Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration

Abstract Degenerative disc disease (DDD) is the leading cause of excruciating lower back pain and disability in adults worldwide. Among the current treatments for DDD, cell-based therapies such as the injection of both disc- and non-disc-derived chondrocytes have shown significant improvements in th...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Alvin Bacero Bello, Yunkyung Kim, Sunghyun Park, Manjunatha S. Muttigi, Jiseong Kim, Hansoo Park, Soohong Lee
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
Materias:
R
Acceso en línea:https://doaj.org/article/7de8c9d1ebed42328e651f3ec0bbee73
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:7de8c9d1ebed42328e651f3ec0bbee73
record_format dspace
spelling oai:doaj.org-article:7de8c9d1ebed42328e651f3ec0bbee732021-12-02T16:38:27ZMatrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration10.1038/s41536-021-00160-02057-3995https://doaj.org/article/7de8c9d1ebed42328e651f3ec0bbee732021-09-01T00:00:00Zhttps://doi.org/10.1038/s41536-021-00160-0https://doaj.org/toc/2057-3995Abstract Degenerative disc disease (DDD) is the leading cause of excruciating lower back pain and disability in adults worldwide. Among the current treatments for DDD, cell-based therapies such as the injection of both disc- and non-disc-derived chondrocytes have shown significant improvements in the patients’ condition. However, further advancement of these therapies is required to not only ensure a supply of healthy chondrocytes but also to promote regeneration of the defective cells in the injury site. Here, we report that the incorporation of gelatin microparticles coloaded with transforming growth factor beta 3 and matrilin 3 promoted chondrogenic differentiation of adipose-derived mesenchymal stem cell spheroids while preventing hypertrophy and terminal differentiation of cells. Moreover, these composite spheroids induced the release of chondrogenic cytokines that, in turn, promoted regeneration of degenerative chondrocytes in vitro. Finally, injections of these composite spheroids in a rat model of intervertebral disc disease promoted restoration of the chondrogenic properties of the cells, thereby allowing regeneration of the chondrogenic tissue in vivo.Alvin Bacero BelloYunkyung KimSunghyun ParkManjunatha S. MuttigiJiseong KimHansoo ParkSoohong LeeNature PortfolioarticleMedicineRENnpj Regenerative Medicine, Vol 6, Iss 1, Pp 1-13 (2021)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
spellingShingle Medicine
R
Alvin Bacero Bello
Yunkyung Kim
Sunghyun Park
Manjunatha S. Muttigi
Jiseong Kim
Hansoo Park
Soohong Lee
Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration
description Abstract Degenerative disc disease (DDD) is the leading cause of excruciating lower back pain and disability in adults worldwide. Among the current treatments for DDD, cell-based therapies such as the injection of both disc- and non-disc-derived chondrocytes have shown significant improvements in the patients’ condition. However, further advancement of these therapies is required to not only ensure a supply of healthy chondrocytes but also to promote regeneration of the defective cells in the injury site. Here, we report that the incorporation of gelatin microparticles coloaded with transforming growth factor beta 3 and matrilin 3 promoted chondrogenic differentiation of adipose-derived mesenchymal stem cell spheroids while preventing hypertrophy and terminal differentiation of cells. Moreover, these composite spheroids induced the release of chondrogenic cytokines that, in turn, promoted regeneration of degenerative chondrocytes in vitro. Finally, injections of these composite spheroids in a rat model of intervertebral disc disease promoted restoration of the chondrogenic properties of the cells, thereby allowing regeneration of the chondrogenic tissue in vivo.
format article
author Alvin Bacero Bello
Yunkyung Kim
Sunghyun Park
Manjunatha S. Muttigi
Jiseong Kim
Hansoo Park
Soohong Lee
author_facet Alvin Bacero Bello
Yunkyung Kim
Sunghyun Park
Manjunatha S. Muttigi
Jiseong Kim
Hansoo Park
Soohong Lee
author_sort Alvin Bacero Bello
title Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration
title_short Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration
title_full Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration
title_fullStr Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration
title_full_unstemmed Matrilin3/TGFβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in MSC spheroid for disc regeneration
title_sort matrilin3/tgfβ3 gelatin microparticles promote chondrogenesis, prevent hypertrophy, and induce paracrine release in msc spheroid for disc regeneration
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/7de8c9d1ebed42328e651f3ec0bbee73
work_keys_str_mv AT alvinbacerobello matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
AT yunkyungkim matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
AT sunghyunpark matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
AT manjunathasmuttigi matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
AT jiseongkim matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
AT hansoopark matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
AT soohonglee matrilin3tgfb3gelatinmicroparticlespromotechondrogenesispreventhypertrophyandinduceparacrinereleaseinmscspheroidfordiscregeneration
_version_ 1718383582929485824