Immobilization of bone morphogenetic protein-2 to gelatin/avidin-modified hydroxyapatite composite scaffolds for bone regeneration

Cheng, Cheng-Hsin; Lai, Yi-Hui; Chen, Yiwen; Yao, Chun‐Hsu; Chen, Kuo-Yu

doi:10.1177/0885328218820636

Cited by 17 publications

(11 citation statements)

References 26 publications

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“…In previous studies, we developed a TCP-crosslinked gelatin scaffold and a bone morphogenetic protein-2 (BMP-2)-immobilized gelatin/HA composite for promoting bone regeneration ( Lin et al, 1998 ; Cheng et al, 2019 ). To investigate the effect of physical treatments, we also developed a method to remodel bone tissues via ES treatment, indicating that ES treatment stimulates bone tissue regrowth after 12 weeks ( Yang et al, 2013 ).…”

Section: Discussionmentioning

confidence: 99%

Remodeling Effects of the Combination of GGT Scaffolds, Percutaneous Electrical Stimulation, and Acupuncture on Large Bone Defects in Rats

Yao

Yang

2022

Front. Bioeng. Biotechnol.

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The regeneration defect of bone is a long-term physiological process after bone injuries. To accelerate the bone remodeling process, the combination of chemical and physical stimulations provides an efficient strategy to allow maturation and to functionalize osteoclasts and osteoblasts. This study aims to investigate the dual effects of a tricalcium phosphate (TCP)-based gelatin scaffold (GGT) in combination with electroacupuncture stimulation on the activation of osteoclasts and osteoblasts, as well as new bone regrowth in vitro and in vivo. We demonstrated that electrical stimulation changes the pH of a culture medium and activates osteoblasts and osteoclasts in an in vitro co-culture system. Furthermore, we showed that electroacupuncture stimulation can enhance osteogenesis and new bone regrowth in vivo and can upregulate the mechanism among parathyroid hormone intact (PTH-i), calcium, osteoclasts, and osteoblasts in the bone-defected rats. Those results showed the potential interest to combine the electroacupuncture technique with GGT scaffolds to improve bone remodeling after injury.

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Section: Discussionmentioning

confidence: 99%

Remodeling Effects of the Combination of GGT Scaffolds, Percutaneous Electrical Stimulation, and Acupuncture on Large Bone Defects in Rats

Yao

Yang

2022

Front. Bioeng. Biotechnol.

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“…Many studies employ the avidin-biotin system as specific molecular glue and would benefit from the added binding sites and consequent binding capacity. A relevant system became recently apparent where avidin was used in bone-tissue engineering studies [41].…”

Section: Discussionmentioning

confidence: 99%

Generating a High Valency Biotin Binder by Selecting Uniform Protein Assemblies via Crystallization

2019

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Crystallization is a common practice in the purification process in small molecule synthesis while selecting the wanted product. For proteins it is rarely applied due to the methodological predicaments in obtaining crystals. Our observation of the stabilized octamers in the crystal structure of hoefavidin, a novel dimeric member of the avidin family, led to the notion of developing a novel biotechnological tool via covalent crosslinking. The avidin–biotin system has been exploited for decades utilizing the ultra-high affinity between avidin and biotin as a basis for numerous applications. Optimizing the system led to the discovery of a novel group of dimeric avidins including hoefavidin. Hoefavidin has a dynamic quaternary structure, where a dimer is the basis for generating the octamer via crystallographic symmetry operation. Upon biotin binding in solution hoefavidin dissociates solely into dimers. In order to stabilize the octamer, we designed the P61C mutant to form a disulfide bridge stabilizing the octamer and preventing dissociation upon biotin binding. The process of selecting P61C hoefavidin uniform octamers includes crystallization followed by dissolving the crystals. The P61C modified hoefavidin octamer can have a substantial added value to the various biotechnological applications and advances of the biotin based high affinity systems.

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“…EDC mediates the reaction between a carboxylic acid and an amine to form a stable amide bond between the GF and the substrate surface. It has been used to conjugate TGF-β1, , TGF-β3, , BMP-2, ,− and BMP-4 , to a variety of biomaterials. SMCC links amines and thiols and has been used to conjugate TGF-β1 , and BMP-2. ,,,, …”

Section: Covalent Techniquesmentioning

confidence: 99%

Strategies to Control or Mimic Growth Factor Activity for Bone, Cartilage, and Osteochondral Tissue Engineering

2021

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Growth factors play a critical role in tissue repair and regeneration. However, their clinical success is limited by their low stability, short half-life, and rapid diffusion from the delivery site. Supraphysiological growth factor concentrations are often required to demonstrate efficacy but can lead to adverse reactions, such as inflammatory complications and increased cancer risk. These issues have motivated the development of delivery systems that enable sustained release and controlled presentation of growth factors. This review specifically focuses on bioconjugation strategies to enhance growth factor activity for bone, cartilage, and osteochondral applications. We describe approaches to localize growth factors using noncovalent and covalent methods, bind growth factors via peptides, and mimic growth factor function with mimetic peptide sequences. We also discuss emerging and future directions to control spatiotemporal growth factor delivery to improve functional tissue repair and regeneration.

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Immobilization of bone morphogenetic protein-2 to gelatin/avidin-modified hydroxyapatite composite scaffolds for bone regeneration

Cited by 17 publications

References 26 publications

Remodeling Effects of the Combination of GGT Scaffolds, Percutaneous Electrical Stimulation, and Acupuncture on Large Bone Defects in Rats

Remodeling Effects of the Combination of GGT Scaffolds, Percutaneous Electrical Stimulation, and Acupuncture on Large Bone Defects in Rats

Generating a High Valency Biotin Binder by Selecting Uniform Protein Assemblies via Crystallization

Strategies to Control or Mimic Growth Factor Activity for Bone, Cartilage, and Osteochondral Tissue Engineering

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