澳大利亚植物极性粗提取物的体外细胞毒特性
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School of Health, Medical and Applied Sciences, Central Queensland University, Bruce Hwy, North Rockhampton, Queensland 4701, Australia, Institute of Future Farming Systems, Central Queensland University, Bruce Hwy, North Rockhampton, Queensland 4701, Australia

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In vitro Cytotoxic Properties of Crude Polar Extracts of Plants Sourced from Australia
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School of Health, Medical and Applied Sciences, Central Queensland University, Bruce Hwy, North Rockhampton, Queensland 4701, Australia, Institute of Future Farming Systems, Central Queensland University, Bruce Hwy, North Rockhampton, Queensland 4701, Australia

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    摘要:

    背景:大量商品药—包括抗癌、抗病毒和抗糖尿病药物—都是从传统的植物源药材中开发出来。澳大利亚约有25000种植物种群能够适应一系列恶劣的环境,因此尚有大量的新型化合物仍在等待其药用特性方面的研究。目的:此项研究旨在开发一种筛选具有潜在细胞毒性的植物的系统方案。许多研究已经发现极性化合物,例如咖啡酸(caffeic acid)、香豆酸(coumaric acid)、绿原酸(chlorogenic acid), 槲皮素(quercetin), 花青素(anthocyanins)、橙皮苷(hesperidin)、山奈酚(kaempferol)、儿茶素(catechin)、鞣花酸(ellagic acid)以及皂甙(saponins),是具有治疗效果的生物活性成分。方法:首次测定了所选植物甲醇提取物的总酚含量(TPC)和抗氧化能力(FRAP)。植物极性提取物的TPC值和FRAP值之间存在明显的高度相关性。采用MTS分析评估癌细胞系的细胞活力。结果:浓度为250 微克/毫升的Pittosporum angustifolium Lodd提取物作用下无可见活细胞,效果与用作阳性对照(10微克/毫升)的顺铂(一种化疗药物)相当。在浓度为250微克/毫升的Murrya koenigii花和叶提取物中也观察到了较好的抑制作用,分别只有43.46%和63.88%的细胞存活率。相比之下,细胞在同样浓度的箭叶橙Citrus hystrix叶和Sygyzium australe雄蕊提取物中具有较高的细胞存活率(约82-93%)。Pittosporum angustifolium B提取物中的酚类成分显示出更大的峰强度和优势峰,初步确定为绿原酸(chlorogenic acid)、对香豆酸(p-coumaric acid)、咖啡酸(caffeic acid)、t-阿魏酸(t-ferulic acid)和云香苷(rutin)。结论:与其他受试植物提取物相比,澳大利亚物种P.angustifolium提取物对HeLa和HT29细胞的细胞毒性最强。Pittosporum angustifolium提取物的HPLC图谱也显示了一系列有前景的治疗性酚类化合物。未来的研究将致力于从该物种中分离新化合物,并测试其生物活性。

    Abstract:

    Background: Numerous commercial pharmaceuticals – including anticancer, antiviral, and antidiabetic drugs have been developed from traditional plant-derived medicines. There are approximately 25,000 species of flora occurring in Australia, which are adapted to a range of harsh environments, and hence a plethora of novel compounds are still awaiting research in the context of their medicinal properties. Objective: The current study therefore aimed to develop a systematic protocol for screening plants with potential cytotoxicity. Many studies have found polar compounds such as caffeic acid, coumaric acid, chlorogenic acid, quercetin, anthocyanins, hesperidin, kaempferol, catechin, ellagic acid, and saponins to be the bioactive components responsible for the therapeutic effects. Methods: The total phenolic content (TPC) and antioxidant capacity (FRAP) of methanolic extracts of selected plants was first determined. A high correlation between the TPC values and FRAP values of the plant polar extracts were evident. Cell viability of the cancer cell lines were assessed using the MTS assay. Results: Cells subjected to Pittosporum angustifolium Lodd. extracts at concentration of 250 μg·mL?1 showed no viable cells, comparable to cisplatin (a chemotherapy medication) used as a positive control (10 μg·mL?1). Some promising inhibitory effects were also seen with Murrya koenigii flower and leaves at concentration of 250 μg·mL?1, with only 43.46% and 63.88% cell viability, respectively. In contrast, extracts of Citrus hystrix (leaves) and Sygyzium australe (stamen) showed higher percentage cell viabilities (around 82–93%) at same concentrations. The phenolic profile of P. angustifolium B extracts demonstrating greater peak intensity and dominant peaks were tentatively identified as chlorogenic acid, p-coumaric acid, caffeic acid, t-ferulic acid and rutin. Conclusion: The Australian species Pittosporum angustifolium was the most cytotoxic against HeLa and HT29 cells comparing to the other plant extracts tested. A HPLC profile of the P. angustifolium extract also showed an array of promising therapeutic phenolic compounds. Future work will aim to fractionate and isolate novel compounds from this species and test their bioactivity.

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  • 在线发布日期: 2022-11-25
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