Anomalous salting-out, self-association and pK_a effects in the practically-insoluble bromothymol blue.

IF 3.4 Q2 CHEMISTRY, MEDICINAL

ADMET and DMPK Pub Date : 2023-05-23 eCollection Date: 2023-01-01 DOI:10.5599/admet.1822

Alex Avdeef

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引用次数: 1

Abstract

Background and purpose: The widely-used and practically insoluble diprotic acidic dye, bromothymol blue (BTB), is a neutral molecule in strongly acidic aqueous solutions. The Schill (1964) extensive solubility-pH measurement of bromothymol blue in 0.1 and 1.0 M NaCl solutions, with pH adjusted with HCl from 0.0 to 5.4, featured several unusual findings. The data suggest that the difference in solubility of the neutral-form molecule in 1M NaCl is more than 0.7 log unit lower than the solubility in pure water. This could be considered as uncharacteristically high for a salting-out effect. Also, the study reported two apparent values of pK_a1, 1.48 and 1.00, in 0.1 M and 1.0 M NaCl solutions, respectively. The only other measured value found for pK_a1 in the literature is -0.66 (Gupta and Cadwallader, 1968).

Experimental approach: It was reasoned that the there can be only a single pK_a1 for BTB. Also, it was hypothesized that salting-out alone might not account for such a large difference in solubility observed at the two levels of salt. A generalized mass action approach incorporating activity corrections for charged species using the Stokes-Robinson hydration equation and for neutral species using the Setschenow equation, was selected to analyze the Schill solubility-pH data to seek a rationalization of these unusual results.

Key results: BTB reveals complex speciation chemistry in saturated aqueous solutions which had been poorly understood for many years. The appearance of two different values of pK_a1 at different levels of NaCl and the anomalously high value of the empirical salting-out constant could be rationalized to normal values by invoking the formation of a very stable neutral dimer (log K₂ = 10.0 ± 0.1 M^-1). A 'normal' salting-out constant, 0.25 M^-1 was then derived. It was also possible to estimate the 'self-interaction' constant. The data analysis in the present study critically depended on the pK_a1 = -0.66 reported by Gupta and Cadwallader.

Conclusion: A more reasonable salting-out constant and a consistent single value for pK_a1 have been determined by considering a self-interacting (aggregation) model involving an uncharged form of the molecule, which is likely a zwitterion, as suggested by literature spectrophotometric studies.

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几乎不溶的溴百里酚蓝中的异常盐析、自缔合和pKa效应。

背景和目的：溴百里酚蓝（BTB）是一种在强酸性水溶液中存在的中性分子，是一种应用广泛且几乎不溶的二元酸性染料。Schill（1964）对溴百里酚蓝在0.1和1.0 M NaCl溶液中的广泛溶解度pH进行了测量，用HCl将pH从0.0调节到5.4，其特征是有几个不寻常的发现。数据表明，中性形式分子在1M NaCl中的溶解度差异比在纯水中的溶解度低0.7个对数单位以上。对于盐析效应来说，这可能被认为是异常高的。此外，该研究报告了pKa1在0.1M和1.0M NaCl溶液中的两个表观值，分别为1.48和1.00。文献中发现的pKa1的唯一其他测量值为-0.66（Gupta和Cadwallader，1968）。实验方法：认为BTB只能有一个pKa1。此外，据推测，单独的盐析可能无法解释在两种盐水平下观察到的溶解度差异如此之大。选择了一种广义质量作用方法，包括使用Stokes Robinson水合方程对带电物种和使用Setschenow方程对中性物种的活度校正，以分析Schill溶解度pH数据，从而寻求这些异常结果的合理化。关键结果：BTB揭示了饱和水溶液中复杂的物种化学，多年来人们对此知之甚少。在不同的NaCl水平下，pKa1的两个不同值的出现和经验盐析常数的异常高值可以通过调用非常稳定的中性二聚体的形成（log K2=10.0±0.1 M-1）来合理化为正常值。然后导出“正常”盐析常数0.25 M-1。还可以估计“自我互动”常数。本研究中的数据分析主要取决于Gupta和Cadwallader报道的pKa1=-0.66，如文献分光光度法研究所建议的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ADMET and DMPK Multiple-

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

4 weeks

期刊介绍： ADMET and DMPK is an open access journal devoted to the rapid dissemination of new and original scientific results in all areas of absorption, distribution, metabolism, excretion, toxicology and pharmacokinetics of drugs. ADMET and DMPK publishes the following types of contributions: - Original research papers - Feature articles - Review articles - Short communications and Notes - Letters to Editors - Book reviews The scope of the Journal involves, but is not limited to, the following areas: - physico-chemical properties of drugs and methods of their determination - drug permeabilities - drug absorption - drug-drug, drug-protein, drug-membrane and drug-DNA interactions - chemical stability and degradations of drugs - instrumental methods in ADMET - drug metablic processes - routes of administration and excretion of drug - pharmacokinetic/pharmacodynamic study - quantitative structure activity/property relationship - ADME/PK modelling - Toxicology screening - Transporter identification and study