Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins

Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins

Abstract Background The mechanisms underpinning the regenerative capabilities of mesenchymal stem cells (MSC) were originally thought to reside in their ability to recognise damaged tissue and to differentiate into specific cell types that would replace defective cells. However, recent work has show...

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Main Authors: Robert Mitchell, Ben Mellows, Jonathan Sheard, Manuela Antonioli, Oliver Kretz, David Chambers, Marie-Theres Zeuner, James E. Tomkins, Bernd Denecke, Luca Musante, Barbara Joch, Florence Debacq-Chainiaux, Harry Holthofer, Steve Ray, Tobias B. Huber, Joern Dengjel, Paolo De Coppi, Darius Widera, Ketan Patel
Format: Article
Language:English
Published: BMC 2019-04-01
Series:Stem Cell Research & Therapy
Subjects:
Adipose-derived mesenchymal stem cell
Secretome
Extracellular vesicles
Muscle
Regeneration
Inflammation
Online Access:http://link.springer.com/article/10.1186/s13287-019-1213-1
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language English
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author Robert Mitchell
Ben Mellows
Jonathan Sheard
Manuela Antonioli
Oliver Kretz
David Chambers
Marie-Theres Zeuner
James E. Tomkins
Bernd Denecke
Luca Musante
Barbara Joch
Florence Debacq-Chainiaux
Harry Holthofer
Steve Ray
Tobias B. Huber
Joern Dengjel
Paolo De Coppi
Darius Widera
Ketan Patel
spellingShingle Robert Mitchell
Ben Mellows
Jonathan Sheard
Manuela Antonioli
Oliver Kretz
David Chambers
Marie-Theres Zeuner
James E. Tomkins
Bernd Denecke
Luca Musante
Barbara Joch
Florence Debacq-Chainiaux
Harry Holthofer
Steve Ray
Tobias B. Huber
Joern Dengjel
Paolo De Coppi
Darius Widera
Ketan Patel
Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
Stem Cell Research & Therapy
Adipose-derived mesenchymal stem cell
Secretome
Extracellular vesicles
Muscle
Regeneration
Inflammation
author_facet Robert Mitchell
Ben Mellows
Jonathan Sheard
Manuela Antonioli
Oliver Kretz
David Chambers
Marie-Theres Zeuner
James E. Tomkins
Bernd Denecke
Luca Musante
Barbara Joch
Florence Debacq-Chainiaux
Harry Holthofer
Steve Ray
Tobias B. Huber
Joern Dengjel
Paolo De Coppi
Darius Widera
Ketan Patel
author_sort Robert Mitchell
title Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
title_short Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
title_full Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
title_fullStr Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
title_full_unstemmed Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
title_sort secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteins
publisher BMC
series Stem Cell Research & Therapy
issn 1757-6512
publishDate 2019-04-01
description Abstract Background The mechanisms underpinning the regenerative capabilities of mesenchymal stem cells (MSC) were originally thought to reside in their ability to recognise damaged tissue and to differentiate into specific cell types that would replace defective cells. However, recent work has shown that molecules produced by MSCs (secretome), particularly those packaged in extracellular vesicles (EVs), rather than the cells themselves are responsible for tissue repair. Methods Here we have produced a secretome from adipose-derived mesenchymal stem cells (ADSC) that is free of exogenous molecules by incubation within a saline solution. Various in vitro models were used to evaluate the effects of the secretome on cellular processes that promote tissue regeneration. A cardiotoxin-induced skeletal muscle injury model was used to test the regenerative effects of the whole secretome or isolated extracellular vesicle fraction in vivo. This was followed by bioinformatic analysis of the components of the protein and miRNA content of the secretome and finally compared to a secretome generated from a secondary stem cell source. Results Here we have demonstrated that the secretome from adipose-derived mesenchymal stem cells shows robust effects on cellular processes that promote tissue regeneration. Furthermore, we show that the whole ADSC secretome is capable of enhancing the rate of skeletal muscle regeneration following acute damage. We assessed the efficacy of the total secretome compared with the extracellular vesicle fraction on a number of assays that inform on tissue regeneration and demonstrate that both fractions affect different aspects of the process in vitro and in vivo. Our in vitro, in vivo, and bioinformatic results show that factors that promote regeneration are distributed both within extracellular vesicles and the soluble fraction of the secretome. Conclusions Taken together, our study implies that extracellular vesicles and soluble molecules within ADSC secretome act in a synergistic manner to promote muscle generation.
topic Adipose-derived mesenchymal stem cell
Secretome
Extracellular vesicles
Muscle
Regeneration
Inflammation
url http://link.springer.com/article/10.1186/s13287-019-1213-1
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spelling doaj-71390462c4da442ea58f57b8dc9a85512020-11-25T02:01:03ZengBMCStem Cell Research & Therapy1757-65122019-04-0110111910.1186/s13287-019-1213-1Secretome of adipose-derived mesenchymal stem cells promotes skeletal muscle regeneration through synergistic action of extracellular vesicle cargo and soluble proteinsRobert Mitchell0Ben Mellows1Jonathan Sheard2Manuela Antonioli3Oliver Kretz4David Chambers5Marie-Theres Zeuner6James E. Tomkins7Bernd Denecke8Luca Musante9Barbara Joch10Florence Debacq-Chainiaux11Harry Holthofer12Steve Ray13Tobias B. Huber14Joern Dengjel15Paolo De Coppi16Darius Widera17Ketan Patel18School of Biological Sciences, University of ReadingSchool of Biological Sciences, University of ReadingStem Cell Biology and Regenerative Biology Group, School of Pharmacy, University of ReadingI.N.M.I. L Spallanzani IRCCSDepartment of Medicine III, Faculty of Medicine University Medical Center Hamburg-EppendorfWolfson Centre for Age-Related Diseases, King’s CollegeStem Cell Biology and Regenerative Biology Group, School of Pharmacy, University of ReadingStem Cell Biology and Regenerative Biology Group, School of Pharmacy, University of ReadingInterdisciplinary Centre for Clinical Research Aachen, RWTH Aachen UniversityCentre for Bioanalytical Sciences (CBAS), Dublin City UniversityDepartment of Neuroanatomy, Institute for Anatomy and Cell Biology, Faculty of Medicine, University of FreiburgURBC, Namur Research Institute for Life Science (NARILIS), University of NamurCentre for Bioanalytical Sciences (CBAS), Dublin City UniversityMicregen, Alderley EdgeDepartment of Medicine III, Faculty of Medicine University Medical Center Hamburg-EppendorfFRIAS Freiburg Institute for Advanced Studies, University of FreiburgStem Cells & Regenerative Medicine Section, UCL Great Ormond Street Institute of Child HealthStem Cell Biology and Regenerative Biology Group, School of Pharmacy, University of ReadingSchool of Biological Sciences, University of ReadingAbstract Background The mechanisms underpinning the regenerative capabilities of mesenchymal stem cells (MSC) were originally thought to reside in their ability to recognise damaged tissue and to differentiate into specific cell types that would replace defective cells. However, recent work has shown that molecules produced by MSCs (secretome), particularly those packaged in extracellular vesicles (EVs), rather than the cells themselves are responsible for tissue repair. Methods Here we have produced a secretome from adipose-derived mesenchymal stem cells (ADSC) that is free of exogenous molecules by incubation within a saline solution. Various in vitro models were used to evaluate the effects of the secretome on cellular processes that promote tissue regeneration. A cardiotoxin-induced skeletal muscle injury model was used to test the regenerative effects of the whole secretome or isolated extracellular vesicle fraction in vivo. This was followed by bioinformatic analysis of the components of the protein and miRNA content of the secretome and finally compared to a secretome generated from a secondary stem cell source. Results Here we have demonstrated that the secretome from adipose-derived mesenchymal stem cells shows robust effects on cellular processes that promote tissue regeneration. Furthermore, we show that the whole ADSC secretome is capable of enhancing the rate of skeletal muscle regeneration following acute damage. We assessed the efficacy of the total secretome compared with the extracellular vesicle fraction on a number of assays that inform on tissue regeneration and demonstrate that both fractions affect different aspects of the process in vitro and in vivo. Our in vitro, in vivo, and bioinformatic results show that factors that promote regeneration are distributed both within extracellular vesicles and the soluble fraction of the secretome. Conclusions Taken together, our study implies that extracellular vesicles and soluble molecules within ADSC secretome act in a synergistic manner to promote muscle generation.http://link.springer.com/article/10.1186/s13287-019-1213-1Adipose-derived mesenchymal stem cellSecretomeExtracellular vesiclesMuscleRegenerationInflammation

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