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W2940641544 abstract "Human articular cartilage is a complex multi-zonal tissue in which cells displaying three chondrocyte phenotypes (persistent, transient and hypertrophic) are supported and maintained by distinctly different (zonal) combinations of extracellular matrix (ECM) molecules. Articular cartilage has limited regenerative capacity, even though adjacent to the medullary cavity, an easily accessible reservoir of multipotent progenitor cells capable of eliciting repair, (human) mesenchymal stromal/stem cells (hMSCs). A greater understanding of the impacts of the extracellular cues provided in each zone of articular cartilage on hMSCs thus offers the potential to develop new scaffolds that can effect multi-zonal cartilage generation. In this work, we have systematically surveyed combinatorial mixtures of peptide sequences derived from ECM and cell adhesion molecules (CAMs) found to be present in cartilage and bone tissues, at a range of concentrations and ratios, to assess their ability to modulate hMSC fate. We show that directed differentiation of hMSCs towards persistent, transient and hypertrophic chondrogenic phenotypes is possible via the controlled presentation of specific peptide combinations on self-assembled polymeric coatings displaying hexagonally-packed nanodomains. These biomimetic substrates highlight that a high level of spatial and compositional control over biochemical cues is required by hMSCs in order to specify different cellular sub-phenotypes." @default.
W2940641544 created "2019-05-03" @default.
W2940641544 creator A5018195736 @default.
W2940641544 creator A5020029453 @default.
W2940641544 date "2019-07-01" @default.
W2940641544 modified "2023-10-16" @default.
W2940641544 title "Combinatorial presentation of cartilage-inspired peptides on nanopatterned surfaces enables directed differentiation of human mesenchymal stem cells towards distinct articular chondrogenic phenotypes" @default.
W2940641544 cites W1748265176 @default.
W2940641544 cites W1967265511 @default.
W2940641544 cites W1968375977 @default.
W2940641544 cites W1971896554 @default.
W2940641544 cites W1973439830 @default.
W2940641544 cites W1976615785 @default.
W2940641544 cites W1977463819 @default.
W2940641544 cites W1978063675 @default.
W2940641544 cites W1980813466 @default.
W2940641544 cites W1986233240 @default.
W2940641544 cites W1987458816 @default.
W2940641544 cites W1989439022 @default.
W2940641544 cites W1997066496 @default.
W2940641544 cites W1997246078 @default.
W2940641544 cites W1999014699 @default.
W2940641544 cites W2008850772 @default.
W2940641544 cites W2012526549 @default.
W2940641544 cites W2014842690 @default.
W2940641544 cites W2016145855 @default.
W2940641544 cites W2024682805 @default.
W2940641544 cites W2025515198 @default.
W2940641544 cites W2032554521 @default.
W2940641544 cites W2032930150 @default.
W2940641544 cites W2036268826 @default.
W2940641544 cites W2039428725 @default.
W2940641544 cites W2039918711 @default.
W2940641544 cites W2041401385 @default.
W2940641544 cites W2049015255 @default.
W2940641544 cites W2053442544 @default.
W2940641544 cites W2053957073 @default.
W2940641544 cites W2054250836 @default.
W2940641544 cites W2056021000 @default.
W2940641544 cites W2058384644 @default.
W2940641544 cites W2058531488 @default.
W2940641544 cites W2060528299 @default.
W2940641544 cites W2065666244 @default.
W2940641544 cites W2072910464 @default.
W2940641544 cites W2074055090 @default.
W2940641544 cites W2080928766 @default.
W2940641544 cites W2087178104 @default.
W2940641544 cites W2093273297 @default.
W2940641544 cites W2097994301 @default.
W2940641544 cites W2101244168 @default.
W2940641544 cites W2112988459 @default.
W2940641544 cites W2114570899 @default.
W2940641544 cites W2129573593 @default.
W2940641544 cites W2132936019 @default.
W2940641544 cites W2160906182 @default.
W2940641544 cites W2165602028 @default.
W2940641544 cites W2166423236 @default.
W2940641544 cites W2168442847 @default.
W2940641544 cites W2274144009 @default.
W2940641544 cites W2319186562 @default.
W2940641544 cites W2344416264 @default.
W2940641544 cites W2510607594 @default.
W2940641544 cites W2516768073 @default.
W2940641544 cites W2532200880 @default.
W2940641544 cites W2756629148 @default.
W2940641544 cites W2764113456 @default.
W2940641544 cites W2772295329 @default.
W2940641544 cites W4255802846 @default.
W2940641544 cites W88214087 @default.
W2940641544 doi "https://doi.org/10.1016/j.biomaterials.2019.04.003" @default.
W2940641544 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31060868" @default.
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