Further evidence for blood-to-brain influx of unconjugated bile acids by passive diffusion: Determination of their brain-to-serum concentration ratios in rats by LC/MS/MS
{"title":"Further evidence for blood-to-brain influx of unconjugated bile acids by passive diffusion: Determination of their brain-to-serum concentration ratios in rats by LC/MS/MS","authors":"Toma Shibuya, Anri Sato, Shoich Nishimoto-Kusunose, Kazumi Yoshizawa, Tatsuya Higashi","doi":"10.1016/j.steroids.2024.109397","DOIUrl":null,"url":null,"abstract":"<div><p>Bile acids (BAs) reside in the brain and are probably involved in some neurological disorders. The view that most of unconjugated BAs in the brain are derived across the blood–brain barrier from the periphery by passive diffusion depending on their hydrophobicity is currently dominant, but some studies have made conflicting claims. In this study, the correlation analysis between the rat brain and serum levels of unconjugated BAs with a wider range of hydrophobicity was conducted to obtain further evidence about the blood-to-brain influx of unconjugated BAs by passive diffusion. We first developed the precise, accurate and matrix effect-free LC/ESI-MS/MS methods for quantifying eight major unconjugated BAs in the rat brain and serum. Derivatization was employed for increasing the assay sensitivity and specificity. The analysis using these methods reproduced the strong positive correlations between the brain and serum levels, and significant higher concentrations in the serum than in the brain for all the unconjugated BAs. The BA with the higher log<em>P</em><sub>ow</sub> (hydrophobicity) had the higher brain-to-serum concentration ratio (mono- > di- > trihydroxy BAs). Furthermore, the hydrophobicity was considered as the stronger factor for the blood-to-brain influx of the BAs than the serum protein binding ratio. Thus, this study provided further evidence supporting that passive diffusion is the major mechanism for the blood-to-brain influx of the unconjugated BAs.</p></div>","PeriodicalId":21997,"journal":{"name":"Steroids","volume":"204 ","pages":"Article 109397"},"PeriodicalIF":2.1000,"publicationDate":"2024-03-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0039128X24000357/pdfft?md5=2377868a15c25a77dc9e8b7c78ac832e&pid=1-s2.0-S0039128X24000357-main.pdf","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Steroids","FirstCategoryId":"3","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0039128X24000357","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"BIOCHEMISTRY & MOLECULAR BIOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Bile acids (BAs) reside in the brain and are probably involved in some neurological disorders. The view that most of unconjugated BAs in the brain are derived across the blood–brain barrier from the periphery by passive diffusion depending on their hydrophobicity is currently dominant, but some studies have made conflicting claims. In this study, the correlation analysis between the rat brain and serum levels of unconjugated BAs with a wider range of hydrophobicity was conducted to obtain further evidence about the blood-to-brain influx of unconjugated BAs by passive diffusion. We first developed the precise, accurate and matrix effect-free LC/ESI-MS/MS methods for quantifying eight major unconjugated BAs in the rat brain and serum. Derivatization was employed for increasing the assay sensitivity and specificity. The analysis using these methods reproduced the strong positive correlations between the brain and serum levels, and significant higher concentrations in the serum than in the brain for all the unconjugated BAs. The BA with the higher logPow (hydrophobicity) had the higher brain-to-serum concentration ratio (mono- > di- > trihydroxy BAs). Furthermore, the hydrophobicity was considered as the stronger factor for the blood-to-brain influx of the BAs than the serum protein binding ratio. Thus, this study provided further evidence supporting that passive diffusion is the major mechanism for the blood-to-brain influx of the unconjugated BAs.
胆汁酸(BA)存在于大脑中,可能与某些神经系统疾病有关。目前占主导地位的观点认为,大脑中的大部分未结合胆汁酸是通过被动扩散从外周穿过血脑屏障而来的,这取决于它们的疏水性,但一些研究提出了相互矛盾的说法。在本研究中,我们对疏水性范围更广的非结合型 BAs 在大鼠脑内和血清中的水平进行了相关性分析,以进一步获得非结合型 BAs 通过被动扩散从血流入脑的证据。我们首先建立了精确、无基质效应的 LC/ESI-MS/MS 方法,用于定量检测大鼠脑和血清中的 8 种主要非结合型生物碱。采用衍生化方法提高了检测灵敏度和特异性。使用这些方法进行的分析再现了大脑和血清中浓度水平之间的强正相关性,以及所有未结合BA在血清中的浓度明显高于在大脑中的浓度。具有较高 logPow(疏水性)的 BA 在大脑和血清中的浓度比值较高(一羟基 BA > 二羟基 BA > 三羟基 BA)。此外,与血清蛋白结合率相比,疏水性被认为是影响 BA 从血液流入大脑的更强因素。因此,这项研究进一步证明了被动扩散是非结合型 BA 从血液流入大脑的主要机制。
期刊介绍:
STEROIDS is an international research journal devoted to studies on all chemical and biological aspects of steroidal moieties. The journal focuses on both experimental and theoretical studies on the biology, chemistry, biosynthesis, metabolism, molecular biology, physiology and pharmacology of steroids and other molecules that target or regulate steroid receptors. Manuscripts presenting clinical research related to steroids, steroid drug development, comparative endocrinology of steroid hormones, investigations on the mechanism of steroid action and steroid chemistry are all appropriate for submission for peer review. STEROIDS publishes both original research and timely reviews. For details concerning the preparation of manuscripts see Instructions to Authors, which is published in each issue of the journal.