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氟哌啶醇在氯胺酮诱导的精神分裂症大鼠模型中引起大脑氧化损伤。

Haloperidol elicits oxidative damage in the brain of rats submitted to the ketamine-induced model of schizophrenia.

机构信息

Translational Psychiatry Laboratory, Graduate Program in Health Sciences, University of Southern Santa Catarina (UNESC), Criciúma, SC, Brazil.

Translational Psychiatry Laboratory, Graduate Program in Health Sciences, University of Southern Santa Catarina (UNESC), Criciúma, SC, Brazil.

出版信息

Brain Res Bull. 2021 May;170:246-253. doi: 10.1016/j.brainresbull.2021.01.021. Epub 2021 Feb 2.

DOI:10.1016/j.brainresbull.2021.01.021
PMID:33545309
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10494233/
Abstract

The present study aims to evaluate the effects of haloperidol, an important first-generation antipsychotic, on the antioxidant system parameters in the brain of animals subjected to a model of schizophrenia induced by ketamine. Adult rats intraperitoneally received saline (1 mL/kg) or ketamine (25 mg/kg body weight) for 15 days, and saline or haloperidol (0.1 mg/kg body weight) via gavage once a day, between the 9th and 14th days. In the frontal cortex, hippocampus, and striatum, assessments of lipid (4-hydroxy-2-nonenal and 8-isoprostane levels) and protein (protein carbonyl content) oxidative damage were conducted. It was also measured the glutathione peroxidase and glutathione reductase activities in the same cerebral structures. Increases in the 4-hydroxy-2-nonenal and 8-isoprostane levels were detected in rats receiving haloperidol and ketamine. An increase in the carbonyl content was also observed in animals receiving ketamine, haloperidol, or a combination thereof. In animals receiving the antipsychotic, there was a decrease in the activity of the enzymes. Therefore, both ketamine and haloperidol induced oxidative damage. A possible energy dysfunction or a haloperidol effect targeting the glutathione enzymes, and then disrupting the redox homeostasis in neurons, could not be ruled out, although further studies are required to confirm or refute a direct interaction.

摘要

本研究旨在评估氟哌啶醇(一种重要的第一代抗精神病药)对氯胺酮诱导的精神分裂症动物模型大脑抗氧化系统参数的影响。成年大鼠连续 15 天腹腔注射生理盐水(1ml/kg)或氯胺酮(25mg/kg 体重),第 9 天至第 14 天连续 15 天经口给予生理盐水或氟哌啶醇(0.1mg/kg 体重)。在额皮质、海马体和纹状体中,评估脂质(4-羟基-2-壬烯醛和 8-异前列腺素水平)和蛋白质(蛋白质羰基含量)氧化损伤。还测量了同一脑结构中谷胱甘肽过氧化物酶和谷胱甘肽还原酶的活性。接受氟哌啶醇和氯胺酮治疗的大鼠 4-羟基-2-壬烯醛和 8-异前列腺素水平升高。接受氯胺酮治疗的动物的羰基含量也增加。接受抗精神病药的动物,酶的活性下降。因此,氯胺酮和氟哌啶醇均诱导氧化损伤。不能排除能量功能障碍或氟哌啶醇靶向谷胱甘肽酶的作用,然后破坏神经元中的氧化还原平衡,尽管需要进一步研究来证实或反驳直接相互作用。

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