化学
溶解度
乳状液
生物利用度
大豆蛋白
诺比林
化学工程
皮克林乳液
色谱法
磁导率
热稳定性
体外
肺表面活性物质
类黄酮
吸附
生物物理学
化学稳定性
脂类消化
吸收(声学)
相(物质)
作者
Hong Li,Yubo Cao,Haizhao Song
标识
DOI:10.1016/j.ijbiomac.2026.150748
摘要
Nobiletin, a bioactive flavonoid with promising health benefits, faces challenges in its application due to poor water solubility and limited bioavailability. Here, we prepared Pickering high internal phase emulsions (HIPEs) stabilized by soy protein isolate/pectin (SPI/PE) complexes, optimizing SPI/PE concentration and pH to achieve stable emulsions with improved physicochemical properties. The results showed that SPI/PE complexes formed robust, cohesive interfacial layers that markedly enhanced emulsion stability under a wide range of environmental stresses. The encapsulated nobiletin exhibited significantly improved resistance to UV degradation, extended storage stability, and superior thermal stability relative to conventional carriers. In vitro digestion indicated that SPI/PE HIPEs enhanced nobiletin's bioaccessibility. Cellular uptake studies using Caco-2 cells confirmed enhanced absorption of nobiletin, with SPI/PE HIPEs demonstrating higher cellular uptake and greater overall bioavailability. Furthermore, transport studies suggested potential active transport mechanisms for NOB across Caco-2 monolayers, with higher apparent permeability coefficients in the apical-to-basolateral direction. These findings highlight the efficacy of SPI/PE HIPEs in improving nobiletin's stability and bioavailability, offering a promising strategy to enhance the delivery of hydrophobic compounds in functional food and pharmaceutical applications. • Optimized SPI/PE concentration and pH enhanced emulsion stability. • Encapsulation improved UV, storage, and thermal stability of nobiletin. • SPI/PE HIPEs increased nobiletin bioaccessibility during in vitro digestion. • Cellular studies showed enhanced nobiletin bioavailability with SPI/PE HIPEs. • Transport studies revealed potential active transport mechanisms for nobiletin.
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