Lipid composition and properties affect protein-mediated carotenoid uptake efficiency from membranes

IF 2.8 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Kristina Likkei , Marcus Moldenhauer , Neslihan N. Tavraz , Eugene G. Maksimov , Nikolai N. Sluchanko , Thomas Friedrich
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Abstract

Carotenoids are pigments of diverse functions ranging from coloration over light-harvesting to photoprotection. Yet, the number of carotenoid-binding proteins, which mobilize these pigments in physiological media, is limited, and the mechanisms of carotenoid mobilization are still not well understood. The same applies for the determinants of carotenoid uptake from membranes into carotenoproteins, especially regarding the dependence on the chemical properties of membrane lipids. Here, we investigate xanthophyll uptake capacity and kinetics of a paradigmatic carotenoid-binding protein, the homolog of the Orange Carotenoid Protein's C-terminal domain from Anabaena sp. PCC 7120 (AnaCTDH), using liposomes formed from defined lipid species and loaded with canthaxanthin (CAN) and echinenone (ECN), respectively. Phospholipids with different chain length and degree of saturation were investigated. The composition of carotenoid-loaded liposomes directly affected the incorporation yield and storage ratio of CAN and ECN as well as the rate of carotenoid uptake by AnaCTDH. Generally, saturated PC lipids were identified as unsuitable, and a high phase transition temperature of the lipids negatively affected the carotenoid incorporation and storage yield. For efficient carotenoid transfer, the velocity increases with increasing chain length or membrane thickness. An average transfer yield of 93 % and 43 % were obtained for the formation of AnaCTDH(CAN) and AnaCTDH(ECN) holoproteins, respectively. In summary, the most suitable lipids for the formation of AnaCTDH(CAN/ECN) holoproteins by carotenoid transfer from artificial liposomes are phosphatidylcholine (18:1) and phosphatidylglycerol (14:0). Thus, these two lipids provide the best conditions for further investigation of lipid-protein interaction and the carotenoid uptake process.

Abstract Image

脂质组成和性质影响蛋白质介导的类胡萝卜素从膜的吸收效率。
类胡萝卜素是一种具有多种功能的色素,从采光着色到光保护。然而,在生理介质中动员这些色素的类胡萝卜素结合蛋白的数量是有限的,并且类胡萝卜素动员的机制仍然不太清楚。这同样适用于类胡萝卜素从膜摄取到胡萝卜素蛋白中的决定因素,特别是关于对膜脂质化学性质的依赖性。在这里,我们研究了一种典型的类胡萝卜素结合蛋白的叶黄素摄取能力和动力学,该蛋白是Anabaena sp.PCC 7120(AnaCTDH)的橙色类胡萝卜素蛋白C末端结构域的同源物,使用由定义的脂质种类形成的脂质体,并分别负载角黄素(CAN)和紫锥酮(ECN)。研究了不同链长和饱和程度的磷脂。类胡萝卜素脂质体的组成直接影响CAN和ECN的掺入率、储存率以及AnaCTDH对类胡萝卜素的吸收速率。通常,饱和PC脂质被认为是不合适的,并且脂质的高相变温度对类胡萝卜素的掺入和储存产量产生负面影响。对于有效的类胡萝卜素转移,速度随着链长或膜厚度的增加而增加。平均转移收益率为93 % 和43 % 分别获得用于形成AnaCTDH(CAN)和AnaCTDH的全蛋白。总之,通过从人工脂质体转移类胡萝卜素来形成AnaCTDH(CAN/ECN)全蛋白最合适的脂质是磷脂酰胆碱(18:1)和磷脂酰甘油(14:0)。因此,这两种脂质为进一步研究脂蛋白相互作用和类胡萝卜素摄取过程提供了最佳条件。
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来源期刊
Biochimica et biophysica acta. Biomembranes
Biochimica et biophysica acta. Biomembranes 生物-生化与分子生物学
CiteScore
8.20
自引率
5.90%
发文量
175
审稿时长
2.3 months
期刊介绍: BBA Biomembranes has its main focus on membrane structure, function and biomolecular organization, membrane proteins, receptors, channels and anchors, fluidity and composition, model membranes and liposomes, membrane surface studies and ligand interactions, transport studies, and membrane dynamics.
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