), Solute Carrier Family 6 (Neutral Amino Acid Transporter), Member 15 (SLC6A15), Semaphorin 3E (SEMA3E) and PIF1 5'-To-3' DNA Helicase (PIF1) were downregulated more than 10-fold in the 3D cells while Inhibitor Of DNA Binding 2, HLH Protein (ID2), Regulator Of Cell Cycle (RGCC), Protease, Serine 35 (PRSS35), and Aldo-Keto Reductase Family 1, Member C1 (AKR1C1) were increased more than 50-fold. Interestingly, EMT factors, stress responses and epigenetic processes were significantly affected by 3D growth. The heat shock response and the oxidative stress response were also identified as transcriptome responses that showed significant changes upon 3D growth. Subnetwork enrichment analysis revealed that DNA integrity (e.g. DNA damage, genetic instability, nucleotide excision repair, and the DNA damage checkpoint pathway) were altered in the 3D spheroid model. In addition, two epigenetic processes, DNA methylation and histone acetylation, were increased with 3D growth. These findings support the hypothesis that three dimensional ovarian cell culturing is physiologically different from its monolayer counterpart.http://europepmc.org/articles/PMC5549971?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Trillitye Paullin
Chase Powell
Christopher Menzie
Robert Hill
Feng Cheng
Christopher J Martyniuk
Sandy D Westerheide
spellingShingle Trillitye Paullin
Chase Powell
Christopher Menzie
Robert Hill
Feng Cheng
Christopher J Martyniuk
Sandy D Westerheide
Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
PLoS ONE
author_facet Trillitye Paullin
Chase Powell
Christopher Menzie
Robert Hill
Feng Cheng
Christopher J Martyniuk
Sandy D Westerheide
author_sort Trillitye Paullin
title Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
title_short Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
title_full Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
title_fullStr Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
title_full_unstemmed Spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
title_sort spheroid growth in ovarian cancer alters transcriptome responses for stress pathways and epigenetic responses.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description Ovarian cancer is the most lethal gynecological cancer, with over 200,000 women diagnosed each year and over half of those cases leading to death. These poor statistics are related to a lack of early symptoms and inadequate screening techniques. This results in the cancer going undetected until later stages when the tumor has metastasized through a process that requires the epithelial to mesenchymal transition (EMT). In lieu of traditional monolayer cell culture, EMT and cancer progression in general is best characterized through the use of 3D spheroid models. In this study, we examine gene expression changes through microarray analysis in spheroid versus monolayer ovarian cancer cells treated with TGFβ to induce EMT. Transcripts that included Coiled-Coil Domain Containing 80 (CCDC80), Solute Carrier Family 6 (Neutral Amino Acid Transporter), Member 15 (SLC6A15), Semaphorin 3E (SEMA3E) and PIF1 5'-To-3' DNA Helicase (PIF1) were downregulated more than 10-fold in the 3D cells while Inhibitor Of DNA Binding 2, HLH Protein (ID2), Regulator Of Cell Cycle (RGCC), Protease, Serine 35 (PRSS35), and Aldo-Keto Reductase Family 1, Member C1 (AKR1C1) were increased more than 50-fold. Interestingly, EMT factors, stress responses and epigenetic processes were significantly affected by 3D growth. The heat shock response and the oxidative stress response were also identified as transcriptome responses that showed significant changes upon 3D growth. Subnetwork enrichment analysis revealed that DNA integrity (e.g. DNA damage, genetic instability, nucleotide excision repair, and the DNA damage checkpoint pathway) were altered in the 3D spheroid model. In addition, two epigenetic processes, DNA methylation and histone acetylation, were increased with 3D growth. These findings support the hypothesis that three dimensional ovarian cell culturing is physiologically different from its monolayer counterpart.
url http://europepmc.org/articles/PMC5549971?pdf=render
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