Application of Neutron-Irradiated 6Li (n, α) 3H Reaction to a Protein-Based Fibrous Non-Woven Fabric Biopolymer: Radiolabeling of Cross-Linked Natural Fibrous Chicken Eggshell Membranes and Their Whole-Body Tissue Distribution after Oral Ingestion in Mice

IF 0.3 4区工程技术 Q4 MATERIALS SCIENCE, TEXTILES Journal of Fiber Science and Technology Pub Date : 2021-06-15 DOI:10.2115/FIBERST.2021-0018

Eri Ohto-Fujita, N. Nogawa, Miho Shimizu, K. Ijiri, Yukio Hasebe, Y. Atomi

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Abstract

: Chicken eggshell membrane (ESM) is composed of a non-woven fibrous biopolymer fabric cross-linked by collagen (mainly types X and V), lysyl oxidase, and other molecules, including glycoproteins and lipids, which are secreted by cells in the henʼs fallopian tube. ESM has been reported to improve osteoarthritic knee pain when taken as a supplement and to have anti-fibrotic effects in rodents. ESM has physiological effects in vivo after digestion, absorption, and metabolism, but the mechanism of ESM efficacy remains unclear. We aimed to determine whether ESM is digested and absorbed by the body, although its metabolic mechanism has not been described. Although it is possible to create compounds labeled with single molecules, ESMs are insoluble, fibrillar, natural composite materials, and the molecular form of digested and absorbed ESM is unknown, so it is not possible to prepare synthetically labeled compounds. We developed a method for direct tritium labeling of ESM and investigated the absorption of the labeled ESM. Organic compounds, such as proteins, were mixed with lithium carbonate and then irradiated to label with 3 H produced by the 6 Li (n, α ) 3 H reaction. Mice were orally administered tritium-labeled ESM, and blood and tissue radioactivity were measured using a liquid scintillation counter. Tritium-labeled ESM was distributed in the blood and all tissues after oral administration. Our method enabled successful tritium labeling of fibrous ESM, which allowed for metabolic evaluation of the labeled ESM product as it was digested and absorbed by the organs of experimental mice. This advanced tritium recoiling labeling method can be used for in vivo tracking of complex acellular extracellular matrix bioscaffolds used in biomedical research.

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中子辐照6Li（n，α）3H反应在蛋白纤维无纺布生物聚合物中的应用——交联天然纤维鸡蛋壳膜的放射性标记及其在小鼠口服后的全身组织分布

鸡蛋壳膜(Chicken eggshell membrane, ESM)是由鸡输卵管细胞分泌的胶原蛋白(主要是X型和V型)、赖氨酸氧化酶和其他分子(包括糖蛋白和脂质)交联而成的无纺布纤维生物聚合物织物。据报道，ESM可以改善骨关节炎膝关节疼痛，并在啮齿动物中具有抗纤维化作用。ESM在体内经消化、吸收和代谢后具有生理作用，但其作用机制尚不清楚。我们的目的是确定ESM是否被人体消化和吸收，尽管其代谢机制尚未被描述。虽然可以制造单分子标记的化合物，但ESM是不溶性的、纤维状的天然复合材料，消化和吸收ESM的分子形态是未知的，因此制备合成标记化合物是不可能的。我们开发了一种直接标记ESM的方法，并研究了标记后的ESM的吸收。将有机化合物(如蛋白质)与碳酸锂混合，然后用6li (n， α) 3h反应产生的3h辐照标记。小鼠口服氚标记的ESM，并使用液体闪烁计数器测量血液和组织放射性。口服给药后，氚标记ESM在血液和各组织中均有分布。我们的方法能够成功地对纤维ESM进行氚标记，从而允许对标记的ESM产品进行代谢评估，因为它被实验小鼠的器官消化和吸收。这种先进的氚反冲标记方法可用于生物医学研究中复杂的脱细胞细胞外基质生物支架的体内跟踪。

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Journal of Fiber Science and Technology Materials Science-Materials Science (miscellaneous)

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0.50

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