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Photopatterned biomolecule immobilization to guide three-dimensional cell fate in natural protein-based hydrogels

Ivan Batalov, Kelly R. Stevens, Cole A. DeForest

2021Proceedings of the National Academy of Sciences85 citationsDOIOpen Access PDF

Abstract

Hydrogel biomaterials derived from natural biopolymers (e.g., fibrin, collagen, decellularized extracellular matrix) are regularly utilized in three-dimensional (3D) cell culture and tissue engineering. In contrast to those based on synthetic polymers, natural materials permit enhanced cytocompatibility, matrix remodeling, and biological integration. Despite these advantages, natural protein-based gels have lagged behind synthetic alternatives in their tunability; methods to selectively modulate the biochemical properties of these networks in a user-defined and heterogeneous fashion that can drive encapsulated cell function have not yet been established. Here, we report a generalizable strategy utilizing a photomediated oxime ligation to covalently decorate naturally derived hydrogels with bioactive proteins including growth factors. This bioorthogonal photofunctionalization is readily amenable to mask-based and laser-scanning lithographic patterning, enabling full four-dimensional (4D) control over protein immobilization within virtually any natural protein-based biomaterial. Such versatility affords exciting opportunities to probe and direct advanced cell fates inaccessible using purely synthetic approaches in response to anisotropic environmental signaling.

Topics & Concepts

Self-healing hydrogelsBiomoleculeCell fate determination3D cell cultureNanotechnologyTissue engineeringCell functionOrganoidCellComputational biologyBiologyChemistryCell biologyMaterials scienceBiochemistryTranscription factorGeneticsGeneOrganic chemistry3D Printing in Biomedical ResearchHydrogels: synthesis, properties, applicationsCellular Mechanics and Interactions
Photopatterned biomolecule immobilization to guide three-dimensional cell fate in natural protein-based hydrogels | Litcius