大脑是如何从内部清除废物代谢物的?

International journal of physiology, pathophysiology and pharmacology Pub Date : 2019-12-15 eCollection Date: 2019-01-01
Yiming Cheng, James Haorah
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引用次数: 0

摘要

大脑是身体的指挥中心,调节循环、呼吸、运动功能、代谢活动或自主神经系统的结果等重要功能。大脑以消耗大量能量为代价来协调这些连续的活动。这种能量需求是通过营养物质通过内皮血脑屏障(BBB)的主动运输来实现的。本文综述了中枢神经系统中的屏障界面,包括血脑屏障、血脊髓屏障、上皮性脉络丛和上皮性蛛网膜。虽然营养物质在血脑屏障之间的运输是一种正常的生理功能,但通过这些界面运输外源生物和炎症细胞/因子对脑细胞是有害的。这会导致大脑产生废物代谢物。这些废代谢物的清除维持了正常的脑内平衡,而其聚集对神经系统并发症是有害的。由于中枢神经系统缺乏淋巴系统,脑脊液作为水溶性肽/溶质的清除途径,而不是像Aβ蛋白这样的大尺寸废物代谢物。本文将重点介绍废物代谢物在中枢神经系统中清除途径的机制。这将包括最近发现的废物代谢物从间隙(IS)直接进入血管周围间隙(PVC),或通过IS- csf -PVC,以及其从PVC到循环的交换。结束语将讨论改善神经系统疾病的清除机制的治疗方法。
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How does the brain remove its waste metabolites from within?

The brain is the command center of the body that regulates the vital functions of circulation, respiration, motor function, metabolic activities, or autonomic nervous system outcomes. The brain coordinates these continuous activities at the expense of huge energy utilization. This energy demand is achieved by active transport of nutrients across the endothelial blood-brain barrier (BBB). This review discusses the barrier interfaces in the CNS that include the BBB, blood-spinal cord barrier, the epithelial choroid plexus, and the epithelial arachnoid. While transporting of nutrients across the BBB is a normal physiological function, the trafficking of xenobiotics and inflammatory cells/agents across these interfaces is harmful to brain cells. This leads to production of waste metabolites in the brain. Clearance of these waste metabolites maintains the normal brain homeostasis, while aggregation is detrimental to neurological complications. Since the CNS lacks lymphatic system, the CSF serves as the clearance path for water-soluble peptides/solutes, but not large size waste metabolites like Aβ protein. In particular, this review will focus on the mechanisms of waste metabolites clearance paths in the CNS. This will include the recently discovered waste metabolites movement from interstitial space (IS) directly into perivascular clearance (PVC), or via IS-CSF-PVC, and its exchange from PVC to circulation. Concluding remarks will discuss the therapeutic approach to improve the clearance mechanisms for ameliorating neurological diseases.

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