Adsorption of bile salts onto crystalline ritonavir particles under simulated gastrointestinal conditions.

IF 5.4 2区 医学 Q1 BIOPHYSICS Colloids and Surfaces B: Biointerfaces Pub Date : 2025-01-01 Epub Date: 2024-09-30 DOI:10.1016/j.colsurfb.2024.114283
Anas Aljabbari, Shinji Kihara, Pablo Mota-Santiago, Thomas Rades, Ben J Boyd
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Abstract

The formation of a biomolecular corona on nanoparticles in blood is a well-known phenomenon influencing in vivo performance. Analogous phenomena in other biological fluids, such as the formation of a gastrointestinal (GI) corona, remain under-investigated. The ingestion of medicines leads to the generation of drug particles in the GI fluids. Consequently, an understanding of the behavior of drug particles in the gut requires determination of the adsorption of bile components onto these drug particles. This work aims to elucidate the factors affecting adsorption of bile salts onto ritonavir (RTV) particles. Crystalline RTV particles were incubated with non-micellar or micellar bile salts and bile salt depletion from solution was measured using HPLC and small angle X-ray scattering (SAXS). HPLC results show that bile salts adsorb onto RTV particles, with greater adsorption observed for more hydrophobic bile salts, following the order sodium glycodeoxycholate (SGDC)>sodium taurodeoxycholate (STDC)>sodium glycochenodeoxycholate SGCDC>sodium glycocholate (SGC)>sodium taurocholate (STC). Increasing the ionic strength of the solution led to increased adsorption of STDC, where buffer containing 300 mM NaCl resulted in greater adsorption than 150 mM NaCl. Additionally, micellar bile salts showed greater affinity for RTV particles than unimeric bile salts. In contrast, the extent of bile salt depletion was unaltered by addition of phospholipid to form mixed micelles. SAXS analysis of mixed micelles after incubation with RTV particles confirms depletion of bile salt from the supernatant, evidenced by reduced intensity of the micellar scattering feature. In conclusion, this study investigated factors influencing bile salt adsorption onto drug particles, highlighting the need to consider adsorption of bile components in forming the GI-corona.

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在模拟胃肠道条件下胆汁盐在利托那韦结晶颗粒上的吸附。
纳米粒子在血液中形成生物分子电晕是影响体内性能的一个众所周知的现象。其他生物液体中的类似现象,如胃肠道(GI)电晕的形成,仍未得到充分研究。药物的摄入会在胃肠液中产生药物微粒。因此,要了解药物颗粒在肠道中的行为,就必须确定这些药物颗粒对胆汁成分的吸附情况。本研究旨在阐明影响利托那韦(RTV)颗粒吸附胆汁盐的因素。将结晶 RTV 颗粒与非胶束或胶束胆汁盐进行孵育,并使用 HPLC 和小角 X 射线散射(SAXS)测量溶液中胆汁盐的消耗。HPLC 结果表明,胆汁盐会吸附到 RTV 颗粒上,疏水性较强的胆汁盐的吸附量更大,吸附顺序依次为糖脱氧胆酸钠(SGDC)>牛磺脱氧胆酸钠(STDC)>甘氨胆酸钠(SGCDC)>甘氨胆酸钠(SGC)>牛磺胆酸钠(STC)。增加溶液的离子强度会增加 STDC 的吸附量,其中含 300 mM NaCl 的缓冲液比 150 mM NaCl 的吸附量更大。此外,胶束胆汁盐对 RTV 颗粒的亲和力大于单分子胆汁盐。相比之下,加入磷脂形成混合胶束后,胆汁盐的耗竭程度并没有改变。对与 RTV 颗粒培养后的混合胶束进行的 SAXS 分析证实了上清液中胆汁盐的消耗,胶束散射特征的强度降低就是证明。总之,本研究调查了影响药物颗粒吸附胆盐的因素,强调了在形成消化道电晕时考虑吸附胆汁成分的必要性。
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来源期刊
Colloids and Surfaces B: Biointerfaces
Colloids and Surfaces B: Biointerfaces 生物-材料科学:生物材料
CiteScore
11.10
自引率
3.40%
发文量
730
审稿时长
42 days
期刊介绍: Colloids and Surfaces B: Biointerfaces is an international journal devoted to fundamental and applied research on colloid and interfacial phenomena in relation to systems of biological origin, having particular relevance to the medical, pharmaceutical, biotechnological, food and cosmetic fields. Submissions that: (1) deal solely with biological phenomena and do not describe the physico-chemical or colloid-chemical background and/or mechanism of the phenomena, and (2) deal solely with colloid/interfacial phenomena and do not have appropriate biological content or relevance, are outside the scope of the journal and will not be considered for publication. The journal publishes regular research papers, reviews, short communications and invited perspective articles, called BioInterface Perspectives. The BioInterface Perspective provide researchers the opportunity to review their own work, as well as provide insight into the work of others that inspired and influenced the author. Regular articles should have a maximum total length of 6,000 words. In addition, a (combined) maximum of 8 normal-sized figures and/or tables is allowed (so for instance 3 tables and 5 figures). For multiple-panel figures each set of two panels equates to one figure. Short communications should not exceed half of the above. It is required to give on the article cover page a short statistical summary of the article listing the total number of words and tables/figures.
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