Affiliation:
1. Institute of Active Polymers Helmholtz‐Zentrum 14513 Hereon Germany
2. Institute of Surface Science Helmholtz‐Zentrum 21502 Hereon Germany
3. Institute of Chemistry University of Potsdam 14476 Potsdam Germany
4. Institute of Chemistry and Biochemistry Free University of Berlin 14195 Berlin Germany
Abstract
AbstractThe basement membrane (BM) is a biointeractive ultrathin network with distinct composition and organization of its epithelial and stromal sides, which render BMs with asymmetric biofunctions and mechanical properties. There are difficulties in the recapitulation of the highly hierarchical structure and function of BM. Here, the interfacial assembly method for the generation of BM mimics is applied. Dopamine is the starting material for the polymerization and assembly of polydopamine (PDA) into asymmetric materials. Compared to the PDA coating formed at the solid/liquid interface (≈20 nm), the PDA film formed at the air/liquid interface displays a thickness of ≈100 nm. Moreover, it possesses an asymmetric surface topography and an apparent Young's modulus of ≈1.0 MPa, which is structurally and mechanically similar to natural BMs. Of interest, the airside and the waterside of the PDA film exhibit differences in their adhesion affinity to the human skin keratinocytes. With stronger active mechanical processes between living cells and the waterside of PDA film, epithelial folding could be mimicked. Together, the PDA film is able to recapitulate the structural and mechanical complexity of natural BMs, indicating the prospective future of using PDA films for in vitro modeling cell‐BM interaction and tissue formation.
Subject
Mechanical Engineering,Mechanics of Materials
Cited by
1 articles.
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