Sperk G, Lassmann H, Baran H, Kish S J, Seitelberger F, Hornykiewicz O
Neuroscience. 1983 Dec;10(4):1301-15. doi: 10.1016/0306-4522(83)90113-6.
Behavioural, histopathological and neurochemical changes induced by systemic injection of kainic acid (10 mg/kg, s.c.) were investigated in rats. The most pronounced behavioural changes were strong immobility ("catatonia"), increased incidence of "wet dog shakes", and long-lasting generalized tonic-clonic convulsions. The behavioural symptoms were fast in their onset and lasted for several hours. Two distinct phases of histopathological and neurochemical changes were observed. (1) Early partially reversible changes were seen up to 3 h after kainic acid injection. They consisted of shrinkage and pyknosis of neuronal perikarya together with swelling of dendrites and axon terminals. These changes were accompanied by generalized signs of edema throughout the whole brain. Neurochemically, there was a marked decrease in noradrenaline levels (up to 70%) and an increase in levels of 5-hydroxyindoleacetic acid, 3,4-dihydroxyphenylacetic acid and homovanillic acid (up to 200%) in all analysed brain regions, suggesting a strongly increased firing rate of aminergic neurones during the period of generalized seizures. These histological and neurochemical changes were found in all the brain regions examined; they were greatly reduced or only sporadically seen after 1-3 days, when the animals had recovered from the seizures. (2) Late irreversible changes developed 24 h and later following kainic acid injection. They consisted of incomplete tissue necrosis with loss of nerve cells and oligodendrocytes, demyelination, astroglial scar formation, small perivenous hemorrhages and extensive vascular sprouting. The changes were restricted to the pyriform cortex, amygdala, hippocampus (most pronounced in the CA1 sector), gyrus olfactorius lateralis, bulbus olfactorius and tuberculum olfactorium. Neurochemically, a selective decrease was seen in choline acetyltransferase activity (40%) of the amygdala/pyriform cortex area, and of glutamate decarboxylase activity in the dorsal hippocampus (45%) and amygdala/pyriform cortex (55%). No such changes were found in the frontal cortex and the striatum/pallidum. Since at these later time periods the widespread early changes in monoamine metabolism were mostly normalized, loss of acetylcholine and gamma-aminobutyric acid neurons in the affected brain regions represented a selective neurochemical change typical for this stage of kainic acid action. The observed neurochemical and histopathological changes may be directly related to the excitotoxic and convulsive properties of kainic acid. However, brain edema resulting in herniation damage of the basal portions of the brain in addition to disturbances of microcirculation and +
研究了全身注射海藻酸(10毫克/千克,皮下注射)对大鼠行为、组织病理学和神经化学的影响。最明显的行为变化是强烈的不动(“紧张症”)、“湿狗样抖动”发生率增加以及持久的全身性强直-阵挛性惊厥。行为症状起病迅速,持续数小时。观察到组织病理学和神经化学变化的两个不同阶段。(1)海藻酸注射后3小时内可见早期部分可逆性变化。它们包括神经元胞体的萎缩和固缩,以及树突和轴突终末的肿胀。这些变化伴随着全脑普遍的水肿迹象。神经化学方面,所有分析脑区中去甲肾上腺素水平显著降低(高达70%),5-羟吲哚乙酸、3,4-二羟基苯乙酸和高香草酸水平升高(高达200%),这表明在全身性惊厥期间胺能神经元的放电率大幅增加。在所有检查的脑区都发现了这些组织学和神经化学变化;当动物从惊厥中恢复后,1 - 3天这些变化大大减少或仅偶尔可见。(2)海藻酸注射24小时及以后出现晚期不可逆性变化。它们包括不完全的组织坏死,伴有神经细胞和少突胶质细胞丢失、脱髓鞘、星形胶质瘢痕形成、小静脉周围出血和广泛的血管增生。这些变化局限于梨状皮质、杏仁核、海马体(CA1区最明显)、外侧嗅回、嗅球和嗅结节。神经化学方面,杏仁核/梨状皮质区域的胆碱乙酰转移酶活性选择性降低(40%),背侧海马体(45%)和杏仁核/梨状皮质(55%)的谷氨酸脱羧酶活性降低。额叶皮质和纹状体/苍白球未发现此类变化。由于在这些较晚时期,单胺代谢的广泛早期变化大多已恢复正常,受影响脑区中乙酰胆碱和γ-氨基丁酸神经元的丧失代表了海藻酸作用这一阶段典型的选择性神经化学变化。观察到的神经化学和组织病理学变化可能与海藻酸的兴奋性毒性和惊厥特性直接相关。然而,除了微循环紊乱外,脑水肿还导致脑底部的疝性损伤以及……
