Gunay, GokhanSever, MelikeTekinay, Ayse B.Güler, Mustafa O.2018-04-122018-04-1220171860-6768http://hdl.handle.net/11693/36417The extracellular matrix (ECM) provides biochemical signals and structural support for cells, and its functional imitation is a fundamental aspect of biomaterial design for regenerative medicine applications. The stimulation of neural differentiation by a laminin protein-derived epitope in two-dimensional (2D) and three-dimensional (3D) environments is investigated. The 3D gel system is found to be superior to its 2D counterpart for the induction of neural differentiation, even in the absence of a crucial biological inducer in nerve growth factor (NGF). In addition, cells cultured in 3D gels exhibits a spherical morphology that is consistent with their form under in vivo conditions. Overall, the present study underlines the impact of bioactivity, dimension, and NGF addition, as well as the cooperative effects thereof, on the neural differentiation of PC-12 cells. These results underline the significance of 3D culture systems in the development of scaffolds that closely replicate in vivo environments for the formation of cellular organoid models in vitro. © 2017 WILEY-VCH Verlag GmbH & Co. KGaA, WeinheimEnglish2D and 3D cell cultureExtracellular matrixLamininBioactivityBiomimeticsCell cultureCellsCytologyGelsPeptides3-D cell cultureExtracellular matricesLamininNeural differentiationsPeptide amphiphilesScaffolds (biology)AmphophileBeta III tubulinBeta tubulinEpitopeNanofiberNerve growth factorPeptidomimetic agentUnclassified drugControlled studyGene expressionHydrogelNerve cell differentiationNeuritePC12 cell linePriority journalProtein expressionThree-Dimensional Laminin Mimetic Peptide Nanofiber Gels for In Vitro Neural DifferentiationArticle10.1002/biot.201700080