Photocrosslinked acemannan-based 3D matrices for in vitro cell culture

last updated: 2019-06-14
ProjectPOLARIS :: publications list
TitlePhotocrosslinked acemannan-based 3D matrices for in vitro cell culture
Publication TypePapers in Scientific Journals
Year of Publication2019
AuthorsSilva S. S., Soares da Costa D., and Reis R. L.
Abstract

Current biomedical research has highlighted the potential use of medicinal plant derivatives as advanced
suitable biomaterials due to their biological properties. Acemannan (ACE) is the main polysaccharide of
Aloe vera (AV) leaves with many reported biological properties, including immunomodulatory activity,
antibacterial action, wound healing induction, and cytocompatibility. These properties suggest that ACE
is an appealing material for the development of 3D structures for biomedical purposes. In this study,
ACE was modified by a methacrylation reaction using methacrylic anhydride. Further 3D sponges were
developed by processing modified ACE by photocrosslinking using UV irradiation and the freeze-drying
technique. Both FTIR and
1H NMR spectroscopy confirmed the effectiveness of the functionalization.
SEM and
m-CT revealed that the cross-sections of the methacrylated acemannan (MACE) sponges have
open macropores and a narrow pore size distribution within them. We hypothesized that the intrinsic
features of ACE could enhance tumor growth, mimicking the biological tumor microenvironment.
Therefore, gastric cancer cells (AGS cell line) were cultured in contact with these matrices for up to
14 days to evaluate their cytocompatibility as a processed biomaterial. Results obtained by live-dead
assay and MTS showed that cells are viable and metabolically active. Furthermore, confocal laser
scanning microscopy analysis showed a homogeneous distribution of cells within the sponge. Therefore,
the photocrosslinking on acemmann is proposed as an alternative approach that could significantly
improve the processability of acemannan, allowing the production of high added-value structures
enabling exploitation of its potential biomedical value.

JournalJournal of Materials Chemistry B
Date Published2019-06-11
PublisherRoyal Society of Chemistry
ISSN2050-7518
DOI10.1039/c9tb00593e
URLhttps://pubs.rsc.org/en/content/articlelanding/2019/tb/c9tb00593e#!divAbstract
KeywordsAcemannan, Biomaterials, BIOMEDICAL APPLICATIONS, Photocrosslinking
RightsclosedAccess
Peer reviewedyes
Statuspublished

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