Tailored biomimetic hydrogel based on a photopolymerised DMP1/MCF/gelatin hybrid system for calvarial bone regeneration

Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration. Dentin matrix protein 1 (DMP1) seems to be...

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Published inJournal of materials chemistry. B, Materials for biology and medicine Vol. 6; no. 3; pp. 414 - 427
Main Authors Lin, Shuxian, Cao, Lingyan, Wang, Qian, Du, Jiahui, Jiao, Delong, Duan, Shengzhong, Wu, Jiannan, Gan, Qi, Jiang, Xinquan
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 21.01.2018
Subjects
Alkaline phosphatase
Biocompatibility
Biomarkers
Biomedical materials
Biomimetic materials
Biomimetics
Bone growth
Bone marrow
Bone matrix
Cbfa-1 protein
Dentin
Dmp1 protein
Embedded systems
Extracellular matrix
Gelatin
Hybrid systems
Hydrogels
In vivo methods and tests
Kinetics
Mineralization
Nodules
Osteogenesis
Pore size
Pore size distribution
Porosity
Regeneration
Regeneration (physiology)
Silica
Silicon dioxide
Size distribution
Stem cell transplantation
Stem cells
Structural hierarchy
Synergistic effect
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Abstract Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration. Dentin matrix protein 1 (DMP1) seems to be a highly promising candidate due to its pleiotropic bio-regulation roles in several bone formation processes including osteoinduction, osteogenesis and biomineralization. In this study, we first generated a novel meso/macro-structured photopolymerised hybrid hydrogel system, in which DMP1 was loaded in mesocellular silica foam (MCF) and then evenly embedded in the photopolymerised gelatin hydrogel. This DMP1-loaded hybrid system (DMP1/MCF/gel) exhibited a hierarchical porous structure according to the surface area and pore size distribution analysis, TEM and SEM. Protein loading quantification and release kinetics experiments demonstrated that DMP1 is well protected and stably released for a longer duration in the DMP1/MCF/gel system. The expression levels of bone markers in the BMSCs under the co-treatment of both Si ion and DMP1 suggested there was a synergistic effect between Si ion and DMP1, both of which could be released from DMP1/MCF/gel system. Further in vitro osteoinductive experiments of bone marrow stem cells (BMSCs) showed that the DMP1/MCF/gel system enhanced the activity of alkaline phosphatase (ALP), promoted the formation of mineralized bone nodules, and up-regulated the expression levels of several osteogenic markers (including Runx2 , Osx , Bsp , Ocn , Opn , and Dmp1 ). In addition, both µ-CT and histological studies suggested that the in vivo repair of rat calvarial defects using the DMP1/MCF/gel system led to accelerated bone regeneration with better mineralization and higher quality. In summary, this work generated a tailored biomimetic hydrogel based on a photopolymerised DMP1/MCF/gel hybrid system, which mimicked the non-mineralized bone ECM and resulted in improved bone regeneration. Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration.
AbstractList Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration. Dentin matrix protein 1 (DMP1) seems to be a highly promising candidate due to its pleiotropic bio-regulation roles in several bone formation processes including osteoinduction, osteogenesis and biomineralization. In this study, we first generated a novel meso/macro-structured photopolymerised hybrid hydrogel system, in which DMP1 was loaded in mesocellular silica foam (MCF) and then evenly embedded in the photopolymerised gelatin hydrogel. This DMP1-loaded hybrid system (DMP1/MCF/gel) exhibited a hierarchical porous structure according to the surface area and pore size distribution analysis, TEM and SEM. Protein loading quantification and release kinetics experiments demonstrated that DMP1 is well protected and stably released for a longer duration in the DMP1/MCF/gel system. The expression levels of bone markers in the BMSCs under the co-treatment of both Si ion and DMP1 suggested there was a synergistic effect between Si ion and DMP1, both of which could be released from DMP1/MCF/gel system. Further in vitro osteoinductive experiments of bone marrow stem cells (BMSCs) showed that the DMP1/MCF/gel system enhanced the activity of alkaline phosphatase (ALP), promoted the formation of mineralized bone nodules, and up-regulated the expression levels of several osteogenic markers (including Runx2, Osx, Bsp, Ocn, Opn, and Dmp1). In addition, both µ-CT and histological studies suggested that the in vivo repair of rat calvarial defects using the DMP1/MCF/gel system led to accelerated bone regeneration with better mineralization and higher quality. In summary, this work generated a tailored biomimetic hydrogel based on a photopolymerised DMP1/MCF/gel hybrid system, which mimicked the non-mineralized bone ECM and resulted in improved bone regeneration.
Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration. Dentin matrix protein 1 (DMP1) seems to be a highly promising candidate due to its pleiotropic bio-regulation roles in several bone formation processes including osteoinduction, osteogenesis and biomineralization. In this study, we first generated a novel meso/macro-structured photopolymerised hybrid hydrogel system, in which DMP1 was loaded in mesocellular silica foam (MCF) and then evenly embedded in the photopolymerised gelatin hydrogel. This DMP1-loaded hybrid system (DMP1/MCF/gel) exhibited a hierarchical porous structure according to the surface area and pore size distribution analysis, TEM and SEM. Protein loading quantification and release kinetics experiments demonstrated that DMP1 is well protected and stably released for a longer duration in the DMP1/MCF/gel system. The expression levels of bone markers in the BMSCs under the co-treatment of both Si ion and DMP1 suggested there was a synergistic effect between Si ion and DMP1, both of which could be released from DMP1/MCF/gel system. Further in vitro osteoinductive experiments of bone marrow stem cells (BMSCs) showed that the DMP1/MCF/gel system enhanced the activity of alkaline phosphatase (ALP), promoted the formation of mineralized bone nodules, and up-regulated the expression levels of several osteogenic markers (including Runx2 , Osx , Bsp , Ocn , Opn , and Dmp1 ). In addition, both µ-CT and histological studies suggested that the in vivo repair of rat calvarial defects using the DMP1/MCF/gel system led to accelerated bone regeneration with better mineralization and higher quality. In summary, this work generated a tailored biomimetic hydrogel based on a photopolymerised DMP1/MCF/gel hybrid system, which mimicked the non-mineralized bone ECM and resulted in improved bone regeneration. Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration.
Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone extracellular matrix (ECM), seems to be an optimum strategy for achieving ideal bone regeneration. Dentin matrix protein 1 (DMP1) seems to be a highly promising candidate due to its pleiotropic bio-regulation roles in several bone formation processes including osteoinduction, osteogenesis and biomineralization. In this study, we first generated a novel meso/macro-structured photopolymerised hybrid hydrogel system, in which DMP1 was loaded in mesocellular silica foam (MCF) and then evenly embedded in the photopolymerised gelatin hydrogel. This DMP1-loaded hybrid system (DMP1/MCF/gel) exhibited a hierarchical porous structure according to the surface area and pore size distribution analysis, TEM and SEM. Protein loading quantification and release kinetics experiments demonstrated that DMP1 is well protected and stably released for a longer duration in the DMP1/MCF/gel system. The expression levels of bone markers in the BMSCs under the co-treatment of both Si ion and DMP1 suggested there was a synergistic effect between Si ion and DMP1, both of which could be released from DMP1/MCF/gel system. Further in vitro osteoinductive experiments of bone marrow stem cells (BMSCs) showed that the DMP1/MCF/gel system enhanced the activity of alkaline phosphatase (ALP), promoted the formation of mineralized bone nodules, and up-regulated the expression levels of several osteogenic markers (including Runx2 , Osx , Bsp , Ocn , Opn , and Dmp1 ). In addition, both µ-CT and histological studies suggested that the in vivo repair of rat calvarial defects using the DMP1/MCF/gel system led to accelerated bone regeneration with better mineralization and higher quality. In summary, this work generated a tailored biomimetic hydrogel based on a photopolymerised DMP1/MCF/gel hybrid system, which mimicked the non-mineralized bone ECM and resulted in improved bone regeneration.
Author Cao, Lingyan
Du, Jiahui
Jiao, Delong
Gan, Qi
Duan, Shengzhong
Jiang, Xinquan
Wang, Qian
Wu, Jiannan
Lin, Shuxian
AuthorAffiliation Ninth People's Hospital
Stomatological Hospital of Chongqing Medical University
Ninth People's Hospital affiliated to Shanghai Jiao Tong University
Shanghai Research Institute of Stomatology
Department of Oral and Maxillofacial Surgery
Shanghai Key Laboratory of Stomatology
East China University of Science and Technology
Laboratory of Oral Microbiota and Systemic Diseases
Department of Prosthodontics
The State Key Laboratory of Bioreactor Engineering
Oral Bioengineering Lab
School of Medicine
School of Stomatology
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– name: Stomatological Hospital of Chongqing Medical University
– name: Department of Prosthodontics
– name: School of Stomatology
– name: East China University of Science and Technology
– name: Shanghai Research Institute of Stomatology
– name: Laboratory of Oral Microbiota and Systemic Diseases
– name: Department of Oral and Maxillofacial Surgery
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Snippet Searching for effective osteoinduction factors with higher specificity and biosafety for the preparation of biomimetic materials, which mimic the natural bone...
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SubjectTerms Alkaline phosphatase
Biocompatibility
Biomarkers
Biomedical materials
Biomimetic materials
Biomimetics
Bone growth
Bone marrow
Bone matrix
Cbfa-1 protein
Dentin
Dmp1 protein
Embedded systems
Extracellular matrix
Gelatin
Hybrid systems
Hydrogels
In vivo methods and tests
Kinetics
Mineralization
Nodules
Osteogenesis
Pore size
Pore size distribution
Porosity
Regeneration
Regeneration (physiology)
Silica
Silicon dioxide
Size distribution
Stem cell transplantation
Stem cells
Structural hierarchy
Synergistic effect
Title Tailored biomimetic hydrogel based on a photopolymerised DMP1/MCF/gelatin hybrid system for calvarial bone regeneration
URI https://www.ncbi.nlm.nih.gov/pubmed/32254521
https://www.proquest.com/docview/2010904016
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