Haberlea rhodopensis alcohol extract normalizes stress-responsive transcription of the human TP53 gene

Q4 Veterinary

Journal of Experimental Biology and Agricultural Sciences Pub Date : 2023-04-30 DOI:10.18006/2023.11(2).405.415

N. Dimitrova, D. Staneva, B. Popov, A. Alexandrova, Milena Georgieva, G. Miloshev

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引用次数: 1

Abstract

The Orpheus flower Haberlea rhodopensis (Friv.) of the family Gesneriaceae can go into anabiosis for long periods in an almost entirely desiccated state. It is an endemic relict from the Balkan Peninsula. Alcohol extracts from H. rhodopensis contain many biologically active substances with potent antioxidant, antigenotoxic, radioprotective, revitalizing and antiaging capabilities. However, regulating the gene networks responsible for these activities is vastly unknown. This study explores the cellular mechanisms underlying the protective effect of H. rhodopensis extracts (HRE). HeLa cells (human cervix epithelial carcinoma, HeLa ATCC® CCL-2™) were used as a model. We examined the changes in catalase activity and TP53 mRNA level shortly after oxidative (H2O2) and ionizing radiation (IR) induced stress with and without pre-incubation with HRE extracts. The dynamics in the activity of catalase, a main cellular antioxidant enzyme, and the expression of the stress-responsive gene TP53 were investigated by UV spectrophotometric assay and RT-qPCR, respectively. Under the applied stress conditions, H2O2 treatment and gamma radiation, catalase activity increased. This was a sign of induced ROS generation. In the first hours after treatment, the two stressors led to opposite changes in the levels of TP53 gene expression, which were alleviated by pre-incubation with HRE in a concentration-dependent manner. The broad biological activities of the studied extract, taking into account our results, show that ability of HRE to reduce the effect of stress is achieved through complex molecular mechanisms aimed at preserving cellular homeostasis. Mechanisms include the normalization of antioxidant enzyme activity such as catalase and the activity of TP53, one of the genes responsive to stress, by up or down-regulation.

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Haberlea rhodopensis醇提取物使人类TP53基因的应激反应转录正常化

苦苣苔科的Orpheus花Haberlea rhodopensis（Friv.）可以在几乎完全干燥的状态下长时间复苏。它是巴尔干半岛特有的遗迹。杜鹃花的酒精提取物含有许多生物活性物质，具有强大的抗氧化、抗原性、辐射防护、恢复活力和抗衰老能力。然而，对负责这些活动的基因网络的调控还非常未知。本研究探讨了杜鹃提取物（HRE）保护作用的细胞机制。HeLa细胞（人宫颈上皮癌，HeLa ATCC®CCL-2™) 被用作模型。我们检测了在氧化（H2O2）和电离辐射（IR）诱导的应激后不久过氧化氢酶活性和TP53mRNA水平的变化，使用和不使用HRE提取物预孵育。通过紫外分光光度法和RT-qPCR分别研究了细胞主要抗氧化酶过氧化氢酶的活性和应激反应基因TP53的表达动态。在外加胁迫条件下，H2O2处理和γ射线照射，过氧化氢酶活性增加。这是诱导ROS产生的迹象。在治疗后的最初几个小时，这两种应激源导致TP53基因表达水平的相反变化，通过以浓度依赖性的方式与HRE预孵育来缓解这种变化。考虑到我们的研究结果，所研究提取物的广泛生物活性表明，HRE减少应激影响的能力是通过旨在保持细胞稳态的复杂分子机制实现的。机制包括通过上调或下调抗氧化酶活性（如过氧化氢酶）和TP53（对应激反应的基因之一）的活性的正常化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Experimental Biology and Agricultural Sciences Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.00

自引率

0.00%

发文量

127