Carvacrol通过调节大脑抗氧化防御机制预防双酚A诱导的斑马鱼行为变化和氧化应激

Bichandarkoil Jayaram Pratima
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摘要

人们发现,双酚A(BPA)是一种公认的人为外源性雌激素,是人类和其他物种发生癌症、认知障碍、神经毒性、氧化应激和其他有害影响的原因之一。尽管对BPA诱导毒性的机制有一些研究,但尚不清楚是否有通过自然干预改善的机会。斑马鱼(Danio rerio)在水性接触BPA后被用于本研究,以评估共同补充香芹酚是否可以降低该化合物的破坏潜力。目前调查中使用的所有化学品和试剂均购自印度奥托切姆的Sigma-Aldrich。5-7个月大的斑马鱼是从金奈科拉图尔当地的一家鱼类商店获得的,并保存在50升的恒温箱中,温度为25±2ºC。开展这项研究不涉及动物伦理问题。进行了实验室研究,以确定香芹酚的抗氧化性质是否可以保护斑马鱼的大脑免受BPA诱导的行为反应和氧化应激的影响。目前的数据表明,香芹酚能有效缓解BPA引起的行为反应改变。对斑马鱼大脑的生化研究表明,香芹酚在治疗BPA诱导的氧化应激方面可能具有治疗潜力。此外,香芹酚保护斑马鱼的大脑免受BPA诱导的毒性。这些初步数据表明,香芹酚可能通过抑制活性氧的产生,对治疗BPA诱导的斑马鱼毒性有帮助。未来对信号级联的研究可能会出现治疗BPA诱导的严重疾病易感性的新治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carvacrol Prevents Bisphenol A-Induced Behavioral Changes And Oxidative Stress in Zebrafish Through Modulating Brain Antioxidant Defense Mechanism
It has been discovered that bisphenol A (BPA), an established anthropogenic xenoestrogen, is a causal factor in developing cancer, cognitive impairment, neurotoxicity, oxidative stress, and other harmful effects in humans and other species. Although there is some research into the mechanisms of BPA-induced toxicity, it is unclear whether there is a chance of amelioration through natural intervention. Zebrafish (Danio rerio) were used in this study after waterborne exposure to BPA, to assess whether carvacrol co-supplementation could reduce the destructive potential of the compound. All the chemicals and reagents utilized in the current investigations were purchased from Sigma-Aldrich, Ottochem, India. 5-7month-old zebrafish were acquired from a local fish store in Kolathur, Chennai and kept in a 50-L tank at a constant temperature of 25±2ºC. There were no animal ethical issues involved to carry out this research. Laboratory studies were conducted to determine whether the antioxidant nature of carvacrol might protect the zebrafish brain from BPA-induced altered behavioural responses and oxidative stress. The current data demonstrates that carvacrol is effective in alleviating the altered behavioural response caused by BPA. Biochemical investigations in the zebrafish brain suggest that carvacrol may have therapeutic potential in treating oxidative stress induced by BPA. In addition, the zebrafish brain is protected by carvacrol against BPA-induced toxicity. These preliminary data suggest that carvacrol may be a helpful intervention in treating BPA-induced toxicity in zebrafish by inhibiting the reactive oxygen species production. Novel therapeutic approaches for treating BPA-induced predisposition to severe illnesses could emerge from future research on signaling cascades.
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来源期刊
Bioscience Biotechnology Research Communications
Bioscience Biotechnology Research Communications BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
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