Unveiling the mechanism of an amelogenin-derived peptide in promoting enamel biomimetic remineralization

釉原蛋白 搪瓷漆 化学 再矿化 成核 牙釉质 仿生合成 生物物理学 结晶学 材料科学 生物化学 有机化学 生物 复合材料
作者
Die Hu,Qian Ren,Zhongcheng Li,Sili Han,Longjiang Ding,Ziqian Lu,Linglin Zhang
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:253 (Pt 7): 127322-127322 被引量:14
标识
DOI:10.1016/j.ijbiomac.2023.127322
摘要

Amelogenin and its derived peptides have exhibited excellent efficacy in promoting enamel biomimetic remineralization. However, little is known about their specific action mechanisms. Herein, by combining experiments and computer simulation, the mechanism of an amelogenin-derived peptide QP5 in regulating enamel biomimetic remineralization is unveiled for the first time. In experiments, peptide QP5 was separated into (QPX)5 and C-tail domains, the interactions of peptide-minerals in nucleation solution and the regulation of peptide on enamel biomimetic remineralization were explored. QP5 exhibited an unordered conformation when mineral ions existed, and it could adsorb on minerals through its two domains, thereby inhibiting spontaneous nucleation. The remineralized enamel regulated by C-tail showed better mechanical properties and formed more biomimetic crystals than that of (QPX)5, indicating the C-tail domain of QP5 played an important role in forming enamel-like crystals. The simulation results showed that the conformation of QP5 changed greatly, mainly exhibiting β-bend, β-turn, and coil structures, and it eventually adsorbed on enamel through negatively charged residues of the C-tail domain, then captured Ca2+ from solution to promote enamel remineralization. This study improved the evaluation methods of the mechanism of biomimetic peptides, and laid a theoretical basis for the amelioration and clinical transformation of peptide QP5.
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