钛在活骨内固定的生化机制:骨中的酸溶性磷蛋白与钛结合并诱导体内软骨内成骨

Y. Kuboki, K. Yagami, Michiko Terada-Nakaishi, T. Furusawa, Y. Nakaoki, M. Kurasaki
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引用次数: 4

摘要

2014年,我们发现骨磷蛋白具有钛结合能力,统称为四不令蛋白家族。此外,钛结合的兄弟姐妹涂层钛植入装置植入大鼠颅骨后,早期骨形成速度提高了100倍以上。这些发现使我们能够解释为什么钛植入物可以固定在活骨中。通过使用填充钛珠的色谱柱,还发现了其他几种磷蛋白,包括磷维素、酪蛋白和磷蛋白(一种牙本质磷蛋白)与钛结合。在这项研究中,我们证明了一种典型的磷蛋白,phosvitin在与λ蛋白磷酸酶的反应中以一种时间依赖性的方式失去了其与钛的结合能力。事实证实,某些特定的磷丝氨酸λ残基在该蛋白是负责钛蛋白相互作用。为了进一步证实兄弟姐妹-钛相互作用,我们采用一种新的简单的酸性条件提取骨和牙本质蛋白,并将其应用于钛珠填充的色谱柱。结果表明,骨和牙本质的酸溶性蛋白的一定部分保留在柱中。电泳分析显示,保留的部分均为染色阳性,表明骨和牙本质均含有多种与钛有亲和力的磷蛋白。将酸提物的钛结合部分再次包被在钛装置上,植入大鼠颅骨。1周后组织学观察显示,除骨形成模式明确外,软骨内成骨过程清晰。未涂覆钛装置对照种植体仅观察到胶原组织,未见软骨和骨形成。基于这些发现,我们再次确认了钛与活骨之间牢固结合的核心生化机制是基于植入钛与宿主组织中多种骨磷酸化蛋白之间的相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biochemical Mechanism of Titanium Fixation into Living Bone: Acid Soluble Phosphoproteins in Bone Binds with Titanium and Induced Endochondral Ossification in vivo
SYNOPSIS In 2014, we discovered that bone phosphoproteins, which are collectively called SIBULING family of proteins, are equipped with titanium-binding ability. Further-more, the titanium implant devices which were coated with titanium-bound SIBLING induced more than 100 times faster bone formation of early stage when implanted into rat calvaria. These findings led us to an explanation why titanium implants could be fixed into living bone. Several other phosphoproteins including, phosvitin, caseins and phosphophoryn (a dentin phosphoprotein) were also found to bind with titanium by use of a chromatographic column packed with titanium beads. In this study we demonstrated that a typical phosphoprotein, phosvitin lost its titanium-binding ability in a time-dependent manner by the reaction with λ -protein phosphatase. The fact confirmed that certain specific phosphoserines λ residues in this protein were responsible for the titanium-protein interaction. For an additional confirmation of SIBLING-titanium interaction, we extracted bone and dentin proteins with a new and simple method of acidic condition and applied them to the chromatographic column packed with titanium beads. The results showed that definite portions of the acid soluble proteins from both bone and dentin were retained in the column. Electrophoretic analysis showed the retained fractions were Stains-all positive, indicating that both bone and dentin contain multiple phosphoproteins which have affinity with titanium. The titanium-bound fraction of acid extract was again coated on the titanium device and implanted into rat calvaria. After one week, histology showed that in addition to definite pattern of bone formation, process of endochondral ossification was clearly observed. In the control implant of uncoated titanium device, only collagenous tissues were observed, without any cartilage nor bone formation. Based upon these findings we reconfirmed that the core biochemical mechanisms underlying the strong bond between the titanium and living bone is based upon the interaction between the implanted titanium and multiple bone phosphoproteins in the host tissue.
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