血红素加氧酶、一氧化碳和胆红素在癫痫发作时脑循环中的抗氧化作用。

Antioxidant roles of heme oxygenase, carbon monoxide, and bilirubin in cerebral circulation during seizures.

机构信息

Department of Physiology, University of Tennessee Health Science Center, Memphis, TN, USA.

出版信息

J Cereb Blood Flow Metab. 2012 Jun;32(6):1024-34. doi: 10.1038/jcbfm.2012.13. Epub 2012 Feb 22.

DOI:10.1038/jcbfm.2012.13

PMID:22354150

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3367218/

Abstract

Postictal cerebrovascular dysfunction is an adverse effect of seizures in newborn piglets. The brain heme oxygenase (HO) provides protection against cerebrovascular dysfunction. We investigated the contribution of reactive oxygen species (ROS) to seizure-induced vascular damage and the mechanism of HO vasoprotection. In a bicuculline model of seizures, we addressed the hypotheses: (1) seizures increase brain ROS; (2) ROS contribute to cerebral vascular dysfunction; (3) ROS initiate a vasoprotective mechanisms by activating endogenous HO; and (4) HO products have antioxidant properties. As assessed by dihydroethidium oxidation (ox-DHE), seizures increased ROS in cerebral vessels and cortical astrocytes; ox-DHE elevation was prevented by tiron and apocynin. An HO inhibitor, tin protoporphyrin, potentiated, whereas an HO-1 inducer, cobalt protoporphyrin, blocked seizure-induced increase in DHE oxidation. Heme oxygenase products carbon monoxide (CO) (CORM-A1) and bilirubin attenuated ox-DHE elevation during seizures. Antioxidants tiron and bilirubin prevented the loss of postictal cerebrovascular dilations to bradykinin, glutamate, and sodium nitroprusside. Tiron and apocynin abrogated activation of the brain HO during seizures. Overall, these data suggest that long-term adverse cerebrovascular effects of seizures are attributed to oxidative stress. On the other hand, seizure-induced ROS are required for activation of the endogenous antioxidant HO/CO/bilirubin system that alleviates oxidative stress-induced loss of postictal cerebrovascular function in piglets.

摘要

癫痫后脑血管功能障碍是新生仔猪癫痫的一种不良反应。脑血红素加氧酶 (HO) 可提供对脑血管功能障碍的保护。我们研究了活性氧 (ROS) 对癫痫引起的血管损伤的贡献以及 HO 血管保护的机制。在苯二氮䓬诱发的癫痫模型中，我们提出了以下假设：(1) 癫痫会增加脑内 ROS；(2) ROS 导致脑血管功能障碍；(3) ROS 通过激活内源性 HO 启动血管保护机制；(4) HO 产物具有抗氧化特性。通过二氢乙啶氧化 (ox-DHE) 评估，癫痫增加了脑血管和皮质星形胶质细胞中的 ROS；tiron 和 apocynin 可预防 ox-DHE 升高。HO 抑制剂 tin protoporphyrin 增强，而 HO-1 诱导剂 cobalt protoporphyrin 则阻断了癫痫引起的 DHE 氧化增加。血红素加氧酶产物一氧化碳 (CO) (CORM-A1) 和胆红素减轻了癫痫发作期间 ox-DHE 的升高。抗氧化剂 tiron 和胆红素可防止癫痫后脑血管对缓激肽、谷氨酸和硝普钠扩张的丧失。tiron 和 apocynin 可阻断癫痫期间脑 HO 的激活。总的来说，这些数据表明癫痫的长期不良脑血管影响归因于氧化应激。另一方面，癫痫引起的 ROS 是激活内源性抗氧化 HO/CO/胆红素系统所必需的，该系统减轻了氧化应激诱导的仔猪癫痫后脑血管功能丧失。

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