用于制备单个胰岛细胞的空气输送人胰岛的质量。

Shingo Yamashita, K. Ohashi, R. Utoh, T. Kin, A. M. J. Shapiro, Masakazu Yamamoto, M. Gotoh, T. Okano
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引用次数: 5

摘要

在新一代1型糖尿病(DM)的医学治疗中,利用胰岛细胞为基础的方法引起了全世界的广泛关注。特别是,从分离的胰岛中获得的分散的胰岛细胞已成为细胞生物学和组织工程领域的宝贵来源。我们开发新的基于胰岛的糖尿病治疗的实验方法包括使用分散的胰岛细胞创建一个整体的胰岛细胞片格式。在本实验中,我们探索了从加拿大阿尔伯塔到日本东京的国际运输人类胰岛的潜力,并获得了可存活的分散胰岛细胞。利用商业航空快递服务共运送了34批分离和纯化的人胰岛。在运输之前,人类胰岛已经在阿尔伯塔大学培养了0-108小时。从阿尔伯塔到东京的运输周期为2-5天。转运的胰岛细胞在东京被酶分散成单细胞。单个胰岛细胞数量随着运输天数的增加而减少。相比之下,无论运输天数多少,细胞活力都保持不变。装运前培养时间对分散在东京的单细胞数量和活力没有影响。当分散的单个胰岛细胞被镀在层粘连蛋白-5包被的温度响应聚合物接枝培养皿上时,细胞表现出良好的附着,随后扩展为整体格式。本研究表明,长距离运输的人胰岛是利用分散的人胰岛细胞进行实验的可行细胞来源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quality of Air-Transported Human Islets for Single Islet Cell Preparations.
In new generation medical therapies for type 1 diabetes mellitus (DM), cell-based approaches using pancreatic islets have attracted significant attention worldwide. In particular, dispersed islet cells obtained from isolated pancreatic islets have been a valuable source in the cell biology and tissue engineering fields. Our experimental approach to the development of new islet-based DM therapies consisted of creating a monolithic islet cell sheet format using dispersed islet cells. In this experiment, we explored the potential of internationally transporting human islets from Alberta, Canada to Tokyo, Japan and obtaining viable dispersed islet cells. A total of 34 batches of isolated and purified human islets were transported using a commercial air courier service. Prior to shipping, the human islets had been in culture for 0-108 h at the University of Alberta. The transportation period from Alberta to Tokyo was 2-5 days. The transported human islet cells were enzymatically dispersed as single cells in Tokyo. The number of single islet cells decreased as the number of transportation days increased. In contrast, cell viability was maintained regardless of the number of transportation days. The preshipment culture time had no effect on the number or viability of single cells dispersed in Tokyo. When dispersed single islet cells were plated on laminin-5-coated temperature-responsive polymer-grafted culture dishes, the cells showed favorable attachment followed by extension as a monolithic format. The present study demonstrated that long-distance transported human islets are a viable cell source for experiments utilizing dispersed human islet cells.
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来源期刊
Cell medicine
Cell medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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