Brain lipoprotein metabolism and its relation to neurodegenerative disease.

M Danik, D Champagne, C Petit-Turcotte, U Beffert, J Poirier
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引用次数: 85

Abstract

Lipoproteins are macromolecular complexes composed of lipids and proteins. The role of these complexes is to provide cells of the organism with lipids to be used as a source of energy, building blocks for biomembrane synthesis, and lipophilic molecules (e.g., steroid hormones and vitamin E) for other physiological purposes, such as cell signaling and antioxidative mechanisms. Lipoproteins also promote the cellular efflux of cholesterol for its disposal into bile. Thus, lipoproteins play an important role in the maintenance of lipid homeostasis throughout the organism. Accordingly, lipoprotein particles have been found circulating in blood, lymph, and interstitial fluid. Despite the existence of the blood-brain barrier, lipoprotein particles have been shown to be also present in the cerebrospinal fluid (CSF). Although a portion of their protein components may filter through the barrier from the vascular compartment, experimental evidence indicates that these particles originate from the nervous tissue. The other protein components include apolipoproteins E, J, and D, and these have been shown to be synthesized by cells within the central nervous system (CNS). Furthermore, it was shown that lipoprotein particles can be isolated from the conditioned medium of astrocytic cultures. The differences in size, structure, and composition of in vitro assembled particles compared with those isolated from the CSF suggest that the particles are modified following their secretion in vivo. This is supported by observations that lipoprotein-modifying enzymes and transfer proteins are also present within CNS tissue and CSF. The fate of CSF lipoproteins is unclear but is probably related to the turnover and clearance of lipids from the CNS or, alternatively, the particles may be recaptured and recycled back into the CNS tissue. The presence of several cell surface receptors for apoE-containing lipoproteins on ependymal cells, as well as on neurons and glial cells, supports this notion and suggests that the isolated brain possesses its own system to maintain local lipid homeostasis. This is further exemplified by the salvage and recycling of lipids shown to occur following a lesion in order to allow surviving neurons to sprout and reestablish lost synapses. Not much is currently known about lipoprotein metabolism in neurodegenerative diseases, but lipid alterations have been repeatedly reported in Alzheimer brains in which neuronal loss and deafferentation are major features. Although the mechanism underlying the link between the epsilon4 allele of the apolipoprotein E gene and Alzheimer's disease is presently unclear, it may well be postulated that it is related to disturbances in brain lipoprotein metabolism.

脑脂蛋白代谢及其与神经退行性疾病的关系
脂蛋白是由脂质和蛋白质组成的大分子复合物。这些复合物的作用是为生物细胞提供用作能量来源的脂质,作为生物膜合成的基石,以及用于其他生理目的的亲脂分子(如类固醇激素和维生素E),如细胞信号传导和抗氧化机制。脂蛋白也促进胆固醇的细胞外排,使其排入胆汁。因此,脂蛋白在维持整个机体的脂质稳态中起着重要的作用。因此,在血液、淋巴和间质液中发现了循环的脂蛋白颗粒。尽管存在血脑屏障,但已证明脂蛋白颗粒也存在于脑脊液(CSF)中。虽然它们的一部分蛋白质成分可能从血管隔室滤过屏障,但实验证据表明,这些颗粒来自神经组织。其他蛋白质成分包括载脂蛋白E、J和D,它们已被证明是由中枢神经系统(CNS)内的细胞合成的。此外,研究表明,脂蛋白颗粒可以从星形细胞培养的条件培养基中分离出来。体外组装颗粒的大小、结构和组成与从脑脊液中分离的颗粒的差异表明,颗粒在体内分泌后被修饰。这得到了脂蛋白修饰酶和转运蛋白也存在于中枢神经系统组织和脑脊液中的观察结果的支持。脑脊液脂蛋白的命运尚不清楚,但可能与中枢神经系统脂质的周转和清除有关,或者,这些颗粒可能被重新捕获并再循环回中枢神经系统组织。室管膜细胞以及神经元和神经胶质细胞上存在几种含载脂蛋白e的细胞表面受体,这支持了这一观点,并表明孤立的大脑拥有自己的维持局部脂质稳态的系统。损伤后,为了使存活的神经元发芽并重建失去的突触,脂质的回收和再循环进一步证明了这一点。目前对神经退行性疾病中的脂蛋白代谢知之甚少,但在阿尔茨海默病的大脑中,脂质改变已被反复报道,其中神经元丢失和神经分化是主要特征。虽然载脂蛋白E基因的epsilon4等位基因与阿尔茨海默病之间联系的机制目前尚不清楚,但很可能假设它与脑脂蛋白代谢紊乱有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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