脑积水诱导大鼠脑内水汽素-4表达的动态时空调节

Anders D Skjolding, Ian J Rowland, Lise V Søgaard, Jeppe Praetorius, Milena Penkowa, Marianne Juhler
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引用次数: 0

摘要

背景:据报道,水通道蛋白aquaporin-4 (AQP4)可能对辅助脑脊液(CSF)循环途径具有重要意义。方法:通过胸腔内注射高岭土诱发成年大鼠(约 8 周)脑积水,并在两天、一周和两周后进行评估。通过磁共振成像(MRI),我们量化了脑积水动物和对照组动物的侧脑室容积、水扩散和血脑屏障特性。我们用 Western 印迹法分析了大脑中 AQP4 的密度,并用免疫组化法进行了定位。双重荧光标记用于研究 AQP4 的细胞特异性来源:结果:在诱导后的所有时间点,侧脑室体积都比对照组明显增加,脑室周围表观弥散系数(ADC)值在脑积水一周和两周后明显增加。两天后,皮层和脑室周围区域的相对 AQP4 密度均明显下降,一周后恢复正常。两周后,脑室周围 AQP4 表达明显增加。脑室周围 AQP4 的相对密度与侧脑室容积有明显相关性。AQP4免疫组化分析显示了脑积水患者星形胶质细胞和脑室外膜中AQP4的形态表达模式。AQP4 与星形胶质细胞胶质纤维酸性蛋白(GFAP)共定位在神经胶质中。在血管结构中,AQP4与星形胶质细胞共定位,但不与小胶质细胞或内皮细胞共定位:结论:在高岭土诱导的脑积水中,AQP4 的水平以时间和区域依赖的方式发生了显著变化。这些数据表明,AQP4 可发挥重要的神经防御作用,并有可能成为未来治疗脑积水和脑脊液疾病的药物靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hydrocephalus induces dynamic spatiotemporal regulation of aquaporin-4 expression in the rat brain.

Hydrocephalus induces dynamic spatiotemporal regulation of aquaporin-4 expression in the rat brain.

Hydrocephalus induces dynamic spatiotemporal regulation of aquaporin-4 expression in the rat brain.

Hydrocephalus induces dynamic spatiotemporal regulation of aquaporin-4 expression in the rat brain.

Background: The water channel protein aquaporin-4 (AQP4) is reported to be of possible major importance for accessory cerebrospinal fluid (CSF) circulation pathways. We hypothesized that changes in AQP4 expression in specific brain regions correspond to the severity and duration of hydrocephalus.

Methods: Hydrocephalus was induced in adult rats (~8 weeks) by intracisternal kaolin injection and evaluated after two days, one week and two weeks. Using magnetic resonance imaging (MRI) we quantified lateral ventricular volume, water diffusion and blood-brain barrier properties in hydrocephalic and control animals. The brains were analysed for AQP4 density by western blotting and localisation by immunohistochemistry. Double fluorescence labelling was used to study cell specific origin of AQP4.

Results: Lateral ventricular volume was significantly increased over control at all time points after induction and the periventricular apparent diffusion coefficient (ADC) value significantly increased after one and two weeks of hydrocephalus. Relative AQP4 density was significantly decreased in both cortex and periventricular region after two days and normalized after one week. After two weeks, periventricular AQP4 expression was significantly increased. Relative periventricular AQP4 density was significantly correlated to lateral ventricular volume. AQP4 immunohistochemical analysis demonstrated the morphological expression pattern of AQP4 in hydrocephalus in astrocytes and ventricular ependyma. AQP4 co-localized with astrocytic glial fibrillary acidic protein (GFAP) in glia limitans. In vascular structures, AQP4 co-localized to astroglia but not to microglia or endothelial cells.

Conclusions: AQP4 levels are significantly altered in a time and region dependent manner in kaolin-induced hydrocephalus. The presented data suggest that AQP4 could play an important neurodefensive role, and may be a promising future pharmaceutical target in hydrocephalus and CSF disorders.

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