Synthesis of glycophospholipid conjugates with mono- and disaccharides by enzymatic transphosphatidylation

IF 1.8 3区农林科学 Q3 FOOD SCIENCE & TECHNOLOGY

European Journal of Lipid Science and Technology Pub Date : 2024-02-05 DOI:10.1002/ejlt.202300240

Nikolina Barchan, Patrick Adlercreutz

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Abstract

Phospholipids, PLs, are interesting and highly abundant amphiphilic molecules, which self-assemble into 3D nanostructures that have big interest as formulation excipients in, for example, pharma industry. However, the structures that are formed by naturally occurring PLs usually suffer from rigidity problems, and the nanostructures have to be modified in various ways for improved stability. One such approach is by the conjugation of saccharides to the PL head group. In this study, we investigate reaction conditions for the scalable phospholipase D–catalyzed transphosphatidylation reaction for the synthesis of glycophospholipids. Biphasic reaction systems with different solvents are compared with a purely aqueous system with PLs dispersed as vesicles. The investigations showed that use of the biphasic system containing chloroform and a glucose/phosphatidylcholine ratio of 50, in combination with carefully selected enzyme concentration and reaction time, led to an optimized process without any hydrolytic side reaction for the synthesis of phosphatidyl glucose. The reaction system was then applied to a variety of different mono- and disaccharides for the synthesis of a range of different glycophospholipids, resulting in yields up to 85% of phosphatidyl monosaccharides and 35% of disaccharides.

Practical Application: Phospholipids and other polar lipids are of great scientific interest as formulation excipients. The chemical structures of lipids used for such applications have major impact on the properties of the self-aggregated systems. Synthesis of new phospholipids with modified head groups can tremendously widen the portfolio of available choices of formulation excipients and make it possible to make customized formulations with the desired properties. The introduction of saccharides in the hydrophilic part of the phospholipid alters the chemistry of head group and its interaction with surrounding water in vesicle systems and should therefore have a significant effect on its formulating properties compared to natural phospholipids.

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通过酶法反磷酰化合成糖磷脂与单糖和二糖的共轭物

磷脂（PLs）是一种有趣且含量极高的两亲性分子，可自组装成三维纳米结构，在制药业等领域作为配方辅料备受关注。然而，天然 PL 形成的结构通常存在刚性问题，因此必须通过各种方法对纳米结构进行改性，以提高其稳定性。其中一种方法是将糖类与聚乳酸头基共轭。在本研究中，我们研究了可扩展的磷脂酶 D 催化的反磷酰化反应合成糖磷脂的反应条件。将不同溶剂的双相反应体系与以囊泡形式分散磷脂的纯水体系进行了比较。研究表明，使用含氯仿和葡萄糖/磷脂酰胆碱比率为 50 的双相体系，并结合精心选择的酶浓度和反应时间，可优化合成磷脂酰葡萄糖的过程，且不会产生任何水解副反应。然后，将该反应系统应用于各种不同的单糖和二糖，以合成一系列不同的糖磷脂，结果磷脂酰单糖的产量高达 85%，二糖的产量高达 35%：磷脂和其他极性脂类作为配方辅料具有极大的科学价值。用于此类应用的脂质的化学结构对自聚系统的特性有重大影响。合成具有修饰头基的新型磷脂可以极大地拓宽配方辅料的选择范围，使具有所需特性的定制配方成为可能。在磷脂的亲水部分引入糖会改变头部基团的化学性质及其在囊泡系统中与周围水的相互作用，因此与天然磷脂相比，会对其配方特性产生重大影响。

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来源期刊

European Journal of Lipid Science and Technology 工程技术-食品科技

CiteScore

5.50

自引率

0.00%

发文量

101

审稿时长

6-16 weeks

期刊介绍： The European Journal of Lipid Science and Technology is a peer-reviewed journal publishing original research articles, reviews, and other contributions on lipid related topics in food science and technology, biomedical science including clinical and pre-clinical research, nutrition, animal science, plant and microbial lipids, (bio)chemistry, oleochemistry, biotechnology, processing, physical chemistry, and analytics including lipidomics. A major focus of the journal is the synthesis of health related topics with applied aspects. Following is a selection of subject areas which are of special interest to EJLST: Animal and plant products for healthier foods including strategic feeding and transgenic crops Authentication and analysis of foods for ensuring food quality and safety Bioavailability of PUFA and other nutrients Dietary lipids and minor compounds, their specific roles in food products and in nutrition Food technology and processing for safer and healthier products Functional foods and nutraceuticals Lipidomics Lipid structuring and formulations Oleochemistry, lipid-derived polymers and biomaterials Processes using lipid-modifying enzymes The scope is not restricted to these areas. Submissions on topics at the interface of basic research and applications are strongly encouraged. The journal is the official organ the European Federation for the Science and Technology of Lipids (Euro Fed Lipid).