iScience (Jul 2019)
Genetically Engineered Flagella Form Collagen-like Ordered Structures for Inducing Stem Cell Differentiation
Abstract
Summary: Bacteria use flagella, the protein nanofibers on their surface, as a molecular machine to swim. Flagella are polymerized from monomers, flagellins, which can display a peptide by genetic means. However, flagella as genetically modifiable nanofibers have not been used in building bone extracellular matrix-like structures for inducing stem cell differentiation in non-osteogenic medium. Here we discovered that interactions between Ca2+ ions and flagella (displaying a collagen-like peptide (GPP)8 on every flagellin) resulted in ordered bundle-like structures, which were further mineralized with hydroxyapatite to form ordered fibrous matrix. The resultant matrix significantly induced the osteogenic differentiation of stem cells, much more efficiently than wild-type flagella and type I collagen. This work shows that flagella can be used as protein building blocks in generating biomimetic materials. : Genetic Engineering; Stem Cells Research; Materials Science; Biomaterials Subject Areas: Genetic Engineering, Stem Cells Research, Materials Science, Biomaterials
