The Influence of Weather Conditions on the Immortelle Volatile Constituents from Essential oil and Hydrosol with a Focus on Italidiones and Its Molecular Docking Anti-Inflammatory Potential

IF 1.5 4区 医学 Q4 CHEMISTRY, MEDICINAL
Milica Aćimović, Jovana Stanković Jeremić, Marina Todosijević, Mirjana Cvetković, Biljana Lončar, Vladimir Vukić, Tamara Erceg, Lato Pezo, Valtcho D. Zheljazkov
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Abstract

ObjectivesImmortelle has garnered global attention for its cosmetic, medicinal, and culinary applications worldwide. Apart from neryl acetate, α-pinene and γ-curcumene as the most important components for the estimation of the essential oil quality, in recent years a group of β-diketones, known as italidiones, appear as significant quality parameters. However, it is unknown how weather conditions (temperature and precipitation) influence their accumulation in essential oil and hydrosol, nor their anti-inflammatory potential.MethodsThis study investigates the chemical composition of immortelle essential oil and hydrosol over three successive years (2019/20, 2020/21, and 2021/22), by GC-FID and GC-MS analysis. In silico molecular docking model with Vascular Adhesion Protein-1 (VAP-1) was used for the simulation of the anti-inflammatory potential of italidiones, as well as other β-diketones present in immortelle essential oil and hydrosol.ResultsDuring the three-year trial, it was established that essential oil compounds such as α-pinene, neryl acetate, and italicene were positively correlated with temperature and negatively correlated with precipitation, as well as β-diketones and total italidiones. Moreover, trans-caryophyllene, γ-curcumene, and ar-curcumene were in negative correlation with temperature, and a slight positive correlation with precipitation. On the other side, in the hydrosol the content of both total β-diketones and total italidiones was strongly negatively correlated with temperatures, and positively correlated with precipitation, which was the opposite of essential oil. Additionally, findings indicated that italidiones could bind the human VAP-1 protein in the vicinity of the topiquinone and block its function.ConclusionWeather conditions affect variations in the accumulation of volatile compounds in essential oil and hydrosol, which in some cases can affect changes in olfactory characteristics, as well as criteria prescribed by standards, and even changes in biological activities. These results indicate that italidiones, as well as other β-diketones present in immortelle, may be responsible for its anti-inflammatory activity.
天气条件对仙人掌精油和水溶液中挥发性成分的影响,重点是它的缩水甘油醚及其分子对接抗炎潜力
目的墨旱莲因其在美容、医药和烹饪方面的应用而备受全球关注。除了乙酸橙花酯、α-蒎烯和γ-莪术烯是评估精油质量的最重要成分外,近年来,一组被称为 italidiones 的 β-二酮也成为重要的质量参数。本研究通过 GC-FID 和 GC-MS 分析方法,对连续三年(2019/20、2020/21 和 2021/22)的仙客来精油和水醇的化学成分进行了研究。结果在为期三年的试验中,α-蒎烯、乙酸橙花酯、伊塔里烯等精油化合物与温度呈正相关,与降水呈负相关,β-二酮类化合物和总伊塔里酮类化合物也与温度呈正相关,与降水呈负相关。此外,反式叶绿素、γ-莪术烯和 ar-莪术烯与温度呈负相关,与降水略呈正相关。另一方面,在水醇中,总 β-二酮和总 italidiones 的含量与温度呈强烈的负相关,而与降水量呈正相关,这与精油正好相反。结论 天气条件会影响精油和水溶胶中挥发性化合物的积累变化,在某些情况下会影响嗅觉特征的变化以及标准规定的标准,甚至会影响生物活性的变化。这些结果表明,长春花中的 italidiones 以及其他 β-二酮可能是其抗炎活性的原因。
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来源期刊
Natural Product Communications
Natural Product Communications 工程技术-食品科技
CiteScore
3.10
自引率
11.10%
发文量
254
审稿时长
2.7 months
期刊介绍: Natural Product Communications is a peer reviewed, open access journal studying all aspects of natural products, including isolation, characterization, spectroscopic properties, biological activities, synthesis, structure-activity, biotransformation, biosynthesis, tissue culture and fermentation. It covers the full breadth of chemistry, biochemistry, biotechnology, pharmacology, and chemical ecology of natural products. Natural Product Communications is a peer reviewed, open access journal studying all aspects of natural products, including isolation, characterization, spectroscopic properties, biological activities, synthesis, structure-activity, biotransformation, biosynthesis, tissue culture and fermentation. It covers the full breadth of chemistry, biochemistry, biotechnology, pharmacology, and chemical ecology of natural products. Natural Product Communications is a peer reviewed, open access journal studying all aspects of natural products, including isolation, characterization, spectroscopic properties, biological activities, synthesis, structure-activity, biotransformation, biosynthesis, tissue culture and fermentation. It covers the full breadth of chemistry, biochemistry, biotechnology, pharmacology, and chemical ecology of natural products.
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