植物糖原纳米颗粒输送系统递送无机硒可降低细胞毒性而不影响硒生物利用度。

Phytoglycogen Nanoparticle Delivery System for Inorganic Selenium Reduces Cytotoxicity without Impairing Selenium Bioavailability.

机构信息

Department of Health Sciences, Wilfrid Laurier University, Waterloo, ON N2L 3C5, Canada.

Glysantis Inc, Guelph, ON N1C 0A1, Canada.

出版信息

Int J Nanomedicine. 2020 Dec 24;15:10469-10479. doi: 10.2147/IJN.S286948. eCollection 2020.

DOI:10.2147/IJN.S286948

PMID:33380796

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7769079/

Abstract

PURPOSE

Selenium is an essential trace element that supports animal health through the antioxidant defense system by protecting cells from oxidative-related damage. Using inorganic selenium species, such as sodium selenite (Na Sel), as a food supplement is cost-effective; however, its limitation as a nutritional supplement is its cytotoxicity. One strategy to mitigate this problem is by delivering inorganic selenium using a nanoparticle delivery system (SeNP).

METHODS

Rainbow trout intestinal epithelial cells, bovine turbinate cells and bovine intestinal myofibroblasts were treated with soluble Na Sel or SeNPs. Two SeNP formulations were tested; SeNP-Ionic where inorganic selenium was ionically bound to cationic phytoglycogen (PhG) NPs, and SeNP-Covalent, where inorganic selenium was covalently bound to PhG NPs. Selenium-induced cytotoxicity along with selenium bioavailability were measured.

RESULTS

SeNPs (SeNP-Ionic or SeNP-Covalent) substantially reduced cytotoxicity in all cell types examined compared to similar doses of soluble inorganic selenium. The SeNP formulations did not affect selenium bioavailability, as selenium-induced glutathione peroxidase (GPx) activity and GPx1 transcript levels were similarly elevated whether cells were treated with soluble Na Sel or SeNPs. This was the case for all three cell types tested.

CONCLUSION

Nanoparticle-assisted inorganic selenium delivery, which demonstrated equal bioavailability without causing deleterious cytotoxic side effects, has potential applications for safely supplementing animal diets with inorganic selenium at what are usually toxic doses.

摘要

目的

硒是一种必需的微量元素，通过抗氧化防御系统支持动物健康，保护细胞免受氧化相关损伤。使用无机硒化合物，如亚硒酸钠（Na Sel）作为食品补充剂具有成本效益；然而，其作为营养补充剂的局限性在于其细胞毒性。减轻这个问题的一种策略是使用纳米颗粒递送系统（SeNP）递送无机硒。

方法

用可溶性 Na Sel 或 SeNPs 处理虹鳟鱼肠道上皮细胞、牛鼻甲细胞和牛肠肌成纤维细胞。测试了两种 SeNP 制剂；SeNP-Ionic 中无机硒与阳离子植物糖蛋白（PhG）纳米颗粒离子结合，而 SeNP-Covalent 中无机硒与 PhG 纳米颗粒共价结合。测量了硒诱导的细胞毒性和硒的生物利用度。

结果

与相同剂量的可溶性无机硒相比，SeNPs（SeNP-Ionic 或 SeNP-Covalent）显著降低了所有检查细胞类型的细胞毒性。SeNP 制剂对硒的生物利用度没有影响，因为用可溶性 Na Sel 或 SeNPs 处理细胞时，硒诱导的谷胱甘肽过氧化物酶（GPx）活性和 GPx1 转录水平均显著升高。这适用于所有三种测试的细胞类型。

结论

纳米颗粒辅助无机硒递送具有同等的生物利用度而没有引起有害的细胞毒性副作用，具有将无机硒安全补充到动物饮食中的潜在应用，而通常这些剂量是有毒的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/86e7/7769079/1ee415cec620/IJN-15-10469-g0001.jpg

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植物糖原纳米颗粒输送系统递送无机硒可降低细胞毒性而不影响硒生物利用度。

Phytoglycogen Nanoparticle Delivery System for Inorganic Selenium Reduces Cytotoxicity without Impairing Selenium Bioavailability.

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出版信息

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METHODS

RESULTS

CONCLUSION

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