Human nasal septal chondrocytes (NSCs) preconditioned on NSC-derived matrix improve their chondrogenic potential

Authors
Noh, Y.K.Kim, S.W.Kim, I.-H.Park, K.
Issue Date
2021-04
Publisher
BioMed Central Ltd
Citation
Biomaterials Research, v.25, no.1, pp.156 - 167
Abstract
Background: Extracellular matrix (ECM) has a profound effect on cell behaviors. In this study, we prepare a decellularized human nasal septal chondrocyte (NSC)-derived ECM (CHDM), as a natural (N-CHDM) or soluble form (S-CHDM), and investigate their impact on NSCs differentiation. Methods: N-CHDM, S-CHDM were obtained from NSC. To evaluate function of NSC cultured on each substrate, gene expression using chondrogenic marker, and chondrogenic protein expression were tested. Preconditioned NSCs-loaded scaffolds were transplanted in nude mice for 3 weeks and analyzed. Results: When cultivated on each substrate, NSCs exhibited similar cell spread area but showed distinct morphology on N-CHDM with significantly lower cell circularity. They were highly proliferative on N-CHDM than S-CHDM and tissue culture plastic (TCP), and showed more improved cell differentiation, as assessed via chondrogenic marker (Col2, Sox9, and Aggrecan) expression and immunofluorescence of COL II. We also investigated the effect of NSCs preconditioning on three different 2D substrates while NSCs were isolated from those substrates, subsequently transferred to 3D mesh scaffold, then cultivated them in vitro or transplanted in vivo. The number of cells in the scaffolds was similar to each other at 5 days but cell differentiation was notably better with NSCs preconditioned on N-CHDM, as assessed via real-time q-PCR, Western blot, and immunofluorescence. Moreover, when those NSCs-loaded polymer scaffolds were transplanted subcutaneously in nude mice for 3 weeks and analyzed, the NSCs preconditioned on the N-CHDM showed significantly advanced cell retention in the scaffold, more cells with a chondrocyte lacunae structure, and larger production of cartilage ECM (COL II, glycosaminoglycan). Conclusions: Taken together, a natural form of decellularized ECM, N-CHDM would present an advanced chondrogenic potential over a reformulated ECM (S-CHDM) or TCP substrate, suggesting that N-CHDM may hold more diverse signaling cues, not just limited to ECM component. ? 2021, The Author(s).
Keywords
aggrecan; polymer; transcription factor Sox9; animal experiment; animal model; animal tissue; Article; articular cartilage; cartilage; cell adhesion; cell differentiation; cell proliferation; cell structure; chondrocyte; chondrogenesis; controlled study; extracellular matrix; focal adhesion; gene expression; human; human cell; immunofluorescence; in vitro study; mouse; nonhuman; nose septum; protein expression; quantitative analysis; real time polymerase chain reaction; tissue culture; Western blotting; Cartilage; Chondrocyte­derived extracellular matrix; Extracellular matrix (ECM); Human nasal septal chondrocyte (NSC); Preconditioning
ISSN
2055-7124
URI
https://pubs.kist.re.kr/handle/201004/117170
DOI
10.1186/s40824-021-00211-z
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KIST Article > 2021
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