Artikel ; Online: Antifibrotic properties of hyaluronic acid crosslinked polyisocyanide hydrogels.
Biomaterials advances
2023 Band 156, Seite(n) 213705
Abstract: Fibrosis is characterized by the formation of fibrous connective tissue in response to primary injury. As a result, an affected organ may lose part of its functionality due to chronic, organ-specific tissue damage. Since fibrosis is a leading cause of ... ...
Abstract | Fibrosis is characterized by the formation of fibrous connective tissue in response to primary injury. As a result, an affected organ may lose part of its functionality due to chronic, organ-specific tissue damage. Since fibrosis is a leading cause of death worldwide, targeting fibrotic diseases with antifibrotic hydrogels can be a lifesaving therapeutic strategy. This study developed a novel hybrid antifibrotic hydrogel by combining the synthetic polyisocyanide (PIC) with hyaluronic acid (HA). Gels of PIC are highly tailorable, thermosensitive, and strongly biomimetic in architecture and mechanical properties, whereas HA is known to promote non-fibrotic fetal wound healing and inhibits inflammatory signaling. The developed HA-PIC hybrids were biocompatible with physical properties comparable to those of the PIC gels. The antifibrotic nature of the gels was assessed by 3D cultures of human foreskin fibroblasts in the presence (or absence as control) of TGFβ1 that promotes differentiation into myofibroblasts, a critical step in fibrosis. Proliferation and macroscopic contraction assays and studies on the formation of stress fibers and characteristic fibrosis markers all indicate a strong antifibrotic nature of HA-PIC hydrogel. We showed that these effects originate from both the lightly crosslinked architecture and the presence of HA itself. The hybrid displaying both these effects shows the strongest antifibrotic nature and is a promising candidate for use as in vivo treatment for skin fibrosis. |
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Mesh-Begriff(e) | Humans ; Hydrogels/pharmacology ; Hyaluronic Acid/pharmacology ; Fibroblasts ; Myofibroblasts ; Fibrosis |
Chemische Substanzen | Hydrogels ; Hyaluronic Acid (9004-61-9) |
Sprache | Englisch |
Erscheinungsdatum | 2023-11-22 |
Erscheinungsland | Netherlands |
Dokumenttyp | Journal Article |
ISSN | 2772-9508 |
ISSN (online) | 2772-9508 |
DOI | 10.1016/j.bioadv.2023.213705 |
Datenquelle | MEDical Literature Analysis and Retrieval System OnLINE |
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