蛋白電気泳動法による血液脳関門の研究
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概要
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Intracerebral serum proteins were measured in rats with altered blood-brain barrier (BBB) function. The rats were divided into seven groups of five to 10 each and subjected to the following procedures: controls (NOR); bilateral common carotid artery ligation (BLCL), evaluated after 6 hours; three-vessel occlusion (bilateral common carotid and right vertebral arteries) (TVO), evaluated after 6 hours; cold injury (BE6 and BE24), evaluated after 6 and 24 hours; and intracarotid injection of a hypertonic solution (BBB6 and BBB24), evaluated after 6 and 24 hours. The protein components of concentrated, water-soluble extracts of each rat's brain were analyzed by cellulose acetate membrane electrophoresis. Serum proteins of each rat were also analyzed. The intracerebral albumin fraction was increased in groups BE24, BBB6, and some TVO rats. The intracerebral α-1 fraction was increased in group BBB24. No difference was found in the electrophoretographic patterns of groups NOR and BLCL. These findings demonstrate that serum albumin is increased in TVO, and suggest that the BBB is damaged as in cold injury, which is thought to cause edema. The predominant intracerebral serum protein appeared to change from the α-1 fraction to the albumin fraction in cold-injured animals, which suggests that upder this circumstance the BBB becomes progressively permeable to larger molecules. However, following injection of the hypertonic solution, the predominant intracerebral serum protein pattern changed from albumin to α-1, indicating recovery of BBB function. These differences in the intracerebral protein profiles may reflect differences between BBB disruption without edema and vasogenic brain edema. Disruption of the BBB may play as important a role in ischemic brain edema as it does in vasogenic edema.
- 1989-04-15