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Tailored thymoquinone intercalated Layered Double Hydroxide (LDH) nanocomposites to accelerate mineralization for enhanced osteogenesis
Abstract The tunable nature of two-dimensional nanostructured Layered Double Hydroxides [LDH] and their effective intercalation ability with biomolecules make them inevitable functional hybrid materials for versatile biomedical applications. In an attempt to meet the limitations in existing bone reconstruction practice, the present work reports the synthesis of zinc and iron-based LDH [Zn-Fe LDH] and its subsequent intercalation with thymoquinone [TQ-Zn-Fe LDH] to augment osteoblastic differentiation and proliferation for accelerated bone mineralization. Structural studies depicted the polycrystalline and amorphous nature of ZnFe LDH and TQ-Zn-Fe LDH respectively. The biocompatible nature of LDHs was proven by negative cytotoxicity, cell adhesion, and proliferation assays studied in MG-63 cell lines. Gene expression studies of the nanocomposites showed a fold change of 5–10 in osteoblastic differentiation and proliferation. However, TQ-Zn-Fe LDH treated cells showed significantly higher protein translation levels of osteogenesis markers and elevated alkaline phosphatase secretion and calcium deposition on day 21, confirming their osteogenic efficiency. Thus, acquired results speculate the osteogenic potential of thymoquinone intercalated TQ-Zn-Fe-LDH to meet the limitations in bone reconstruction practice.
Graphical abstract Display Omitted
Highlights Thymoquinone intercalated ZnFe LDH provides a multidirectional effect on osteogenesis. LDH helps in the augmentation of osteoblastogenesis and inhibition of osteoclastogenesis. Sequential expression of alkaline Phosphatase aids in maintaining the bone homeostasis. TQ-Zn-Fe LDH aids in accelerated mineralization by enhanced calcium deposition. The synergistic effect of Zn, Fe, and TQ makes it a promising candidate for bone regeneration.
Tailored thymoquinone intercalated Layered Double Hydroxide (LDH) nanocomposites to accelerate mineralization for enhanced osteogenesis
Abstract The tunable nature of two-dimensional nanostructured Layered Double Hydroxides [LDH] and their effective intercalation ability with biomolecules make them inevitable functional hybrid materials for versatile biomedical applications. In an attempt to meet the limitations in existing bone reconstruction practice, the present work reports the synthesis of zinc and iron-based LDH [Zn-Fe LDH] and its subsequent intercalation with thymoquinone [TQ-Zn-Fe LDH] to augment osteoblastic differentiation and proliferation for accelerated bone mineralization. Structural studies depicted the polycrystalline and amorphous nature of ZnFe LDH and TQ-Zn-Fe LDH respectively. The biocompatible nature of LDHs was proven by negative cytotoxicity, cell adhesion, and proliferation assays studied in MG-63 cell lines. Gene expression studies of the nanocomposites showed a fold change of 5–10 in osteoblastic differentiation and proliferation. However, TQ-Zn-Fe LDH treated cells showed significantly higher protein translation levels of osteogenesis markers and elevated alkaline phosphatase secretion and calcium deposition on day 21, confirming their osteogenic efficiency. Thus, acquired results speculate the osteogenic potential of thymoquinone intercalated TQ-Zn-Fe-LDH to meet the limitations in bone reconstruction practice.
Graphical abstract Display Omitted
Highlights Thymoquinone intercalated ZnFe LDH provides a multidirectional effect on osteogenesis. LDH helps in the augmentation of osteoblastogenesis and inhibition of osteoclastogenesis. Sequential expression of alkaline Phosphatase aids in maintaining the bone homeostasis. TQ-Zn-Fe LDH aids in accelerated mineralization by enhanced calcium deposition. The synergistic effect of Zn, Fe, and TQ makes it a promising candidate for bone regeneration.
Tailored thymoquinone intercalated Layered Double Hydroxide (LDH) nanocomposites to accelerate mineralization for enhanced osteogenesis
Sekar Jeyakumar, Grace Felciya (Autor:in) / Gunasekaran, Deebasuganya (Autor:in) / Panneerselvam Manimegalai, Nivethitha (Autor:in) / Tiruchirapalli Sivagnanam, Uma (Autor:in)
Applied Clay Science ; 252
09.03.2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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