Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis

Articular cartilage is an avascular tissue with a limited capacity for self-regeneration, leading the tissue to osteoarthritis (OA). Mesenchymal stem cells (MSCs) are promising for cartilage tissue engineering, as they are capable of differentiating into chondrocyte-like cells and secreting a number...

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Autores principales: Uzieliene, Ilona, Bialaglovyte, Paulina, Miksiunas, Rokas, Lebedis, Ignas, Pachaleva, Jolita, Vaiciuleviciute, Raminta, Ramanaviciene, Almira, Kvederas, Giedrius, Bernotiene, Eiva
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10525204/
https://www.ncbi.nlm.nih.gov/pubmed/37760103
http://dx.doi.org/10.3390/bioengineering10091001
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author Uzieliene, Ilona
Bialaglovyte, Paulina
Miksiunas, Rokas
Lebedis, Ignas
Pachaleva, Jolita
Vaiciuleviciute, Raminta
Ramanaviciene, Almira
Kvederas, Giedrius
Bernotiene, Eiva
author_facet Uzieliene, Ilona
Bialaglovyte, Paulina
Miksiunas, Rokas
Lebedis, Ignas
Pachaleva, Jolita
Vaiciuleviciute, Raminta
Ramanaviciene, Almira
Kvederas, Giedrius
Bernotiene, Eiva
author_sort Uzieliene, Ilona
collection PubMed
description Articular cartilage is an avascular tissue with a limited capacity for self-regeneration, leading the tissue to osteoarthritis (OA). Mesenchymal stem cells (MSCs) are promising for cartilage tissue engineering, as they are capable of differentiating into chondrocyte-like cells and secreting a number of active molecules that are important for cartilage extracellular matrix (ECM) synthesis. The aim of this study was to evaluate the potential of easily accessible menstrual blood-derived MSC (MenSC) paracrine factors in stimulating bone marrow MSC (BMMSCs) chondrogenic differentiation and to investigate their role in protecting cartilage from degradation in vitro. MenSCs and BMMSCs chondrogenic differentiation was induced using four different growth factors: TGF-β3, activin A, BMP-2, and IGF-1. The chondrogenic differentiation of BMMSCs was stimulated in co-cultures with MenSCs and cartilage explants co-cultured with MenSCs for 21 days. The chondrogenic capacity of BMMSCs was analyzed by the secretion of four growth factors and cartilage oligomeric matrix protein, as well as the release and synthesis of cartilage ECM proteins, and chondrogenic gene expression in cartilage explants. Our results suggest that MenSCs stimulate chondrogenic response in BMMSCs by secreting activin A and TGF-β3 and may have protective effects on cartilage tissue ECM by decreasing the release of GAGs, most likely through the modulation of activin A related molecular pathway. In conclusion, paracrine factors secreted by MenSCs may turn out to be a promising therapeutical approach for cartilage tissue protection and repair.
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spelling pubmed-105252042023-09-28 Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis Uzieliene, Ilona Bialaglovyte, Paulina Miksiunas, Rokas Lebedis, Ignas Pachaleva, Jolita Vaiciuleviciute, Raminta Ramanaviciene, Almira Kvederas, Giedrius Bernotiene, Eiva Bioengineering (Basel) Article Articular cartilage is an avascular tissue with a limited capacity for self-regeneration, leading the tissue to osteoarthritis (OA). Mesenchymal stem cells (MSCs) are promising for cartilage tissue engineering, as they are capable of differentiating into chondrocyte-like cells and secreting a number of active molecules that are important for cartilage extracellular matrix (ECM) synthesis. The aim of this study was to evaluate the potential of easily accessible menstrual blood-derived MSC (MenSC) paracrine factors in stimulating bone marrow MSC (BMMSCs) chondrogenic differentiation and to investigate their role in protecting cartilage from degradation in vitro. MenSCs and BMMSCs chondrogenic differentiation was induced using four different growth factors: TGF-β3, activin A, BMP-2, and IGF-1. The chondrogenic differentiation of BMMSCs was stimulated in co-cultures with MenSCs and cartilage explants co-cultured with MenSCs for 21 days. The chondrogenic capacity of BMMSCs was analyzed by the secretion of four growth factors and cartilage oligomeric matrix protein, as well as the release and synthesis of cartilage ECM proteins, and chondrogenic gene expression in cartilage explants. Our results suggest that MenSCs stimulate chondrogenic response in BMMSCs by secreting activin A and TGF-β3 and may have protective effects on cartilage tissue ECM by decreasing the release of GAGs, most likely through the modulation of activin A related molecular pathway. In conclusion, paracrine factors secreted by MenSCs may turn out to be a promising therapeutical approach for cartilage tissue protection and repair. MDPI 2023-08-24 /pmc/articles/PMC10525204/ /pubmed/37760103 http://dx.doi.org/10.3390/bioengineering10091001 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Uzieliene, Ilona
Bialaglovyte, Paulina
Miksiunas, Rokas
Lebedis, Ignas
Pachaleva, Jolita
Vaiciuleviciute, Raminta
Ramanaviciene, Almira
Kvederas, Giedrius
Bernotiene, Eiva
Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis
title Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis
title_full Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis
title_fullStr Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis
title_full_unstemmed Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis
title_short Menstrual Blood-Derived Stem Cell Paracrine Factors Possess Stimulatory Effects on Chondrogenesis In Vitro and Diminish the Degradation of Articular Cartilage during Osteoarthritis
title_sort menstrual blood-derived stem cell paracrine factors possess stimulatory effects on chondrogenesis in vitro and diminish the degradation of articular cartilage during osteoarthritis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10525204/
https://www.ncbi.nlm.nih.gov/pubmed/37760103
http://dx.doi.org/10.3390/bioengineering10091001
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