Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering

Tissue engineering (TE) is a field of regenerative medicine that has been experiencing a special boom in recent years. Among various materials used as components of 3D scaffolds, naturally formed chitinous materials seem to be especially attractive because of their abundance, non-toxic and eco-frien...

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Autores principales: Machałowski, Tomasz, Rusak, Agnieszka, Wiatrak, Benita, Haczkiewicz-Leśniak, Katarzyna, Popiel, Aneta, Jaroszewicz, Jakub, Żak, Andrzej, Podhorska-Okołów, Marzenna, Jesionowski, Teofil
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8198059/
https://www.ncbi.nlm.nih.gov/pubmed/34205950
http://dx.doi.org/10.3390/ma14112992
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author Machałowski, Tomasz
Rusak, Agnieszka
Wiatrak, Benita
Haczkiewicz-Leśniak, Katarzyna
Popiel, Aneta
Jaroszewicz, Jakub
Żak, Andrzej
Podhorska-Okołów, Marzenna
Jesionowski, Teofil
author_facet Machałowski, Tomasz
Rusak, Agnieszka
Wiatrak, Benita
Haczkiewicz-Leśniak, Katarzyna
Popiel, Aneta
Jaroszewicz, Jakub
Żak, Andrzej
Podhorska-Okołów, Marzenna
Jesionowski, Teofil
author_sort Machałowski, Tomasz
collection PubMed
description Tissue engineering (TE) is a field of regenerative medicine that has been experiencing a special boom in recent years. Among various materials used as components of 3D scaffolds, naturally formed chitinous materials seem to be especially attractive because of their abundance, non-toxic and eco-friendly character. In this study, chitinous skeleton isolated from the marine sponge Aplysina fistularis (phylum: Porifera) was used for the first time as a support for the cultivation of murine fibroblasts (Balb/3T3), human dermal fibroblasts (NHDF), human keratinocyte (HaCaT), and human neuronal (SH-SY5Y) cells. Characterization techniques such as ATR FTIR, TGA, and μCT, clearly indicate that an interconnected macro-porous, thermostable, pure α-chitin scaffold was obtained after alkali–acid treatment of air-dried marine sponge. The biocompatibility of the naturally formed chitin scaffolds was confirmed by cell attachment and proliferation determined by various microscopic methods (e.g., SEM, TEM, digital microscopy) and specific staining. Our observations show that fibroblasts and keratinocytes form clusters on scaffolds that resemble a skin structure, including the occurrence of desmosomes in keratinocyte cells. The results obtained here suggest that the chitinous scaffold from the marine sponge A. fistularis is a promising biomaterial for future research about tissues regeneration.
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spelling pubmed-81980592021-06-14 Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering Machałowski, Tomasz Rusak, Agnieszka Wiatrak, Benita Haczkiewicz-Leśniak, Katarzyna Popiel, Aneta Jaroszewicz, Jakub Żak, Andrzej Podhorska-Okołów, Marzenna Jesionowski, Teofil Materials (Basel) Article Tissue engineering (TE) is a field of regenerative medicine that has been experiencing a special boom in recent years. Among various materials used as components of 3D scaffolds, naturally formed chitinous materials seem to be especially attractive because of their abundance, non-toxic and eco-friendly character. In this study, chitinous skeleton isolated from the marine sponge Aplysina fistularis (phylum: Porifera) was used for the first time as a support for the cultivation of murine fibroblasts (Balb/3T3), human dermal fibroblasts (NHDF), human keratinocyte (HaCaT), and human neuronal (SH-SY5Y) cells. Characterization techniques such as ATR FTIR, TGA, and μCT, clearly indicate that an interconnected macro-porous, thermostable, pure α-chitin scaffold was obtained after alkali–acid treatment of air-dried marine sponge. The biocompatibility of the naturally formed chitin scaffolds was confirmed by cell attachment and proliferation determined by various microscopic methods (e.g., SEM, TEM, digital microscopy) and specific staining. Our observations show that fibroblasts and keratinocytes form clusters on scaffolds that resemble a skin structure, including the occurrence of desmosomes in keratinocyte cells. The results obtained here suggest that the chitinous scaffold from the marine sponge A. fistularis is a promising biomaterial for future research about tissues regeneration. MDPI 2021-06-01 /pmc/articles/PMC8198059/ /pubmed/34205950 http://dx.doi.org/10.3390/ma14112992 Text en © 2021 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
Machałowski, Tomasz
Rusak, Agnieszka
Wiatrak, Benita
Haczkiewicz-Leśniak, Katarzyna
Popiel, Aneta
Jaroszewicz, Jakub
Żak, Andrzej
Podhorska-Okołów, Marzenna
Jesionowski, Teofil
Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering
title Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering
title_full Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering
title_fullStr Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering
title_full_unstemmed Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering
title_short Naturally Formed Chitinous Skeleton Isolated from the Marine Demosponge Aplysina fistularis as a 3D Scaffold for Tissue Engineering
title_sort naturally formed chitinous skeleton isolated from the marine demosponge aplysina fistularis as a 3d scaffold for tissue engineering
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8198059/
https://www.ncbi.nlm.nih.gov/pubmed/34205950
http://dx.doi.org/10.3390/ma14112992
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