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首页> 外文期刊>Journal of biomaterials applications >Analysis of sequential dual immobilization of type I collagen and BMP-2 short peptides on hydrolyzed poly(buthylene succinate)/beta-tricalcium phosphate composites for bone tissue engineering
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Analysis of sequential dual immobilization of type I collagen and BMP-2 short peptides on hydrolyzed poly(buthylene succinate)/beta-tricalcium phosphate composites for bone tissue engineering

机译:水解聚(丁基琥珀酸盐)/β-β-β-β-β-β-β-β-β-β-β-β-β-β-β-三磷酸钙复合材料中的顺序双固定化的顺序双固定化分析

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Although attempts have been made to immobilize dual short peptides on a biomaterial surface, the optimization, characterization and functional analysis of the peptide immobilization onto poly(buthylene succinate)/beta-tricalcium phosphate (PBSu/TCP) composites have not yet been reported. The present study was, therefore, carried out to optimize and characterize the dual immobilization of type I collagen short peptide (COLsp) and bone morphogenetic protein-2 short peptide (BMP-2sp) onto hydrolyzed PBSu/TCP (HPBSu/TCP) composites, and the bioactivity of the resulting dual peptide-immobilized surfaces was also determined in vitro. The results demonstrated that sequential immobilization of the dual short peptides was successfully established. Each of the peptides was chemically bound to the 1.5 M NaOH-treated composite (with the PBSu to TCP weight ratio of 60:40) (HPBSu/TCP-6040-1.5); bright red fluorescence of COLsp (25 mu M) and vividly green fluorescence of BMP-2sp (50 mu M) were individually observed explicitly on the dual peptide-immobilized material. As a result, the HPBSu/TCP-6040-1.5 composite film conjugated with both 25 mu M Col I and 50 mu M BMP-2 was examined for its osteogenic efficacy. The results showed that COLsp/BMP-2sp-immobilized HPBSu/TCP composite significantly enhanced hMSC proliferation as well as osteoblast differentiation of hMSCs under osteogenic induction. Most importantly, COLsp/BMP-2sp-immobilized HPBSu/TCP composite induced biomineralization in the absence of any additional osteogenic stimulus. The present study has successfully demonstrated the sequential immobilization of the dual short peptides, i.e., COLsp and BMP-2sp, on HPBSu/TCP surface, with each short peptide being chemically bound to the hydrolyzed composite surface. The COLsp/BMP-2sp-immobilized HPBSu/TCP film possessed the bioactivities of the respective full-length proteins by stimulating hMSC proliferation, osteoblast differentiation and, most importantly, mineralization without the requirement of exogenous osteogenic supplements. This suggests highly improved performance of the biologically responsive HPBSu/TCP composite and thus its potential use in bone tissue engineering.
机译:尽管已经尝试在生物材料表面上固定双短肽,但尚未报道尚未报道肽固定的肽固定化物的优化,表征和磷酸盐(PBSU / TCP)复合材料上的优化,表征和功能分析。因此,对本研究进行了优化和表征I型胶原短肽(COLSP)和骨形态发生蛋白-2短肽(BMP-2SP)的双固定化在水解的PBSU / TCP(HPBSU / TCP)复合材料上,还在体外测定所得双肽 - 固定表面的生物活性。结果表明,成功建立了双短肽的顺序固定。将每种肽化学结合至1.5M NaOH处理的复合物(PBSU至TCP重量比为60:40)(HPBSU / TCP-6040-1.5);在双肽固定的材料上明确地明确地观察到Colsp(25μm)和生动的绿色荧光的Colsp(25μm)和生动的绿色荧光。结果,与25μmcol i和50μmbp-2缀合的Hpbsu / tcp-6040-1.5复合膜用于其骨质发生效果。结果表明,COLSP / BMP-2SP-Implobilized HPBSU / TCP复合材料显着增强了HMSC增殖以及骨质发生诱导下HMSCs的成骨细胞分化。最重要的是,在没有任何额外的骨质发生刺激的情况下,COLSP / BMP-2SP-2SP固定的HPBSU / TCP复合诱导的生物抗蛋白化。本研究成功地证明了双短肽,即COLSP和BMP-2SP的顺序固定,在HPBSU / TCP表面上,每条短肽都与水解复合表面化学结合。通过刺激HMSC的增殖,成骨细胞分化,最重要的是矿化,COLSP / BMP-2SP-Implobilized HPBSU / TCP膜具有各个全长蛋白的生物活性,而不是要求外源性骨质酸蛋白补充剂的要求。这表明生物反应性HPBSU / TCP复合材料的高度提高了性能,因此其在骨组织工程中的潜在用途。

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