CHIRAL SWITCHING CONTROL OF PHARMACEUTICAL SUBSTANCES

Q2 Pharmacology, Toxicology and Pharmaceutics
Olga V. Levitskaya, T. Pleteneva, Daria A. Galkina, Nadezhda A. Khodorovich, E. Uspenskaya, Anton V. Syroeshkin
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引用次数: 0

Abstract

Objective: The aim of this study was to demonstrate that chiral switching should be recognized as a widespread phenomenon that extends beyond the production of pure enantiomeric drugs. Methods: To investigate the optical activity of substances from various chemical classes, enantiomers of chiral compounds (Sigma-Aldrich, USA) were chosen: valine and its racemic form (D-valine, L-valine, and racemic valine with optical purity ≥ 99%), L-ascorbic acid (content ≥ 99%), carbohydrates (D-glucose, D-galactose, L-galactose, contents ≥ 99.5%). Solutions were prepared using deuterium-depleted water (DDW–"light" water, D/H=4 ppm), natural deionized high-ohmic water (BD, D/H=140 ppm), and heavy water (99.9% D2O; Sigma-Aldrich). Optical activity was measured using the Atago POL-1/2 polarimeter. Results: One of the components in the racemic medication mixture can act as an inert agent, exhibit toxicity, or undergo undesirable biotransformation mechanisms, resulting in the formation of products with unknown properties. It has been established that a change in the deuterium/protium (D/H) ratio in water leads to a change in the equilibrium and kinetic characteristics of optically active compounds across various chemical classes, such as amino acids, carboxylic acids, and carbohydrates. An inequality was observed in the absolute values of the optical rotation of the L-and D-isomers of valine and galactose, depending on the D/H isotope ratio. The impact of chiral water clusters on optical rotation accounts for the sudden shift in the specific rotation of dilute solutions (less than 0.5%) of L-ascorbic acid in water, based on the D/H ratio. The influence of the isotopic composition of water was confirmed by studying the temperature-dependent mutarotation kinetics of D-glucose and L-and D-galactose in Arrhenius coordinates. The mutarotation process in natural high-resistivity water is characterized by an activation energy (Ea) of 40.8±1.4 kJ mol-1, while in deuterium-depleted water, Ea = 63.6±3.5 kJ mol-1. This results in a kinetic isotope effect for deuterium (KIED) of 1.6. Conclusion: Methodological approaches have been developed to control chiral switching based on the isotopic composition of water in vivo and in vitro. The study of changes in the optical activity of hierarchical structures in the human body, the influence of solvent properties on the mechanisms of optical rotation, as well as the use of KIED values, can be utilized to monitor various chiral transitions in vitro and living organisms.
制药物质的手性转换控制
目的:本研究的目的是证明手性转换是一种普遍现象,其范围超出了纯对映体药物的生产:本研究旨在证明手性转换应被视为一种普遍现象,其范围超出了纯对映体药物的生产:为了研究不同化学类别物质的光学活性,选择了手性化合物的对映体(Sigma-Aldrich,美国):缬氨酸及其外消旋体(D-缬氨酸、L-缬氨酸和外消旋缬氨酸,光学纯度≥99%)、L-抗坏血酸(含量≥99%)、碳水化合物(D-葡萄糖、D-半乳糖、L-半乳糖,含量≥99.5%)。配制溶液时使用了贫氘水(DDW-"轻 "水,D/H=4 ppm)、天然去离子水(BD,D/H=140 ppm)和重水(99.9% D2O;Sigma-Aldrich)。使用 Atago POL-1/2 旋光仪测量光学活性:结果:外消旋药物混合物中的一种成分可作为惰性剂、表现出毒性或发生不良的生物转化机制,从而形成性质不明的产物。已经证实,水中氘/氕(D/H)比值的变化会导致氨基酸、羧酸和碳水化合物等不同化学类别的光学活性化合物的平衡和动力学特性发生变化。根据 D/H 同位素比的不同,缬氨酸和半乳糖的 L 和 D 异构体的光学旋转绝对值也不相同。手性水簇对光学旋转的影响说明了根据 D/H 比值,L-抗坏血酸水稀释溶液(小于 0.5%)的比旋转发生了突变。通过研究阿伦尼乌斯坐标中 D-葡萄糖和 L-半乳糖及 D-半乳糖随温度变化的突变动力学,证实了水的同位素组成的影响。因此,氘的动力学同位素效应(KIED)为 1.6:根据体内和体外水的同位素组成控制手性转换的方法已经开发出来。研究人体内分层结构的光学活性变化、溶剂特性对光学旋转机制的影响以及 KIED 值的使用,可用于监测体外和生物体内的各种手性转换。
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来源期刊
International Journal of Applied Pharmaceutics
International Journal of Applied Pharmaceutics Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (miscellaneous)
CiteScore
1.40
自引率
0.00%
发文量
219
期刊介绍: International Journal of Applied Pharmaceutics (Int J App Pharm) is a peer-reviewed, bimonthly (onward March 2017) open access journal devoted to the excellence and research in the pure pharmaceutics. This Journal publishes original research work that contributes significantly to further the scientific knowledge in conventional dosage forms, formulation development and characterization, controlled and novel drug delivery, biopharmaceutics, pharmacokinetics, molecular drug design, polymer-based drug delivery, nanotechnology, nanocarrier based drug delivery, novel routes and modes of delivery; responsive delivery systems, prodrug design, development and characterization of the targeted drug delivery systems, ligand carrier interactions etc. However, the other areas which are related to the pharmaceutics are also entertained includes physical pharmacy and API (active pharmaceutical ingredients) analysis. The Journal publishes original research work either as a Original Article or as a Short Communication. Review Articles on a current topic in the said fields are also considered for publication in the Journal.
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