Drought stress enhances phytochemical, antioxidant, antidiabetic and anticancer properties in Pandanus tectorius

IF 1.4 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochemical Systematics and Ecology Pub Date : 2024-08-28 DOI:10.1016/j.bse.2024.104889

Venkatachalam Balamurugan , Chinnasamy Ragavendran , Thillaigovindan Nedumaran , Rajalakshmi Settu , Karthiksaran Chinnasamy , Soundarya Vasudevan , Dhanarajan Arulbalachandran , Mohammad Javed Ansari

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Abstract

Global warming is responsible for increasing temperatures and reducing rainfall in many regions of the world. Due to insufficient rainfall or lack of water in the soil, plants experience a range of morphological and biochemical alterations when they are exposed to drought conditions. Interestingly, the cells of drought-stressed plants can serve as a potential source for discovering new drugs. These secondary metabolic products have important biological functions that determine how plants interact with the environment and help them accommodate alterations. Present research has shed light on the response of Pandanus tectorius induced drought stress at 8th and 16th days. The studies observed the levels of various secondary metabolites in plants under drought-induced stress. Among the secondary metabolites analyzed, total alkaloids exhibited the highest overall concentration at 26.19 ± 0.83^a. Furthermore, the observations found that drought stress had a significant impact on the plant's secondary metabolism. This resulted in increased levels of total alkaloids, saponins, tannins, and phenolics compared to the control plant. Especially the concentration of phenolics showed the most significant increase, with a remarkable 64.99% rise observed at the 16th day of treatment. The concentration of phenolics reached (20.52 ± 0.181^c) at this level. Moreover, compared to control, P. tectorius exhibits significant antioxidant, antidiabetic, anti-inflammatory, molecular docking, and anticancer effects against MDA-MB-231 human breast cancer cell line inhibitory concentration IC₅₀ values (48.91 ± 0.95 μg/mL) at 16th day treated plants. Consequently, the positive responses of P. tectorius drought stress enhance secondary metabolites. This research focus on drought stress stimulus prompts an urge in the production of secondary metabolites in P. tectorius, leading to an increase in its anticancer and anti-diabetic properties and treatments for type-2 diabetes and against fighting for cancer with minimal side effects and helping prevent diseases.

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干旱胁迫增强露兜树的植物化学、抗氧化、抗糖尿病和抗癌特性

全球变暖导致世界许多地区气温升高、降雨量减少。由于降雨不足或土壤缺水，植物在干旱条件下会出现一系列形态和生化变化。有趣的是，干旱胁迫植物的细胞可以作为发现新药物的潜在来源。这些次生代谢产物具有重要的生物功能，决定了植物与环境的相互作用，并帮助它们适应环境的改变。目前的研究揭示了露兜树在干旱胁迫第 8 天和第 16 天的反应。研究观察了干旱胁迫下植物体内各种次生代谢物的水平。在分析的次生代谢物中，总生物碱的总体浓度最高，为 26.19 ± 0.83a。此外，观察还发现干旱胁迫对植物的次生代谢有显著影响。这导致总生物碱、皂苷、单宁酸和酚类物质的含量比对照植物有所增加。尤其是酚类物质的浓度增加最为显著，在处理的第 16 天，酚类物质的浓度显著增加了 64.99%。在这一水平上，酚类物质的浓度达到了（20.52 ± 0.181c）。此外，与对照组相比，在处理植物的第 16 天，桔梗表现出明显的抗氧化、抗糖尿病、抗炎、分子对接和抗癌效果，对 MDA-MB-231 人乳腺癌细胞株的抑制浓度 IC50 值（48.91 ± 0.95 μg/mL）。因此，干旱胁迫的积极反应增强了次生代谢产物。对干旱胁迫刺激的这一研究重点促进了菊芋次生代谢物的产生，从而提高了菊芋的抗癌和抗糖尿病特性，并能以最小的副作用治疗 2 型糖尿病和抗击癌症，有助于预防疾病。

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来源期刊

Biochemical Systematics and Ecology 生物-进化生物学

CiteScore

3.00

自引率

12.50%

发文量

147

审稿时长

43 days

期刊介绍： Biochemical Systematics and Ecology is devoted to the publication of original papers and reviews, both submitted and invited, in two subject areas: I) the application of biochemistry to problems relating to systematic biology of organisms (biochemical systematics); II) the role of biochemistry in interactions between organisms or between an organism and its environment (biochemical ecology). In the Biochemical Systematics subject area, comparative studies of the distribution of (secondary) metabolites within a wider taxon (e.g. genus or family) are welcome. Comparative studies, encompassing multiple accessions of each of the taxa within their distribution are particularly encouraged. Welcome are also studies combining classical chemosystematic studies (such as comparative HPLC-MS or GC-MS investigations) with (macro-) molecular phylogenetic studies. Studies that involve the comparative use of compounds to help differentiate among species such as adulterants or substitutes that illustrate the applied use of chemosystematics are welcome. In contrast, studies solely employing macromolecular phylogenetic techniques (gene sequences, RAPD studies etc.) will be considered out of scope. Discouraged are manuscripts that report known or new compounds from a single source taxon without addressing a systematic hypothesis. Also considered out of scope are studies using outdated and hard to reproduce macromolecular techniques such as RAPDs in combination with standard chemosystematic techniques such as GC-FID and GC-MS.