Hultström D, Malmgren L, Gilstring D, Olsson Y
Acta Neuropathol. 1983;59(1):53-62. doi: 10.1007/BF00690317.
A freeze-drying method has been developed by which fluorescein thiocarbamoyl dextrans (FITC-dextrans) can be localized in thin sections from nervous tissue and muscles. Labelled dextrans with molecular weights of 3,000, 20,000, 70,000 and 150,000 were injected intravenously (i.v.) into golden hamsters and samples from brain, trigeminal ganglia and sciatic nerves were examined 30 min or 4 h later. For comparison experiments were also carried out in mice and some other tracers were tested as well. The dextrans did not pass out of blood vessels in cerebral cortex and white matter. The blood vessels in the trigeminus ganglion were permeable to all of the tested compounds, i.e. even the FITC-dextran with mol.wt. 150,000. Little, if any, i.v. injected dextran could be detected in the endoneurium of sciatic nerve fascicles. Even very high concentrations of dextrans (mol.wt. 3,000 and 150,000) injected around the sciatic nerves did not penetrate the perineurium of the sciatic nerve. As compared with other tracers dextrans have the advantage that they can be obtained in a wide range of molecular sizes. With the proposed technique presented at the end of this article they can be used for studies on vascular permeability in deep tissue like brain, ganglia and peripheral nerve. The use of these tracers will probably be particularly advantageous in investigations concerning the etiology of edematous conditions.
已经开发出一种冷冻干燥方法,通过该方法可以将荧光素硫代氨基甲酰葡聚糖(FITC-葡聚糖)定位在神经组织和肌肉的薄切片中。将分子量为3000、20000、70000和150000的标记葡聚糖静脉内(i.v.)注射到金黄仓鼠体内,30分钟或4小时后检查来自脑、三叉神经节和坐骨神经的样本。为了进行比较,还在小鼠身上进行了实验,并且也测试了一些其他示踪剂。葡聚糖不会从大脑皮层和白质的血管中渗出。三叉神经节中的血管对所有测试化合物均具有通透性,即便是分子量为150000的FITC-葡聚糖。在坐骨神经束的神经内膜中几乎检测不到静脉注射的葡聚糖(如果有的话)。即使在坐骨神经周围注射非常高浓度的葡聚糖(分子量为3000和150000),也不会穿透坐骨神经的神经束膜。与其他示踪剂相比,葡聚糖的优点是可以获得各种分子大小的葡聚糖。使用本文末尾提出的技术,它们可用于研究脑、神经节和周围神经等深部组织中的血管通透性。在有关水肿性疾病病因的研究中,使用这些示踪剂可能会特别有利。
