短暂性脑缺血后海马神经元前体细胞增殖:两大鼠品系使用体视学工具的比较研究。

Jesper Kelsen, Marianne H Larsen, Jens Christian Sørensen, Arne Møller, Jørgen Frøkiaer, Søren Nielsen, Jens R Nyengaard, Jens D Mikkelsen, Lars Christian B Rønn
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引用次数: 7

摘要

背景:我们目前正在研究大鼠短暂性大脑中动脉闭塞(tMCAo)后小胶质细胞的激活和神经元前体细胞(NPC)的增殖。本研究旨在:(1)观察远交系雄性自发性高血压大鼠(SHRs)和sd大鼠(sd)术后1周海马NPC增殖的差异;(2)介绍了光学分馏器和二维成核器在立体脑组织分析中的实际应用;(3)报告我们在腔内tMCAo模型中的经验,在tMCAo模型中,闭塞丝在颈动脉分叉外推进22 mm,并且在tMCAo期间夹住颈总动脉。方法:23例SDs和20例SHRs随机分为4组,分别进行90分钟tMCAo和假手术。BrdU (50 mg/kg)于术后第4 ~ 7天腹腔注射,每日2次。第8天对所有动物实施安乐死。利用二维成核和卡瓦列里原理,用neun染色的组织切片进行脑和梗死体积的估计。使用光学分分仪研究大脑中激活的小胶质细胞(ED-1)和海马BrdU结合的存在。结果:两株小鼠缺血后鼻咽癌细胞增殖无明显差异或增加。然而,sd和SHRs对远端缺血的反应可能不同。在3只动物中,脑卒中后NPC增殖增加与海马缺血性损伤有关。SHRs的平均梗死体积为89.2 +/- 76.1 mm3, SDs的平均梗死体积为16.9 +/- 22.7 mm3 (p < 0.005)。11例shr患者中有8例出现缺血性新皮质损伤,而12例sd患者中只有1例出现缺血性新皮质损伤。我们观察到这两种毒株的几只动物的脉络膜前动脉和下丘脑动脉受累,在两个SHRs中也观察到大脑前动脉受累。结论:我们没有发现两种菌株在tMCAo后一周早期海马NPC增殖的证据。脉络膜前动脉梗死可引起海马缺血,显著增加鼻咽癌细胞增殖。激活的小胶质细胞的存在不会加重鼻咽癌的增殖。腔内tMCAo对SHRs的梗死更可靠,伴有新皮层受累,但影响的区域由大脑前动脉、脉络膜前动脉和下丘脑动脉供应。
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Neuronal precursor cell proliferation in the hippocampus after transient cerebral ischemia: a comparative study of two rat strains using stereological tools.

Background: We are currently investigating microglial activation and neuronal precursor cell (NPC) proliferation after transient middle cerebral artery occlusion (tMCAo) in rats. This study aimed: (1) to investigate differences in hippocampal NPC proliferation in outbred male spontaneously hypertensive rats (SHRs) and Sprague-Dawley rats (SDs) one week after tMCAo; (2) to present the practical use of the optical fractionator and 2D nucleator in stereological brain tissue analyses; and (3) to report our experiences with an intraluminal tMCAo model where the occluding filament is advanced 22 mm beyond the carotid bifurcation and the common carotid artery is clamped during tMCAo.

Methods: Twenty-three SDs and twenty SHRs were randomized into four groups subjected to 90 minutes tMCAo or sham. BrdU (50 mg/kg) was administered intraperitoneally twice daily on Day 4 to 7 after surgery. On Day 8 all animals were euthanized. NeuN-stained tissue sections were used for brain and infarct volume estimation with the 2D nucleator and Cavalieri principle. Brains were studied for the presence of activated microglia (ED-1) and hippocampal BrdU incorporation using the optical fractionator.

Results: We found no significant difference or increase in post-ischemic NPC proliferation between the two strains. However, the response to remote ischemia may differ between SDs and SHRs. In three animals increased post-stroke NPC proliferation was associated with hippocampal ischemic injury. The mean infarct volume was 89.2 +/- 76.1 mm3 in SHRs and 16.9 +/- 22.7 mm3 in SDs (p < 0.005). Eight out of eleven SHRs had ischemic neocortical damage in contrast to only one out of 12 SDs. We observed involvement of the anterior choroidal and hypothalamic arteries in several animals from both strains and the anterior cerebral artery in two SHRs.

Conclusions: We found no evidence of an early hippocampal NPC proliferation one week after tMCAo in both strains. Infarction within the anterior choroidal artery could induce hippocampal ischemia and increase NPC proliferation profoundly. NPC proliferation was not aggravated by the presence of activated microglia. Intraluminal tMCAo in SHRs gave a more reliable infarct with neocortical involvement, but affected territories supplied by the anterior cerebral, anterior choroidal and hypothalamic arteries.

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