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Effects of Modulation of the Hedgehog and Notch Signaling Pathways on Osteoblast Differentiation Induced by Titanium with Nanotopography

Paola Gomes Souza, Letícia Faustino Adolpho, Helena Bacha Lopes, Denise Weffort, Alann Thaffarell Portilho Souza, Fabíola Singaretti Oliveira, Adalberto Luiz Rosa, Márcio Mateus Beloti

2023Journal of Functional Biomaterials13 citationsDOIOpen Access PDF

Abstract

Background: The events of bone formation and osteoblast/titanium (Ti) interactions may be affected by Hedgehog and Notch signalling pathways. Herein, we investigated the effects of modulation of these signalling pathways on osteoblast differentiation caused by the nanostructured Ti (Ti-Nano) generated by H2SO4/H2O2. Methods: Osteoblasts from newborn rat calvariae were cultured on Ti-Control and Ti-Nano in the presence of the Hedgehog agonist purmorphamine or antagonist cyclopamine and of the Notch antagonist N-(3,5-Difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (DAPT) or agonist bexarotene. Osteoblast differentiation was evaluated by alkaline phosphatase activity and mineralization, and the expression of Hedgehog and Notch receptors was also evaluated. Results: In general, purmorphamine and DAPT increased while cyclopamine and bexarotene decreased osteoblast differentiation and regulated the receptor expression on both Ti surfaces, with more prominent effects on Ti-Nano. The purmorphamine and DAPT combination exhibited synergistic effects on osteoblast differentiation that was more intense on Ti-Nano. Conclusion: Our results indicated that the Hedgehog and Notch signalling pathways drive osteoblast/Ti interactions more intensely on nanotopography. We also demonstrated that combining Hedgehog activation with Notch inhibition exhibits synergistic effects on osteoblast differentiation, especially on Ti-Nano. The uncovering of these cellular mechanisms contributes to create strategies to control the process of osseointegration based on the development of nanostructured surfaces.

Topics & Concepts

NanotopographyMaterials scienceHedgehogOsteoblastTitaniumNotch signaling pathwayCell biologyModulation (music)Hedgehog signaling pathwayNanotechnologySignal transductionBiologyMetallurgyBiochemistryAestheticsIn vitroPhilosophyBone Tissue Engineering MaterialsBone Metabolism and DiseasesHedgehog Signaling Pathway Studies