Lipids and Minerals, Interplay in Biomineralization: Nature's Alchemy.

IF 5.1 2区 医学 Q2 CELL & TISSUE ENGINEERING Tissue Engineering. Part B, Reviews Pub Date : 2024-12-01 Epub Date: 2024-04-15 DOI:10.1089/ten.TEB.2023.0249
Bhingaradiya Nutan, Masahiro Okada, Takuya Matsumoto
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Abstract

The main focus of this article is the role of lipids in biomineralization. Much of the discussion on biomineralization focuses on proteins in these decades. Indeed, collagen and acidic noncollagenous proteins effectively serve as templates for mineralization. However, other macromolecules such as lipids and polysaccharides have received less attention despite their abundance at mineralization sites. The matrix vesicle (MV) theory is widely accepted as the induction of early mineralization. Although ion concentration within the vesicles has been discussed in the initial mineralization in this theory, the role of phospholipids that constitute the vesicle membrane has not been discussed much. Comprehensive considerations, including pathological mineralization, exist regardless of the localization of MVs, the involvement of bacteria in dental calculus formation, and biomineralization caused by marine organisms such as corals, suggesting that initial mineralization found in these biological conditions might be a common reaction relating to lipids. In contrast, despite the abundance of lipids, mineralization occurs only in the limited tissue within our body. In other words, gathering knowledge and creating a path to understanding about lipid-based mineralization is extremely important in proposing new bone disease treatment methods. This article describes how lipids influence nucleation, mineralization, and expansion during hard tissue formation. Impact statement Recent studies have accumulated evidence of mineralization involving phospholipids and the matrix vesicle (MV) theory. Mineralization occurs not only in the conventional vesicle form but also in flat membranes arrested by the matrix. The flat membrane is derived not only from MVs but also from various causes, such as cell rupture and cell apoptosis. Mineralization is greatly affected by alkaline phosphatases derived from cell membranes. By understanding phospholipid-based mineralization, it will be possible to design new mineralization-inducing materials centered on cellular components for early bone formation. This article is important for developing new strategies to induce bone mineralization.

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脂质和矿物质,生物矿化中的相互作用:大自然的炼金术
本文的重点是脂质在生物矿化中的作用。这几十年来,关于生物矿化的讨论大多集中在蛋白质方面。的确,胶原蛋白和酸性非胶原蛋白可有效地作为矿化的模板。然而,其他大分子,如脂类和多糖,尽管在矿化部位大量存在,却很少受到关注。基质囊泡理论被广泛认为是早期矿化的诱导因素。虽然该理论讨论了囊泡内的离子浓度在初始矿化过程中的作用,但对构成囊泡膜的磷脂的作用讨论不多。综合考虑病理矿化与基质囊泡的定位无关、细菌参与牙结石形成以及珊瑚等海洋生物引起的生物矿化等因素,这些生物条件下的初始矿化可能是与脂质有关的共同反应。另一方面,尽管脂质丰富,但矿化只发生在人体内有限的组织中。换句话说,收集有关脂质矿化的知识并开辟一条了解脂质矿化的途径,对于提出新的骨病治疗方法极为重要。本文介绍了脂质如何影响硬组织形成过程中的成核、矿化和膨胀。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Tissue Engineering. Part B, Reviews
Tissue Engineering. Part B, Reviews Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
12.80
自引率
1.60%
发文量
150
期刊介绍: Tissue Engineering Reviews (Part B) meets the urgent need for high-quality review articles by presenting critical literature overviews and systematic summaries of research within the field to assess the current standing and future directions within relevant areas and technologies. Part B publishes bi-monthly.
期刊最新文献
Analysis of Three-dimensional Printing Strategies for Meniscus/Articular Disc Repair and Regeneration. Epicatechin Derivatives in Tissue Engineering: Antioxidant, Anti-Inflammatory, Regenerative Use. Photoaging Decoded: Extracellular Matrix Alterations and Mechanisms via Mitogen-Activated Protein Kinase/Matrix Metalloproteinase, Transforming Growth Factor-β Pathways, and Glycosaminoglycan Metabolism. Lipids and Minerals, Interplay in Biomineralization: Nature's Alchemy. Challenges in Nasal Cartilage Tissue Engineering to Restore the Shape and Function of the Nose.
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