Maria M. Oliveira , Sofia Correia , Cecilia Peirone , Marques Magalhães , Paula Oliveira , Francisco Peixoto
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These inhibitions can prevent mitochondrial reactive oxygen species (ROS) production. Additionally, there was a decline in glutathione content, unaccompanied by a rise in its oxidized form. The ozone-treated groups showed a significant increase in the activity of superoxide dismutase and glutathione peroxidase, while catalase and glutathione reductase experienced no significant alterations. Adenine nucleotides increased in the ozone group, but only the increase in adenosine diphosphate is significant, so the cell's energy charge is unaffected. This study shows that mitochondria may play a crucial role in ozone treatment. 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引用次数: 0
摘要
臭氧疗法的疗效可能源于臭氧与各种生物元素相互作用所产生的调节性轻微氧化应激。本研究旨在分析肝线粒体对臭氧治疗的反应及其与抗氧化系统反应的关系。研究使用了两组小鼠:一组为对照组,另一组为腹腔注射臭氧/二氧化硫混合物(80 毫升/千克)5 天组。不同底物支持的线粒体呼吸受到明显抑制,复合体 I 和 II/III 也受到抑制,但复合体 IV 不受抑制。对电子传递链复合物活性的分析表明,复合物 I 和 II/III 受到了明显的抑制,但复合物 IV 没有受到抑制。这些抑制作用可以阻止线粒体活性氧(ROS)的产生。此外,谷胱甘肽的含量也有所下降,但其氧化形式并未随之上升。臭氧处理组的超氧化物歧化酶和谷胱甘肽过氧化物酶的活性显著增加,而过氧化氢酶和谷胱甘肽还原酶没有发生显著变化。臭氧组中腺嘌呤核苷酸增加,但只有二磷酸腺苷增加显著,因此细胞的能量电荷未受影响。这项研究表明,线粒体可能在臭氧治疗中起着至关重要的作用。不过,它也强调了进一步研究以了解分子机制的必要性。
Impact of ozone therapy on mouse liver mitochondrial function and antioxidant system
Ozone therapy's efficacy might stem from the regulated and mild oxidative stress resulting from ozone's interactions with various biological elements. The present work aimed to characterize the hepatic mitochondrial response to ozone treatment and its relationship with the antioxidant system response. Two groups of mice were used: one control group and another injected intraperitoneally with an O3/O2 mixture (80 ml/kg) for 5 days. Mitochondrial respiration supported by different substrates was significantly inhibited, as well as complexes I and II/III, but not complex IV. The analysis of the electron transport chain complex activity showed significant inhibitions in complexes I and II/III but not in complex IV. These inhibitions can prevent mitochondrial reactive oxygen species (ROS) production. Additionally, there was a decline in glutathione content, unaccompanied by a rise in its oxidized form. The ozone-treated groups showed a significant increase in the activity of superoxide dismutase and glutathione peroxidase, while catalase and glutathione reductase experienced no significant alterations. Adenine nucleotides increased in the ozone group, but only the increase in adenosine diphosphate is significant, so the cell's energy charge is unaffected. This study shows that mitochondria may play a crucial role in ozone treatment. However, it also highlights the need for further studies to understand the molecular mechanism.
期刊介绍:
Biochimie publishes original research articles, short communications, review articles, graphical reviews, mini-reviews, and hypotheses in the broad areas of biology, including biochemistry, enzymology, molecular and cell biology, metabolic regulation, genetics, immunology, microbiology, structural biology, genomics, proteomics, and molecular mechanisms of disease. Biochimie publishes exclusively in English.
Articles are subject to peer review, and must satisfy the requirements of originality, high scientific integrity and general interest to a broad range of readers. Submissions that are judged to be of sound scientific and technical quality but do not fully satisfy the requirements for publication in Biochimie may benefit from a transfer service to a more suitable journal within the same subject area.
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