Cell-derived ECM loaded electrospun Polycaprolactone/Chitosan nanofibrous scaffolds for periodontal regeneration

Author:

Santos Mafalda S.,Cordeiro Rachel,Moura Carla S.,Cabral Joaquim M. S.,Ferreira Frederico Castelo,Silva João C.,Carvalho Marta S.

Abstract

ABSTRACTPeriodontitis is an inflammatory infection caused by bacterial plaque accumulation that affects the periodontium, a complex structure of different tissues (cementum, periodontal ligament and alveolar bone) that surrounds and supports the teeth. Current treatments lack bioactive signals to induce tissue repair and coordinated regeneration of the periodontium, thus alternative strategies are needed to improve clinical outcomes. Cell-derived extracellular matrix (ECM) has been combined with biomaterials to enhance their biofunctionality for various tissue engineering (TE) applications. In this work, bioactive cell-derived ECM loaded electrospun polycaprolactone/chitosan (PCL/CTS) nanofibrous scaffolds were developed combining polymer solutions with lyophilized decellularized ECM (dECM) derived from human Periodontal Ligament Stem/Stromal Cells (PDLSCs). The work’s aims were to fabricate and characterize cell-derived ECM electrospun PCL/CTS scaffolds in terms of morphology, physico-chemical, thermal and mechanical properties and assess their ability to enhance the osteogenic differentiation of PDLSCs, envisaging periodontal TE applications. PDLSCs were cultured and used for dECM production. PDLSCs-derived dECM was characterized regarding morphology, protein expression, DNA removal efficiency, and glycosaminoglycans and collagen contents. Osteogenic differentiation of PDLSCs was performed on PCL, PCL/CTS and PCL/CTS/ECM electrospun scaffolds for 21 days. The obtained results demonstrate that PCL/CTS/ECM scaffolds promoted cell proliferation compared to PCL and PCL/CTS scaffolds, while maintaining similar physical and mechanical properties of PCL/CTS scaffolds. PCL/CTS/ECM scaffolds enhanced the osteogenic differentiation of PDLSCs, confirmed by increased alkaline phosphatase activity, calcium deposition, and bone-specific marker genes expression. Moreover, PCL/CTS scaffolds showed higher levels of cell mineralization than PCL scaffolds. Overall, this work describes the first use of lyophilized cell-derived ECM loaded electrospun scaffolds for periodontal TE applications and highlights its potential as a promising therapeutic strategy for periodontitis treatment.

Publisher

Cold Spring Harbor Laboratory

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