Hydrophobic and Hydrophilic Deep Eutectic Solvents to Extract Carotenoids from Orange Peels and Obtain Green Extracts

Foods 2022 Pub Date : 2022-09-30 DOI:10.3390/foods2022-12978

A. Viñas-Ospino, M. Panić, Ivana Radojčić-Redovniković, J. Blesa, A. Frígola, M. Esteve, D. López-Malo

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Abstract

: Nowadays the food industry is focusing on the reutilization of fruit by-products rich in bioactive compounds such as carotenoids. These valuable ingredients could be extracted to formulate functional food products. Deep Eutectic Solvents (DES) are a new generation of solvents that comply with the requirements for green extractions and can successfully replace other organic solvents. The aim of the present study was to select the most promising DES for carotenoid extraction from orange peel (OP) and obtain green extracts with biological activity. In order to reduce time and energy, the software COSMOtherm was used for the screening of 68 DES to provide the optimal solvent for carotenoid extraction. The results from the software were validated experimentally with the most suitable and unsuitable solvents. OP was obtained from orange fruits ( Citrus sinensis , Navel cultivar). Three hydrophobic DES were prepared Menthol:Camphor (Me:Cam), Menthol:Eucalyptol (Me:Eu), Lauric Acid:Octanoic acid (C12:C8) and two hydrophilic Proline:Malic acid (Pro:MA) and Choline chloride:Urea (ChChl:U). Extractions were performed with 1 g of milled OP using different DES (1:10 w / v ) for 30 min with 50 W of ultrasound power at 45 ◦ C. The obtained extracts were characterized by total carotenoid content (TC), determined spectrophotometrically; the biological activity was evaluated in vitro by an antiproliferative assay in tumor cells (HeLa) using MTS reactive. The extracts obtained with hydrophobic DES showed the highest values of total carotenoids, and no signiﬁcative difference ( p > 0.05) was found between Me:Cam (163.5 ± 1.1 mg/100 g fw ), Me:EU (168.7 ± 1.6 mg/100 g fw ) and C12:C8 (153.1 ± 7.1 mg/100 g fw ). The in vitro assay showed an antiproliferative effect of Me:Cam extract on tumor HeLa cells with 26.7% of cell viability. The whole formulation (DES and bioactive compound) could be included in ﬁnal products without any additional purifying steps and can enhance the bioactivity of food products.

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疏水和亲水深共晶溶剂从橘子皮中提取类胡萝卜素并获得绿色提取物

当前，食品工业关注的是对富含类胡萝卜素等生物活性化合物的水果副产品的再利用。这些有价值的成分可以被提取出来制成功能性食品。深共晶溶剂(Deep Eutectic solvent, DES)是符合绿色萃取要求的新一代溶剂，可以成功取代其他有机溶剂。本研究的目的是选择最具应用前景的DES提取橙皮类胡萝卜素，获得具有生物活性的绿色提取物。为了节省时间和精力，利用COSMOtherm软件对68个DES进行筛选，为类胡萝卜素提取提供最佳溶剂。用最合适和最不合适的溶剂对软件结果进行了实验验证。从柑桔果实(Citrus sinensis, Navel品种)中提取OP。制备了三种疏水DES:薄荷醇:樟脑(Me:Cam)、薄荷醇:桉树醇(Me:Eu)、月桂酸:辛酸(C12:C8)和亲水性脯氨酸:苹果酸(Pro:MA)和氯化胆碱:尿素(ChChl:U)。用不同DES (1:10 w / v)， 50 w超声功率，45℃，1 g磨碎的OP提取30 min，得到的提取物用总类胡萝卜素含量(TC)进行表征，分光光度法测定;采用MTS反应法对肿瘤细胞(HeLa)进行体外抗增殖试验，评价其生物活性。疏水DES提取液中总类胡萝卜素含量最高，Me:Cam(163.5±1.1 mg/100 g fw)、Me:EU(168.7±1.6 mg/100 g fw)和C12:C8(153.1±7.1 mg/100 g fw)之间差异无统计学意义(p < 0.05)。体外实验显示，枸杞提取物对肿瘤HeLa细胞有抗增殖作用，细胞存活率为26.7%。整个配方(DES和生物活性化合物)可以包含在最终产品中，无需任何额外的纯化步骤，可以提高食品的生物活性。

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Foods 2022

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