白术提取物的体外细胞毒性、基因毒性和有丝分裂毒性作用。

African health sciences Pub Date : 2024-03-01 DOI:10.4314/ahs.v24i1.35

Awatif Boumaza, Ali Ergüç, Hilmi Orhan

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引用次数: 0

摘要

背景：地中海蓟苍术（菊科；AG）含有二萜苷类，即苍术苷和羧基苍术苷，它们与线粒体蛋白腺嘌呤核苷酸转运体（ANT）相互作用，导致抑制 ATP。尽管这种植物的毒性众所周知，但急性中毒事件仍时有发生。虽然大多数症状都是由 ANT 和二萜类化合物相互作用引起的，但尚未深入研究 AG 提取物对各种细胞过程的影响：目的/方法：我们采用牛肝线粒体体外诱导线粒体通透性转换孔（MPTP）开放试验，并使用薤白试验评估其细胞毒性和遗传毒性。在暴露于白术提取物的薤白根细胞中研究了细胞分裂、有丝分裂指数（MI）和染色体及有丝分裂畸变总数（TA），所有这些似乎都可能受到 ATP 短缺的影响：结果：与标准的纯苍术苷相比，两种不同剂量的纯化 AG 提取物对 MPTP 的诱导作用更强。在 6 个不同剂量下，AG 水提取物对牛肝菌根的生长有抑制作用。TAs 的增加也与剂量有关，而有丝分裂指数在相同剂量下有所降低。对有丝分裂期的评估表明，白术提取物对牛肝菌根具有抑制有丝分裂的作用。一种可能与 ATR 衍生物相对应的纯化馏分可诱导 MPTP 开放，导致线粒体肿胀和功能障碍。薤白试验为白术的遗传毒性和细胞毒性提供了证据。

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The cytotoxic, genotoxic and mitotoxic effects of Atractylis gummifera extract in vitro.

Background: The Mediterranean thistle Atractylis gummifera L. (Asteraceae; AG) has diterpenoid glucosides; atractyloside and carboxyatractyloside that interact with mitochondrial protein adenine nucleotide translocator (ANT) and resulted in ATP inhibition. Despite its well-known toxicity, acute poisonings still occur with this plant. Although most symptoms are attributed to ANT and diterpenoids interaction, in-depth investigation of the effects of AG extract on various cellular processes has not been performed.

Objective/method: We tested in vitro induction of mitochondrial permeability transition pore (MPTP) opening in bovine liver mitochondria and evaluated its cytotoxicity and genotoxicity using Allium cepa test. Cell division, mitotic index (MI) and total chromosomal and mitotic aberrations (TAs), that all seem potentially affected by ATP shortage, were studied in root cells of Allium cepa exposed to Atractylis gummifera extract.

Results: With the two different doses of two purified AG fractions, stronger induction of MPTP was observed compared to the induction with the standard pure atracyloside. Aqueous AG extract exerted inhibition root growth in A. cepa at 6 different doses. The TAs was increased in a dose-dependent manner too, while mitotic index was decreased at the same doses. Evaluation of mitotic phases revealed mitodepressive effect of AG on A. cepa roots.

Conclusion: this work highlights cellular and mitochondrial adverse effects of Atractylis gummifera extracts. A purified fraction that likely corresponds to ATR derivatives induces MPTP opening leading to swelling of mitochondria and its dysfunction. Allium cepa test provides the evidence for A. gummifera genotoxicity and cytotoxicity.

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African health sciences

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