S-亚硝基硫醇封端的 Pluronic F127：微观结构对一氧化氮释放的影响。

S-nitrosothiol-terminated Pluronic F127: Influence of microstructure on nitric oxide release.

机构信息

Institute of Chemistry, University of Campinas, UNICAMP, P.O. box 6154, 13083-970 Campinas, SP, Brazil.

MAX IV Laboratory, Lund University, P. O. box 117, 221 00 Lund, Sweden.

出版信息

J Colloid Interface Sci. 2020 Sep 15;576:457-467. doi: 10.1016/j.jcis.2020.05.049. Epub 2020 May 19.

DOI:10.1016/j.jcis.2020.05.049

PMID:32470853

Abstract

HYPOTHESIS

Nitric oxide (NO)-releasing Pluronic F127 hydrogels (F127) containing dissolved S-nitrosothiols or pendant N-diazeniumdiolate (NONOate) groups have been described. The NO charging of these hydrogels is usually limited by their low stability or disruption of the micellar packing. S-nitrosothiol-terminated F127 may emerge as a new strategy for allowing NO delivery at different rates in biomedical applications.

EXPERIMENTS

Terminal hydroxyl groups of F127 were esterified and reduced to produce F127-mercaptopropionate (HS-F127-SH), which was subsequently S-nitrosated to generate S-nitrosothiol-terminated F127 (ONS-F127-SNO). Micro-differential scanning calorimetry, H NMR spin-spin relaxation (T), temperature-dependent small-angle X-ray scattering, and cryo-transmission electron microscopy, were used to determine the micellar packing structure, while real-time chemiluminescence NO detection and UV-Vis spectrophotometry were used to evaluate the kinetics of NO release.

FINDINGS

HS-F127-SH micellization and gelation processes were analogous to native F127, however, with a decreased short-range ordering of the micelles. ONS-F127-SNO hydrogels released NO thorough a preferentially intramicellar SNO dimerization reaction. Increasing ONS-F127-SNO concentration reduces the rate of SNO dimerization and increases the overall rate of NO release to the gas phase, opening up new possibilities for tailoring NO delivery from F127-based hydrogels.

摘要

假设

已描述含有溶解的 S-亚硝基硫醇或侧链 N-二烯胺二酸盐（NONOate）基团的一氧化氮（NO）释放型 Pluronic F127 水凝胶。这些水凝胶的 NO 充电通常受到其低稳定性或胶束堆积破坏的限制。S-亚硝基硫醇封端的 F127 可能成为允许在生物医学应用中以不同速率递送 NO 的新策略。

实验

F127 的末端羟基被酯化并还原，生成 F127-巯基丙酸酯（HS-F127-SH），随后将其 S-亚硝化生成 S-亚硝基硫醇封端的 F127（ONS-F127-SNO）。微差示扫描量热法、H NMR 自旋-自旋弛豫（T）、温度依赖性小角 X 射线散射和低温透射电子显微镜用于确定胶束堆积结构，而实时化学发光 NO 检测和紫外可见分光光度法用于评估 NO 释放动力学。

结果

HS-F127-SH 的胶束化和凝胶化过程与天然 F127 类似，但胶束的短程有序性降低。ONS-F127-SNO 水凝胶通过优先的胶束内 SNO 二聚反应释放 NO。增加 ONS-F127-SNO 浓度会降低 SNO 二聚化的速率，并增加气相中 NO 释放的总体速率，为基于 F127 的水凝胶中 NO 输送的定制开辟了新的可能性。

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S-亚硝基硫醇封端的 Pluronic F127：微观结构对一氧化氮释放的影响。

S-nitrosothiol-terminated Pluronic F127: Influence of microstructure on nitric oxide release.

机构信息

出版信息

HYPOTHESIS

EXPERIMENTS

FINDINGS

假设

实验

结果

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