多糖纳米硒载体的构建及构效关系研究。

Construction and structure-activity mechanism of polysaccharide nano-selenium carrier.

机构信息

College of Food Science and Engineering, Northwest A&F University, Yangling 712100, Shaanxi, China.

Jiangsu Collaborative Innovation Center of Regional Modern Agriculture & Environmental Protection/Jiangsu Key Laboratory for Eco-Agricultural Biotechnology around Hongze Lake, Huaiyin Normal University, Huaian 223300, China.

出版信息

Carbohydr Polym. 2020 May 15;236:116052. doi: 10.1016/j.carbpol.2020.116052. Epub 2020 Feb 21.

DOI:10.1016/j.carbpol.2020.116052

PMID:32172867

Abstract

In this study, a series water soluble sulfate polysaccharides (SPS) with different degrees of substitutions (DS = 0.02∼0.28) were prepared using a linear water-insoluble β-d-(1→3)-glucan. SPS-1, SPS-3 and SPS-7 with substitution degrees of 0.02, 0.06 and 0.25 were used as templates to prepare stable and size controlled selenium nanoparticles (SeNPs) with diameter from 54.35 to 123.04 nm using one-step method. The selenium contents of SPS-SeNPs with large, medium and small sizes were 0.172 %, 0.274 % and 0.305 %, respectively. SPS-SeNPs was confirmed to inhibit the production of nitric oxide (NO) in RAW 264.7 inflammatory macrophages induced by lipopolysaccharide (LPS), and downregulated the mRNA expression of TNF-α, IL-1β and iNOS. The results indicated that SPS-SeNPs had significant anti-inflammatory activity. Moreover, SPS-SeNPs with smaller size showed higher anti-inflammatory effects. All of these results suggest that SeNPs-SPS carriers have anti-inflammatory in concentration-dependent and size-dependent model.

摘要

在这项研究中，使用线性水不溶性β-d-(1→3)-葡聚糖制备了一系列具有不同取代度（DS=0.02∼0.28）的水溶性硫酸多糖（SPS）。取代度分别为 0.02、0.06 和 0.25 的 SPS-1、SPS-3 和 SPS-7 被用作模板，通过一步法制备了直径为 54.35nm 至 123.04nm 的稳定且粒径可控的硒纳米颗粒（SeNPs）。大、中、小三种粒径的 SPS-SeNPs 的硒含量分别为 0.172%、0.274%和 0.305%。SPS-SeNPs 被证实能够抑制脂多糖（LPS）诱导的 RAW264.7 炎性巨噬细胞中一氧化氮（NO）的产生，并下调 TNF-α、IL-1β 和 iNOS 的 mRNA 表达。结果表明，SPS-SeNPs 具有显著的抗炎活性。此外，粒径较小的 SPS-SeNPs 表现出更高的抗炎效果。所有这些结果表明，SeNPs-SPS 载体在浓度和粒径依赖性模型中具有抗炎作用。

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多糖纳米硒载体的构建及构效关系研究。

Construction and structure-activity mechanism of polysaccharide nano-selenium carrier.

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