Litcius/Paper detail

Rationally designed bioactive milk-derived protein scaffolds enhanced new bone formation

Min Suk Lee, Jin Jeon, Sihyeon Park, Juhan Lim, Hee Seok Yang

2022Bioactive Materials11 citationsDOIOpen Access PDF

Abstract

Recently, a number of studies reported that casein was composed of various multifunctional bioactive peptides such as casein phosphopeptide and β-casochemotide-1 that bind calcium ions and induce macrophage chemotaxis, which is crucial for bone homeostasis and bone fracture repair by cytokines secreted in the process. We hypothesized that the effects of the multifunctional biopeptides in casein would contribute to improving bone regeneration. Thus, we designed a tissue engineering platform that consisted of casein and polyvinyl alcohol, which was a physical-crosslinked scaffold (milk-derived protein; MDP), via simple freeze-thaw cycles and performed surface modification using 3,4-dihydroxy-l-phenylalanine (DOPA), a mussel adhesive protein, for immobilizing adhesive proteins and cytokines for recruiting cells in vivo (MDP-DOPA). Both the MDP and MDP-DOPA groups proved indirectly contribution of macrophages migration as RAW 264.7 cells were highly migrated toward materials by contained bioactive peptides. We implanted MDP and MDP-DOPA in a mouse calvarial defect orthotopic model and evaluated whether MDP-DOPA showed much faster mineral deposition and higher bone density than that of the no-treatment and MDP groups. The MDP-DOPA group showed the accumulation of host M2 macrophages and mesenchymal stem cells (MSCs) around the scaffold, whereas MDP presented mostly M1 macrophages in the early stage.

Topics & Concepts

Mesenchymal stem cellChemistryCaseinScaffoldIn vivoCell biologyBiochemistryBiomedical engineeringBiologyMedicineBiotechnologyProtein Hydrolysis and Bioactive PeptidesBone Tissue Engineering MaterialsInfant Nutrition and Health
Rationally designed bioactive milk-derived protein scaffolds enhanced new bone formation | Litcius