恢复血脑屏障 P-糖蛋白可减少阿尔茨海默病小鼠模型中的脑淀粉样β。

Restoring blood-brain barrier P-glycoprotein reduces brain amyloid-beta in a mouse model of Alzheimer's disease.

机构信息

Department of Biochemistry and Molecular Biology, University of Minnesota Medical School, Duluth, MN 55812, USA.

出版信息

Mol Pharmacol. 2010 May;77(5):715-23. doi: 10.1124/mol.109.061754. Epub 2010 Jan 25.

DOI:10.1124/mol.109.061754

PMID:20101004

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2872973/

Abstract

Reduced clearance of amyloid-beta (Abeta) from brain partly underlies increased Abeta brain accumulation in Alzheimer's disease (AD). The mechanistic basis for this pathology is unknown, but recent evidence suggests a neurovascular component in AD etiology. We show here that the ATP-driven pump, P-glycoprotein, specifically mediates efflux transport of Abeta from mouse brain capillaries into the vascular space, thus identifying a critical component of the Abeta brain efflux mechanism. We demonstrate in a transgenic mouse model of AD [human amyloid precursor protein (hAPP)-overexpressing mice; Tg2576 strain] that brain capillary P-glycoprotein expression and transport activity are substantially reduced compared with wild-type control mice, suggesting a mechanism by which Abeta accumulates in the brain in AD. It is noteworthy that dosing 12-week-old, asymptomatic hAPP mice over 7 days with pregnenolone-16alpha-carbonitrile to activate the nuclear receptor pregnane X receptor restores P-glycoprotein expression and transport activity in brain capillaries and significantly reduces brain Abeta levels compared with untreated control mice. Thus, targeting intracellular signals that up-regulate blood-brain barrier P-glycoprotein in the early stages of AD has the potential to increase Abeta clearance from the brain and reduce Abeta brain accumulation. This mechanism suggests a new therapeutic strategy in AD.

摘要

脑内淀粉样蛋白-β（Abeta）清除减少部分导致阿尔茨海默病（AD）脑内 Abeta 积累增加。这种病理学的机制尚不清楚，但最近的证据表明 AD 的病因中有一个神经血管成分。我们在这里表明，ATP 驱动的泵，P-糖蛋白，特异性地介导 Abeta 从小鼠脑毛细血管向血管空间的外排转运，从而确定了 Abeta 脑外排机制的关键组成部分。我们在 AD 的转基因小鼠模型[人淀粉样前体蛋白（hAPP）过表达小鼠；Tg2576 品系]中证明，与野生型对照小鼠相比，脑毛细血管 P-糖蛋白表达和转运活性显著降低，提示 AD 中 Abeta 在脑内积累的机制。值得注意的是，用孕烯醇酮-16α-氰化物对 12 周龄、无症状的 hAPP 小鼠进行 7 天的治疗，激活核受体孕烷 X 受体，可恢复脑毛细血管中 P-糖蛋白的表达和转运活性，并与未治疗的对照小鼠相比，显著降低脑内 Abeta 水平。因此，在 AD 的早期阶段针对上调血脑屏障 P-糖蛋白的细胞内信号进行靶向治疗，有可能增加脑内 Abeta 的清除并减少 Abeta 脑内积累。该机制提示了 AD 的一种新的治疗策略。

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