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Main Authors: Fernandes, Raquel, Oliveira, Cristiana, Ferreira-Sousa, Diana, Costa-Barbosa, Augusto, Sampaio, Paula, Reis, Luis, Fidalgo, Javier, Barros, Ana N, Teixeira, José A, Botelho, Claudia
Format: Artículo científico
Language:en
Published: International journal of molecular sciences 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41515913/
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author Fernandes, Raquel
Oliveira, Cristiana
Ferreira-Sousa, Diana
Costa-Barbosa, Augusto
Sampaio, Paula
Reis, Luis
Fidalgo, Javier
Barros, Ana N
Teixeira, José A
Botelho, Claudia
author_facet Fernandes, Raquel
Oliveira, Cristiana
Ferreira-Sousa, Diana
Costa-Barbosa, Augusto
Sampaio, Paula
Reis, Luis
Fidalgo, Javier
Barros, Ana N
Teixeira, José A
Botelho, Claudia
Fernandes, Raquel
Oliveira, Cristiana
Ferreira-Sousa, Diana
Costa-Barbosa, Augusto
Sampaio, Paula
Reis, Luis
Fidalgo, Javier
Barros, Ana N
Teixeira, José A
Botelho, Claudia
collection PubMed - marine biology
contents -A Source of Bioactive Collagen for the Cosmetic Industry. Fernandes, Raquel Oliveira, Cristiana Ferreira-Sousa, Diana Costa-Barbosa, Augusto Sampaio, Paula Reis, Luis Fidalgo, Javier Barros, Ana N Teixeira, José A Botelho, Claudia Animals Collagen Humans Keratinocytes Cosmetics Cell Movement Scyphozoa Fibroblasts Peptides Macrophages Collagen, the most abundant structural protein in animals, is fundamental for tissue integrity and regeneration. Conventional mammalian sources face limitations related to sustainability, safety, and ethical concerns, underscoring the need for alternative biomaterials. Marine organisms, particularly jellyfish, offer a promising eco-friendly collagen source. In this study, collagen and collagen-derived peptides were extracted from the cnidarian and biochemically characterized. Circular dichroism demonstrated partial loss of triple-helix structure, while SDS-PAGE revealed type I collagen related α-chains together with low-molecular-weight fragments. The hydrolyzed collagen fractions exhibited keratinocyte and fibroblast cytocompatibility and increased keratinocyte migration. Moreover, -derived peptides modulated inflammatory cytokine release in lipopolysaccharide-stimulated macrophages reducing tumor necrosis factor (TNF)-α by 38% and increasing interleukin (IL)-10 by 29%. Based on these results, a stable bioactive serum formulation incorporating collagen peptides was developed. Overall, this work demonstrates that bioactive peptides from possess immunomodulatory and regenerative potential and represent a promising new marine resource for cosmetic applications.
format Artículo científico
id pubmed_41515913
institution PubMed
language en
publishDate 2025
publisher International journal of molecular sciences
record_format pubmed
spellingShingle -A Source of Bioactive Collagen for the Cosmetic Industry.
Fernandes, Raquel
Oliveira, Cristiana
Ferreira-Sousa, Diana
Costa-Barbosa, Augusto
Sampaio, Paula
Reis, Luis
Fidalgo, Javier
Barros, Ana N
Teixeira, José A
Botelho, Claudia
Animals
Collagen
Humans
Keratinocytes
Cosmetics
Cell Movement
Scyphozoa
Fibroblasts
Peptides
Macrophages
-A Source of Bioactive Collagen for the Cosmetic Industry. Fernandes, Raquel Oliveira, Cristiana Ferreira-Sousa, Diana Costa-Barbosa, Augusto Sampaio, Paula Reis, Luis Fidalgo, Javier Barros, Ana N Teixeira, José A Botelho, Claudia Animals Collagen Humans Keratinocytes Cosmetics Cell Movement Scyphozoa Fibroblasts Peptides Macrophages Collagen, the most abundant structural protein in animals, is fundamental for tissue integrity and regeneration. Conventional mammalian sources face limitations related to sustainability, safety, and ethical concerns, underscoring the need for alternative biomaterials. Marine organisms, particularly jellyfish, offer a promising eco-friendly collagen source. In this study, collagen and collagen-derived peptides were extracted from the cnidarian and biochemically characterized. Circular dichroism demonstrated partial loss of triple-helix structure, while SDS-PAGE revealed type I collagen related α-chains together with low-molecular-weight fragments. The hydrolyzed collagen fractions exhibited keratinocyte and fibroblast cytocompatibility and increased keratinocyte migration. Moreover, -derived peptides modulated inflammatory cytokine release in lipopolysaccharide-stimulated macrophages reducing tumor necrosis factor (TNF)-α by 38% and increasing interleukin (IL)-10 by 29%. Based on these results, a stable bioactive serum formulation incorporating collagen peptides was developed. Overall, this work demonstrates that bioactive peptides from possess immunomodulatory and regenerative potential and represent a promising new marine resource for cosmetic applications.
title -A Source of Bioactive Collagen for the Cosmetic Industry.
topic Animals
Collagen
Humans
Keratinocytes
Cosmetics
Cell Movement
Scyphozoa
Fibroblasts
Peptides
Macrophages
url https://pubmed.ncbi.nlm.nih.gov/41515913/