TSG-6 Is Involved in Fibrous Structural Remodeling after the Injection of Adipose-derived Stem Cells

Background: Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuven...

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Published inPlastic and reconstructive surgery. Global open Vol. 12; no. 7; p. e5990
Main Authors Kiuchi, Satomi, Lopes, Tiago J.S., Oishi, Takaya, Cho, Yuki, Ochiai, Hiroko, Gomi, Takamasa
Format Journal Article
LanguageEnglish
Published Hagerstown, MD Lippincott Williams & Wilkins 01.07.2024
Wolters Kluwer
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Abstract Background: Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuvenation are not yet fully understood. Here, we were interested in cellular responses following aesthetic treatments injecting adipose-derived stem cells (ASCs) subcutaneously. Through investigation with an ex vivo experimental model, a key gene was identified that orchestrates fibrous structural changes and tissue remodeling. Methods: Using fresh human subcutaneous adipose tissue co-cultured with ASCs, the changes in the fibrous architecture of the tissue were sequentially mapped. The key regulatory genes involved in remodeling were identified using gene expression and computational analyses. Results: We identified the regulatory elements that are crucial for tissue remodeling. Among those, we found that tumor necrosis factor-stimulated gene-6 (TSG-6) is a paracrine mediator essential for the collagen activity. It not only alleviates tissue inflammation but also promotes collagen replacement ex vivo. This is primarily achieved by inhibiting the formation of neutrophil extracellular traps, which are known to promote fibrosis. Conclusions: TSG-6 is a key factor modulating tissue inflammation. As our results demonstrate, after ASCs treatment, this factor directs skin healing away from fibrosis by reducing neutrophil extracellular trap formation in subcutaneous adipose tissue and promotes fibrous rejuvenation.
AbstractList Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuvenation are not yet fully understood. Here, we were interested in cellular responses following aesthetic treatments injecting adipose-derived stem cells (ASCs) subcutaneously. Through investigation with an ex vivo experimental model, a key gene was identified that orchestrates fibrous structural changes and tissue remodeling.BackgroundAlthough aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuvenation are not yet fully understood. Here, we were interested in cellular responses following aesthetic treatments injecting adipose-derived stem cells (ASCs) subcutaneously. Through investigation with an ex vivo experimental model, a key gene was identified that orchestrates fibrous structural changes and tissue remodeling.Using fresh human subcutaneous adipose tissue co-cultured with ASCs, the changes in the fibrous architecture of the tissue were sequentially mapped. The key regulatory genes involved in remodeling were identified using gene expression and computational analyses.MethodsUsing fresh human subcutaneous adipose tissue co-cultured with ASCs, the changes in the fibrous architecture of the tissue were sequentially mapped. The key regulatory genes involved in remodeling were identified using gene expression and computational analyses.We identified the regulatory elements that are crucial for tissue remodeling. Among those, we found that tumor necrosis factor-stimulated gene-6 (TSG-6) is a paracrine mediator essential for the collagen activity. It not only alleviates tissue inflammation but also promotes collagen replacement ex vivo. This is primarily achieved by inhibiting the formation of neutrophil extracellular traps, which are known to promote fibrosis.ResultsWe identified the regulatory elements that are crucial for tissue remodeling. Among those, we found that tumor necrosis factor-stimulated gene-6 (TSG-6) is a paracrine mediator essential for the collagen activity. It not only alleviates tissue inflammation but also promotes collagen replacement ex vivo. This is primarily achieved by inhibiting the formation of neutrophil extracellular traps, which are known to promote fibrosis.TSG-6 is a key factor modulating tissue inflammation. As our results demonstrate, after ASCs treatment, this factor directs skin healing away from fibrosis by reducing neutrophil extracellular trap formation in subcutaneous adipose tissue and promotes fibrous rejuvenation.ConclusionsTSG-6 is a key factor modulating tissue inflammation. As our results demonstrate, after ASCs treatment, this factor directs skin healing away from fibrosis by reducing neutrophil extracellular trap formation in subcutaneous adipose tissue and promotes fibrous rejuvenation.
Background: Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuvenation are not yet fully understood. Here, we were interested in cellular responses following aesthetic treatments injecting adipose-derived stem cells (ASCs) subcutaneously. Through investigation with an ex vivo experimental model, a key gene was identified that orchestrates fibrous structural changes and tissue remodeling. Methods: Using fresh human subcutaneous adipose tissue co-cultured with ASCs, the changes in the fibrous architecture of the tissue were sequentially mapped. The key regulatory genes involved in remodeling were identified using gene expression and computational analyses. Results: We identified the regulatory elements that are crucial for tissue remodeling. Among those, we found that tumor necrosis factor-stimulated gene-6 (TSG-6) is a paracrine mediator essential for the collagen activity. It not only alleviates tissue inflammation but also promotes collagen replacement ex vivo. This is primarily achieved by inhibiting the formation of neutrophil extracellular traps, which are known to promote fibrosis. Conclusions: TSG-6 is a key factor modulating tissue inflammation. As our results demonstrate, after ASCs treatment, this factor directs skin healing away from fibrosis by reducing neutrophil extracellular trap formation in subcutaneous adipose tissue and promotes fibrous rejuvenation.
Background:. Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuvenation are not yet fully understood. Here, we were interested in cellular responses following aesthetic treatments injecting adipose-derived stem cells (ASCs) subcutaneously. Through investigation with an ex vivo experimental model, a key gene was identified that orchestrates fibrous structural changes and tissue remodeling. Methods:. Using fresh human subcutaneous adipose tissue co-cultured with ASCs, the changes in the fibrous architecture of the tissue were sequentially mapped. The key regulatory genes involved in remodeling were identified using gene expression and computational analyses. Results:. We identified the regulatory elements that are crucial for tissue remodeling. Among those, we found that tumor necrosis factor-stimulated gene-6 (TSG-6) is a paracrine mediator essential for the collagen activity. It not only alleviates tissue inflammation but also promotes collagen replacement ex vivo. This is primarily achieved by inhibiting the formation of neutrophil extracellular traps, which are known to promote fibrosis. Conclusions:. TSG-6 is a key factor modulating tissue inflammation. As our results demonstrate, after ASCs treatment, this factor directs skin healing away from fibrosis by reducing neutrophil extracellular trap formation in subcutaneous adipose tissue and promotes fibrous rejuvenation.
Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic scar tissue, damage from aesthetic treatments induces a distinct histological rejuvenation. The mechanisms that drive this rejuvenation are not yet fully understood. Here, we were interested in cellular responses following aesthetic treatments injecting adipose-derived stem cells (ASCs) subcutaneously. Through investigation with an ex vivo experimental model, a key gene was identified that orchestrates fibrous structural changes and tissue remodeling. Using fresh human subcutaneous adipose tissue co-cultured with ASCs, the changes in the fibrous architecture of the tissue were sequentially mapped. The key regulatory genes involved in remodeling were identified using gene expression and computational analyses. We identified the regulatory elements that are crucial for tissue remodeling. Among those, we found that tumor necrosis factor-stimulated gene-6 (TSG-6) is a paracrine mediator essential for the collagen activity. It not only alleviates tissue inflammation but also promotes collagen replacement ex vivo. This is primarily achieved by inhibiting the formation of neutrophil extracellular traps, which are known to promote fibrosis. TSG-6 is a key factor modulating tissue inflammation. As our results demonstrate, after ASCs treatment, this factor directs skin healing away from fibrosis by reducing neutrophil extracellular trap formation in subcutaneous adipose tissue and promotes fibrous rejuvenation.
Author Cho, Yuki
Oishi, Takaya
Ochiai, Hiroko
Kiuchi, Satomi
Gomi, Takamasa
Lopes, Tiago J.S.
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Notes Published online 19 July 2024. Received for publication January 10, 2024; accepted May 29, 2024. Disclosure statements are at the end of this article, following the correspondence information. Related Digital Media are available in the full-text version of the article on www.PRSGlobalOpen.com. Satomi Kiuchi, MS, Frontier Research Center, POLA Chemical Industries, Inc. 560 Kashio-cho, Totsuka-ku, Yokohama, Japan, E-mail: s-kiuchi@pola.co.jp
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Snippet Background: Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results...
Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results in fibrotic...
Background:. Although aesthetic treatments can rejuvenate the skin, they often cause specific forms of tissue damage. Unlike wounding, which typically results...
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Title TSG-6 Is Involved in Fibrous Structural Remodeling after the Injection of Adipose-derived Stem Cells
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