Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.

Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.

Adipose stem cells (ASCs) are an appealing source of cells for therapeutic intervention; however, the environment from which ASCs are isolated may impact their usefulness. Using a range of functional assays, we have evaluated whether ASCs isolated from an obese environment are comparable to cells fr...

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Main Authors: Laura M Pérez, Aurora Bernal, Beatriz de Lucas, Nuria San Martin, Annalaura Mastrangelo, Antonia García, Coral Barbas, Beatriz G Gálvez
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4395137?pdf=render
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spelling doaj-efb40bcb0831400bb98963f41bdfaf082020-11-25T01:26:59ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01104e012339710.1371/journal.pone.0123397Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.Laura M PérezAurora BernalBeatriz de LucasNuria San MartinAnnalaura MastrangeloAntonia GarcíaCoral BarbasBeatriz G GálvezAdipose stem cells (ASCs) are an appealing source of cells for therapeutic intervention; however, the environment from which ASCs are isolated may impact their usefulness. Using a range of functional assays, we have evaluated whether ASCs isolated from an obese environment are comparable to cells from non-obese adipose tissue. Results showed that ASCs isolated from obese tissue have a reduced proliferative ability and a loss of viability together with changes in telomerase activity and DNA telomere length, suggesting a decreased self-renewal capacity. Metabolic analysis demonstrated that mitochondrial content and function was impaired in obese-derived ASCs resulting in changes in favored oxidative substrates. These findings highlight the impact of obesity on adult stem properties. Hence, caution should be exercised when considering the source of ASCs for cellular therapies since their therapeutic potential may be impaired.http://europepmc.org/articles/PMC4395137?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Laura M Pérez
Aurora Bernal
Beatriz de Lucas
Nuria San Martin
Annalaura Mastrangelo
Antonia García
Coral Barbas
Beatriz G Gálvez
spellingShingle Laura M Pérez
Aurora Bernal
Beatriz de Lucas
Nuria San Martin
Annalaura Mastrangelo
Antonia García
Coral Barbas
Beatriz G Gálvez
Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
PLoS ONE
author_facet Laura M Pérez
Aurora Bernal
Beatriz de Lucas
Nuria San Martin
Annalaura Mastrangelo
Antonia García
Coral Barbas
Beatriz G Gálvez
author_sort Laura M Pérez
title Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
title_short Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
title_full Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
title_fullStr Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
title_full_unstemmed Altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
title_sort altered metabolic and stemness capacity of adipose tissue-derived stem cells from obese mouse and human.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Adipose stem cells (ASCs) are an appealing source of cells for therapeutic intervention; however, the environment from which ASCs are isolated may impact their usefulness. Using a range of functional assays, we have evaluated whether ASCs isolated from an obese environment are comparable to cells from non-obese adipose tissue. Results showed that ASCs isolated from obese tissue have a reduced proliferative ability and a loss of viability together with changes in telomerase activity and DNA telomere length, suggesting a decreased self-renewal capacity. Metabolic analysis demonstrated that mitochondrial content and function was impaired in obese-derived ASCs resulting in changes in favored oxidative substrates. These findings highlight the impact of obesity on adult stem properties. Hence, caution should be exercised when considering the source of ASCs for cellular therapies since their therapeutic potential may be impaired.
url http://europepmc.org/articles/PMC4395137?pdf=render
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