Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming

Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming

Cancer cells need to modulate the biosynthesis of membrane lipids and fatty acids to adapt themselves to an accelerated rate of cell division and survive into an extracellular environment characterised by a low pH. To gain insight this crucial survival process, we investigated the lipid composition...

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Main Authors: Lorena Urbanelli, Sandra Buratta, Mariantonia Logozzi, Nico Mitro, Krizia Sagini, Rossella Di Raimo, Donatella Caruso, Stefano Fais, Carla Emiliani
Format: Article
Language:English
Published: Taylor & Francis Group 2020-01-01
Series:Journal of Enzyme Inhibition and Medicinal Chemistry
Subjects:
phospholipid remodelling
desaturases
elongases
tumour ph
tumour microenvironment
Online Access:http://dx.doi.org/10.1080/14756366.2020.1748025
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spelling doaj-1a1850f5e0b14dcea18346177f6675a22021-07-15T13:10:32ZengTaylor & Francis GroupJournal of Enzyme Inhibition and Medicinal Chemistry1475-63661475-63742020-01-0135196397310.1080/14756366.2020.17480251748025Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogrammingLorena Urbanelli0Sandra Buratta1Mariantonia Logozzi2Nico Mitro3Krizia Sagini4Rossella Di Raimo5Donatella Caruso6Stefano Fais7Carla Emiliani8Department of Chemistry, Biology and Biotechnology, University of PerugiaDepartment of Chemistry, Biology and Biotechnology, University of PerugiaDepartment of Oncology and Molecular Medicine, National Institute of HealthDepartment of Pharmacological and Biomolecular Sciences, University of MilanDepartment of Chemistry, Biology and Biotechnology, University of PerugiaDepartment of Oncology and Molecular Medicine, National Institute of HealthDepartment of Pharmacological and Biomolecular Sciences, University of MilanDepartment of Oncology and Molecular Medicine, National Institute of HealthDepartment of Chemistry, Biology and Biotechnology, University of PerugiaCancer cells need to modulate the biosynthesis of membrane lipids and fatty acids to adapt themselves to an accelerated rate of cell division and survive into an extracellular environment characterised by a low pH. To gain insight this crucial survival process, we investigated the lipid composition of Mel 501 melanoma cells cultured at either physiological or acidic pH and observed the remodelling of phospholipids towards longer and more unsaturated acyl chains at low pH. This modification was related to changes in gene expression profile, as we observed an up-regulation of genes involved in acyl chain desaturation, elongation and transfer to phospholipids. PC3 prostate and MCF7 breast cancer cells adapted at acidic pH also demonstrated phospholipid fatty acid remodelling related to gene expression changes. Overall findings clearly indicate that low extracellular pH impresses a specific lipid signature to cells, associated with transcriptional reprogramming.http://dx.doi.org/10.1080/14756366.2020.1748025phospholipid remodellingdesaturaseselongasestumour phtumour microenvironment
collection DOAJ
language English
format Article
sources DOAJ
author Lorena Urbanelli
Sandra Buratta
Mariantonia Logozzi
Nico Mitro
Krizia Sagini
Rossella Di Raimo
Donatella Caruso
Stefano Fais
Carla Emiliani
spellingShingle Lorena Urbanelli
Sandra Buratta
Mariantonia Logozzi
Nico Mitro
Krizia Sagini
Rossella Di Raimo
Donatella Caruso
Stefano Fais
Carla Emiliani
Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
Journal of Enzyme Inhibition and Medicinal Chemistry
phospholipid remodelling
desaturases
elongases
tumour ph
tumour microenvironment
author_facet Lorena Urbanelli
Sandra Buratta
Mariantonia Logozzi
Nico Mitro
Krizia Sagini
Rossella Di Raimo
Donatella Caruso
Stefano Fais
Carla Emiliani
author_sort Lorena Urbanelli
title Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
title_short Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
title_full Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
title_fullStr Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
title_full_unstemmed Lipidomic analysis of cancer cells cultivated at acidic pH reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
title_sort lipidomic analysis of cancer cells cultivated at acidic ph reveals phospholipid fatty acids remodelling associated with transcriptional reprogramming
publisher Taylor & Francis Group
series Journal of Enzyme Inhibition and Medicinal Chemistry
issn 1475-6366
1475-6374
publishDate 2020-01-01
description Cancer cells need to modulate the biosynthesis of membrane lipids and fatty acids to adapt themselves to an accelerated rate of cell division and survive into an extracellular environment characterised by a low pH. To gain insight this crucial survival process, we investigated the lipid composition of Mel 501 melanoma cells cultured at either physiological or acidic pH and observed the remodelling of phospholipids towards longer and more unsaturated acyl chains at low pH. This modification was related to changes in gene expression profile, as we observed an up-regulation of genes involved in acyl chain desaturation, elongation and transfer to phospholipids. PC3 prostate and MCF7 breast cancer cells adapted at acidic pH also demonstrated phospholipid fatty acid remodelling related to gene expression changes. Overall findings clearly indicate that low extracellular pH impresses a specific lipid signature to cells, associated with transcriptional reprogramming.
topic phospholipid remodelling
desaturases
elongases
tumour ph
tumour microenvironment
url http://dx.doi.org/10.1080/14756366.2020.1748025
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