海藻酸钙微囊化的人胰岛并不增加对急性缺氧的敏感性。

Alginate microencapsulation of human islets does not increase susceptibility to acute hypoxia.

机构信息

Department of Cancer Research and Molecular Medicine, Faculty of Medicine, Norwegian University of Science and Technology, Postbox 8905, 7491 Trondheim, Norway.

Department of Cancer Research and Molecular Medicine, Faculty of Medicine, Norwegian University of Science and Technology, Postbox 8905, 7491 Trondheim, Norway ; Department of Biotechnology, Faculty of Natural Sciences and Technology, Norwegian University of Science and Technology, 7034 Trondheim, Norway.

出版信息

J Diabetes Res. 2013;2013:374925. doi: 10.1155/2013/374925. Epub 2013 Dec 1.

DOI:10.1155/2013/374925

PMID:24364039

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3864170/

Abstract

Islet transplantation in diabetes is hampered by the need of life-long immunosuppression. Encapsulation provides partial immunoprotection but could possibly limit oxygen supply, a factor that may enhance hypoxia-induced beta cell death in the early posttransplantation period. Here we tested susceptibility of alginate microencapsulated human islets to experimental hypoxia (0.1-0.3% O2 for 8 h, followed by reoxygenation) on viability and functional parameters. Hypoxia reduced viability as measured by MTT by 33.8 ± 3.5% in encapsulated and 42.9 ± 5.2% in nonencapsulated islets (P < 0.2). Nonencapsulated islets released 37.7% (median) more HMGB1 compared to encapsulated islets after hypoxic culture conditions (P < 0.001). Glucose-induced insulin release was marginally affected by hypoxia. Basal oxygen consumption was equally reduced in encapsulated and nonencapsulated islets, by 22.0 ± 6.1% versus 24.8 ± 5.7%. Among 27 tested cytokines/chemokines, hypoxia increased the secretion of IL-6 and IL-8/CXCL8 in both groups of islets, whereas an increase of MCP-1/CCL2 was seen only with nonencapsulated islets. Conclusion. Alginate microencapsulation of human islets does not increase susceptibility to acute hypoxia. This is a positive finding in relation to potential use of encapsulation for islet transplantation.

摘要

胰岛细胞移植会受到终身免疫抑制的阻碍。微囊化提供了部分免疫保护，但可能会限制氧气供应，这一因素可能会在移植后早期增加缺氧诱导的β细胞死亡。在这里，我们测试了海藻酸钠微囊化的人类胰岛对实验性缺氧（0.1-0.3% O2 持续 8 小时，随后再复氧）的敏感性，研究了其对活力和功能参数的影响。缺氧使 MTT 测量的囊内胰岛细胞活力降低了 33.8 ± 3.5%，而非囊内胰岛细胞活力降低了 42.9 ± 5.2%（P < 0.2）。与囊内胰岛相比，缺氧培养条件下非囊内胰岛释放了 37.7%（中位数）更多的高迁移率族蛋白 1（HMGB1）（P < 0.001）。缺氧对葡萄糖诱导的胰岛素释放仅有轻微影响。基础氧耗在囊内和非囊内胰岛中同样减少，分别减少了 22.0 ± 6.1%和 24.8 ± 5.7%。在 27 种测试的细胞因子/趋化因子中，缺氧增加了两组胰岛中白细胞介素 6（IL-6）和白细胞介素 8/趋化因子（CXCL8）的分泌，而非囊内胰岛仅可见单核细胞趋化蛋白 1/趋化因子（CCL2）的增加。结论：海藻酸钠微囊化的人类胰岛不会增加对急性缺氧的敏感性。这是与胰岛细胞移植中潜在的微囊化应用相关的一个积极发现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6057/3864170/c5f84b12e510/JDR2013-374925.001.jpg

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海藻酸钙微囊化的人胰岛并不增加对急性缺氧的敏感性。

Alginate microencapsulation of human islets does not increase susceptibility to acute hypoxia.

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