Nehlig A, Pereira de Vasconcelos A
INSERM U 398, Faculté de Médecine, Strasbourg, France.
Epilepsy Res. 1996 Dec;26(1):93-103. doi: 10.1016/s0920-1211(96)00045-9.
In order to assess acute, short and long-term effects of seizures in the immature rat brain, we studied the metabolic, circulatory and histopathological changes induced by pentylenetetrazol (PTZ) given at postnatal day 10 (P10) or 21 (P21). Seizures were induced by repetitive subconvulsive injections of PTZ given as a first dose of 40 mg/kg followed 10 min later by 20 mg/kg. Thereafter, rats received every 10 min additional injections of PTZ 10 mg/kg until the onset of status epilepticus. Local cerebral metabolic rates for glucose (LCMRglc) were measured both during the seizures in P10 and P21 rats and in the young adult animal at P60 by means of the quantitative 2-deoxyglucose technique. Rates of local cerebral blood flow (LCBF) were determined during the seizures by the iodoantipyrine technique. Short-term histological changes were assessed by acid fuchsin and hematoxylin-eosin staining and by HSP72 immunohistochemistry. At P10, LCMRglcs uniformly increased (38-400%) over control values during seizures. At P21, metabolic increases (39-181%) occurred only in 20% of the structures while LCMRglcs decreased in most cortical, hippocampal and sensory areas as well as in mammillary body, discrete thalamic nuclei and white matter areas. At P10, LCBF rose (32-184%) in all brain structures whereas, at P21, LCBF decreased in cortical, hippocampal and sensory regions and increased in most other areas. At P60, in animals having seized at either age, significant long-term decreases in LCMRglcs were recorded in hippocampus, auditory and piriform cortex, medial geniculate body and mammillary body. In P60 animals exposed to PTZ at P10, LCMRglcs were also decreased in 3 other sensory areas. In P60 animals exposed to seizures at P21, LCMRglcs were additionally decreased in sensory regions, cortices, thalamic and hypothalamic regions. Neuronal cells were transiently stained with acid fuchsin, with a peak occurring at 24 h after the seizures. The stain was visible in all regions of cerebral cortex and hippocampus and in some thalamic and hypothalamic nuclei. This transient staining was not accompanied by cell degeneration as assessed by hematoxylin-eosin histology. No HSP72 expression could be detected 24 h after the seizures, neither at P10 nor at P21. The present study shows that the immature rat neurons undergo altered metabolic rates and local circulatory decreases in the acute phase, a change in the affinity of acid fuchsin as a short-term effect and long-term metabolic decreases. All these changes are located in the same regions, i.e., cerebral cortex, hippocampus, sensory regions as well as scattered thalamic and hypothalamic nuclei. Thus, short- and long-term metabolic changes induced by seizures can be used as an index of cell stress in the immature rat brain. Since all these changes occur in the absence of visible neuronal death, they might be related to changes in the final arborization and synaptic organization of the developing brain.
为了评估未成熟大鼠脑内癫痫发作的急性、短期和长期影响,我们研究了在出生后第10天(P10)或第21天(P21)给予戊四氮(PTZ)所诱导的代谢、循环和组织病理学变化。通过重复给予亚惊厥剂量的PTZ诱导癫痫发作,首剂为40mg/kg,10分钟后给予20mg/kg。此后,大鼠每10分钟额外注射10mg/kg的PTZ,直至癫痫持续状态发作。采用定量2-脱氧葡萄糖技术,在P10和P21大鼠癫痫发作期间以及P60的年轻成年动物中测量局部脑葡萄糖代谢率(LCMRglc)。通过碘安替比林技术在癫痫发作期间测定局部脑血流量(LCBF)。通过酸性品红和苏木精-伊红染色以及HSP72免疫组织化学评估短期组织学变化。在P10时,癫痫发作期间LCMRglc比对照值均匀增加(38 - 400%)。在P21时,仅20%的结构出现代谢增加(39 - 181%),而大多数皮质、海马和感觉区域以及乳头体、离散的丘脑核和白质区域的LCMRglc下降。在P10时,所有脑结构的LCBF均升高(32 - 184%),而在P21时,皮质、海马和感觉区域的LCBF下降,大多数其他区域的LCBF升高。在P60时,在任何一个年龄发生过癫痫发作的动物中,海马、听觉和梨状皮质、内侧膝状体和乳头体的LCMRglc均出现显著的长期下降。在P10时暴露于PTZ的P60动物中,另外3个感觉区域的LCMRglc也下降。在P21时暴露于癫痫发作的P60动物中,感觉区域、皮质、丘脑和下丘脑区域的LCMRglc进一步下降。神经元细胞用酸性品红短暂染色,在癫痫发作后24小时达到峰值。该染色在大脑皮质和海马的所有区域以及一些丘脑和下丘脑核中可见。通过苏木精-伊红组织学评估,这种短暂染色并未伴有细胞变性。癫痫发作后24小时,无论是在P10还是P21,均未检测到HSP72表达。本研究表明,未成熟大鼠神经元在急性期经历代谢率改变和局部循环减少,酸性品红亲和力的变化作为短期效应,长期代谢降低。所有这些变化都位于相同区域,即大脑皮质、海马、感觉区域以及散在的丘脑和下丘脑核。因此,癫痫发作诱导的短期和长期代谢变化可作为未成熟大鼠脑内细胞应激的指标。由于所有这些变化都发生在无可见神经元死亡的情况下,它们可能与发育中大脑的最终分支和突触组织的变化有关。
