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Peptide functionalized DNA hydrogel enhances neuroblastoma cell growth and differentiation

Pravin Hivare, Ankit Gangrade, Gitanjali Swarup, Krishna Bhavsar, Ankur Singh, Ratnika Gupta, Prachi Thareja, Sharad Gupta, Dhiraj Bhatia

2022Nanoscale42 citationsDOI

Abstract

Designing programmable biomaterials that could act as extracellular matrices and permit functionalization is a current need for tissue engineering advancement. DNA based hydrogels are gaining significant attention owing to their self-assembling properties, biocompatibility, chemical robustness and low batch to batch variability. The real potential of DNA hydrogels in the biomedical domain remains to be explored. In this work, a DNA hydrogel was coated on a glass surface and coupled to a synthetic IKVAV peptide by a chemical crosslinker. We observe enhanced neuronal differentiation, prolonged neurite length, dynamic movement of microtubules and cytoskeleton, and altered endocytic mechanisms in neuroblastoma-based stem cells for the peptide modified DNA hydrogel compared to the unmodified DNA hydrogel and controls. We anticipate that a peptide-modified DNA hydrogel could emerge as a promising scaffold coating material to develop nerve tissue conduits in the future for application in neuroscience and neuroregeneration.

Topics & Concepts

Self-healing hydrogelsBiocompatibilityNanotechnologyBiophysicsPeptideSurface modificationTissue engineeringMaterials scienceDNAScaffoldCell biologyNeural tissue engineeringChemistryBiomedical engineeringBiochemistryBiologyRegeneration (biology)Physical chemistryMedicinePolymer chemistryMetallurgyAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliverySupramolecular Self-Assembly in Materials
Peptide functionalized DNA hydrogel enhances neuroblastoma cell growth and differentiation | Litcius