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Comparison of decellularization protocols for cultured cell‐derived extracellular matrix—Effects on decellularization efficacy, extracellular matrix retention, and cell functions

Takashi Hoshiba, Shunji Yunoki

2022Journal of Biomedical Materials Research Part B Applied Biomaterials28 citationsDOI

Abstract

The in vitro reconstruction of the extracellular matrix (ECM) is required in tissue engineering and regenerative medicine because the ECM can regulate cell functions in vivo. For ECM reconstruction, a decellularization technique is used. ECM reconstructed by decellularization (dECM) is prepared from tissues/organs and cultured cells. Although decellularization methods have been optimized for tissue-/organ-derived dECM, the methods for cultured cell-derived dECM have not yet been optimized. Here, two physical (osmotic shocks) and five chemical decellularization methods are compared. The decellularization efficacies were changed according to the decellularization methods used. Among them, only the Triton X-100 and Tween 20 treatments could not decellularize completely. Additionally, when the efficacies were compared among different types of cells (monolayered cells with/without strong cell adhesion, multilayered cells), the efficacies were decreased for multilayered cells or cells with strong cell adhesion. Retained ECM contents tended to be greater in the dECM prepared by osmotic shocks than in those prepared by chemical methods. The contents impacted cell adhesion, shapes, growth and intracellular signal activation on the dECM. The comparison would be helpful for the optimization of decellularization methods for cultured cells, and it could also provide new insights into developing milder decellularization methods for tissues and organs.

Topics & Concepts

DecellularizationExtracellular matrixTissue engineeringBiomedical engineeringCell biologyMaterials scienceCell adhesionCellAdhesionMatrix (chemical analysis)ExtracellularBiophysicsChemistryBiologyBiochemistryMedicineComposite materialTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical ApplicationsBone Tissue Engineering Materials
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