A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress

Hypoxia is associated with several diseases, including cancer. Cells that are deprived of adequate oxygen supply trigger transcriptional and post-transcriptional responses, which control cellular pathways such as angiogenesis, proliferation, and metabolic adaptation. Circular RNAs (circRNAs) are a n...

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Autores principales: Di Liddo, Antonella, de Oliveira Freitas Machado, Camila, Fischer, Sandra, Ebersberger, Stefanie, Heumüller, Andreas W, Weigand, Julia E, Müller-McNicoll, Michaela, Zarnack, Kathi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6884703/
https://www.ncbi.nlm.nih.gov/pubmed/31560396
http://dx.doi.org/10.1093/jmcb/mjz094
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author Di Liddo, Antonella
de Oliveira Freitas Machado, Camila
Fischer, Sandra
Ebersberger, Stefanie
Heumüller, Andreas W
Weigand, Julia E
Müller-McNicoll, Michaela
Zarnack, Kathi
author_facet Di Liddo, Antonella
de Oliveira Freitas Machado, Camila
Fischer, Sandra
Ebersberger, Stefanie
Heumüller, Andreas W
Weigand, Julia E
Müller-McNicoll, Michaela
Zarnack, Kathi
author_sort Di Liddo, Antonella
collection PubMed
description Hypoxia is associated with several diseases, including cancer. Cells that are deprived of adequate oxygen supply trigger transcriptional and post-transcriptional responses, which control cellular pathways such as angiogenesis, proliferation, and metabolic adaptation. Circular RNAs (circRNAs) are a novel class of mainly non-coding RNAs, which have been implicated in multiple cancers and attract increasing attention as potential biomarkers. Here, we characterize the circRNA signatures of three different cancer cell lines from cervical (HeLa), breast (MCF-7), and lung (A549) cancer under hypoxia. In order to reliably detect circRNAs, we integrate available tools with custom approaches for quantification and statistical analysis. Using this consolidated computational pipeline, we identify ~12000 circRNAs in the three cancer cell lines. Their molecular characteristics point to an involvement of complementary RNA sequences as well as trans-acting factors in circRNA biogenesis, such as the RNA-binding protein HNRNPC. Notably, we detect a number of circRNAs that are more abundant than their linear counterparts. In addition, 64 circRNAs significantly change in abundance upon hypoxia, in most cases in a cell type-specific manner. In summary, we present a comparative circRNA profiling in human cancer cell lines, which promises novel insights into the biogenesis and function of circRNAs under hypoxic stress.
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spelling pubmed-68847032019-12-05 A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress Di Liddo, Antonella de Oliveira Freitas Machado, Camila Fischer, Sandra Ebersberger, Stefanie Heumüller, Andreas W Weigand, Julia E Müller-McNicoll, Michaela Zarnack, Kathi J Mol Cell Biol Article Hypoxia is associated with several diseases, including cancer. Cells that are deprived of adequate oxygen supply trigger transcriptional and post-transcriptional responses, which control cellular pathways such as angiogenesis, proliferation, and metabolic adaptation. Circular RNAs (circRNAs) are a novel class of mainly non-coding RNAs, which have been implicated in multiple cancers and attract increasing attention as potential biomarkers. Here, we characterize the circRNA signatures of three different cancer cell lines from cervical (HeLa), breast (MCF-7), and lung (A549) cancer under hypoxia. In order to reliably detect circRNAs, we integrate available tools with custom approaches for quantification and statistical analysis. Using this consolidated computational pipeline, we identify ~12000 circRNAs in the three cancer cell lines. Their molecular characteristics point to an involvement of complementary RNA sequences as well as trans-acting factors in circRNA biogenesis, such as the RNA-binding protein HNRNPC. Notably, we detect a number of circRNAs that are more abundant than their linear counterparts. In addition, 64 circRNAs significantly change in abundance upon hypoxia, in most cases in a cell type-specific manner. In summary, we present a comparative circRNA profiling in human cancer cell lines, which promises novel insights into the biogenesis and function of circRNAs under hypoxic stress. Oxford University Press 2019-09-27 /pmc/articles/PMC6884703/ /pubmed/31560396 http://dx.doi.org/10.1093/jmcb/mjz094 Text en © The Author(s) (2019). Published by Oxford University Press on behalf of Journal of Molecular Cell Biology, IBCB, SIBS, CAS. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Article
Di Liddo, Antonella
de Oliveira Freitas Machado, Camila
Fischer, Sandra
Ebersberger, Stefanie
Heumüller, Andreas W
Weigand, Julia E
Müller-McNicoll, Michaela
Zarnack, Kathi
A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress
title A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress
title_full A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress
title_fullStr A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress
title_full_unstemmed A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress
title_short A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress
title_sort combined computational pipeline to detect circular rnas in human cancer cells under hypoxic stress
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6884703/
https://www.ncbi.nlm.nih.gov/pubmed/31560396
http://dx.doi.org/10.1093/jmcb/mjz094
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