AD“他汀类药物”:阿尔茨海默病是一种“快速”疾病,即使在生命晚期也可以通过治疗干预来预防,并且在早期阶段是可逆的。

Vladimir Volloch, Bjorn R Olsen, Sophia Rits
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引用次数: 9

摘要

目前的研究假设阿尔茨海默病是一种“快速”疾病。这与目前流行的一种观点形成鲜明对比,即阿尔茨海默病(AD)是一种典型的“缓慢”疾病,在整个生命中作为一个长期过程发展。根据这一观点,β -淀粉样蛋白(Aβ)仅通过β -淀粉样蛋白前体蛋白(βAPP)蛋白水解/分泌途径产生和分泌。随着其细胞外水平的增加,它会在相对较早的时候引发神经变性。在散发性阿尔茨海默病(SAD)病例中,损害累积并表现为AD症状。在家族性AD (FAD)病例中,βAPP基因或早老素突变会增加常见Aβ异构体或其毒性更强的异构体的产生,神经退行性变会更快达到临界阈值,AD症状会在生命中更早出现,主要发生在40多岁和50多岁。目前还没有预防性的AD治疗方法,但如果有的话,根据这一观点,在晚年干预潜在的SAD或中年干预FAD基本上是徒劳的,因为尽管AD症状尚未表现出来,但损害已经在过去的几十年里发生了。在这种模式下,为了有效,预防性治疗干预应该在生命早期开始。目前的研究显示的前景是完全不同的。根据该研究,阿尔茨海默病的发展分为两个阶段。第一阶段是细胞内β -淀粉样蛋白积累的缓慢过程。它通过βAPP蛋白水解/分泌途径和细胞摄取分泌的Aβ发生,这在智人(包括健康人)和非人类哺乳动物中都是常见的,不会导致显著损伤,也不会表现为疾病。第二阶段只发生在人身上,在疾病症状发作前不久开始,急剧加速产生并增加细胞内Aβ的水平,Aβ不分泌但保留在细胞内,产生显著损害,引发AD症状,并且速度很快。它是由一个在质和量上不同于βAPP蛋白水解过程的Aβ生成途径驱动的,完全独立于β淀粉样蛋白前体蛋白,导致Aβ在细胞内快速和大量积累,从而导致显著的神经变性和症状性AD。在这种模式下,AD的预防性治疗,即AD“他汀类药物”,在第二阶段开始前的任何时间开始都是有效的。此外,有充分的理由相信,在第二阶段阻断β app独立的a β产生途径的药物不仅可以预防疾病,而且可以在早期AD症状已经表现出来的情况下阻止和逆转疾病。目前的研究假设了AD是一种快速疾病的概念,为AD特异性a β产生途径的发生提供了证据,描述了构成驱动阿尔茨海默病的引擎的细胞和分子过程,并解释了为什么非人类哺乳动物不易感染AD以及为什么只有一小部分人类会患上该疾病。它确立了阿尔茨海默病是可以通过治疗干预来预防的,甚至是在生命的后期,详细描述了这种疾病的强大机制,表明β app独立通路中产生的a β保留在细胞内,阐述了为什么BACE抑制和a β免疫疗法都不能有效治疗AD,以及为什么细胞内保留的β -淀粉样蛋白可能是阿尔茨海默病神经元死亡的主要原因。这就需要建立一种能够通过βAPP非依赖性途径产生a β的新型AD动物模型,提出了与之前所追求的βAPP蛋白水解途径组分截然不同的治疗靶点,并为设计既可用于预防又可用于治疗和逆转疾病早期阶段的药物提供了概念基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AD "Statin": Alzheimer's Disorder is a "Fast" Disease Preventable by Therapeutic Intervention Initiated Even Late in Life and Reversible at the Early Stages.

The present study posits that Alzheimer's disorder is a "fast" disease. This is in sharp contrast to a view, prevailing until now, that Alzheimer's Disease (AD) is a quintessential "slow" disease that develops throughout the life as one prolonged process. According to this view, beta-amyloid (Aβ) is produced and secreted solely by the beta-amyloid precursor protein (βAPP) proteolytic/secretory pathway. As its extracellular levels increase, it triggers neurodegeneration starting relatively early in life. Damages accumulate and manifest, late in life in sporadic Alzheimer's Disease (SAD) cases, as AD symptoms. In familial AD (FAD) cases, where mutations in βAPP gene or in presenilins increase production of either common Aβ isoform or of its more toxic isoforms, neurodegeneration reaches critical threshold sooner and AD symptoms occur earlier in life, mostly in late 40s and 50s. There are currently no preventive AD therapies but if they were available, according to this viewpoint it would be largely futile to intervene late in life in case of potential SAD or at mid-age in cases of FAD because, although AD symptoms have not yet manifested, the damage has already occurred during the preceding decades. In this paradigm, to be effective, preventive therapeutic intervention should be initiated early in life. The outlook suggested by the present study is radically different. According to it, Alzheimer's disease evolves in two stages. The first stage is a slow process of intracellular beta-amyloid accumulation. It occurs via βAPP proteolytic/secretory pathway and cellular uptake of secreted Aβ common to Homo sapiens, including healthy humans, and to non-human mammals, and results neither in significant damage, nor in manifestation of the disease. The second stage occurs exclusively in humans, commences shortly before symptomatic onset of the disease, sharply accelerates the production and increases intracellular levels of Aβ that is not secreted but is retained intracellularly, generates significant damages, triggers AD symptoms, and is fast. It is driven by an Aβ generation pathway qualitatively and quantitatively different from βAPP proteolytic process and entirely independent of beta-amyloid precursor protein, and results in rapid and substantial intracellular accumulation of Aβ, consequent significant neurodegeneration, and symptomatic AD. In this paradigm, a preventive therapy for AD, an AD "statin", would be effective when initiated at any time prior to commencement of the second stage. Moreover, there are good reasons to believe that with a drug blocking βAPP-independent Aβ production pathway in the second stage, it would be possible not only to preempt the disease but also to stop and to reverse it even when early AD symptoms have already manifested. The present study posits a notion of AD as a Fast Disease, offers evidence for the occurrence of the AD-specific Aβ production pathway, describes cellular and molecular processes constituting an engine that drives Alzheimer's disease, and explains why non-human mammals are not susceptible to AD and why only a subset of humans develop the disease. It establishes that Alzheimer's disease is preventable by therapeutic intervention initiated even late in life, details a powerful mechanism underlying the disease, suggests that Aβ produced in the βAPP-independent pathway is retained intracellularly, elaborates why neither BACE inhibition nor Aβ immunotherapy are effective in treatment of AD and why intracellularly retained beta-amyloid could be the primary agent of neuronal death in Alzheimer's disease, necessitates generation of a novel animal AD model capable of producing Aβ via βAPP-independent pathway, proposes therapeutic targets profoundly different from previously pursued components of the βAPP proteolytic pathway, and provides conceptual rationale for design of drugs that could be used not only preemptively but also for treatment and reversal of the early stages of the disease.

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