Geriatric Research and Clinical Center, Greater Los Angeles Healthcare System, Veteran's Administration, Los Angeles, USA.
Mol Neurobiol. 2010 Jun;41(2-3):392-409. doi: 10.1007/s12035-010-8137-1. Epub 2010 May 2.
Alzheimer's disease (AD) involves a complex pathological cascade thought to be initially triggered by the accumulation of beta-amyloid (Abeta) peptide aggregates or aberrant amyloid precursor protein (APP) processing. Much is known of the factors initiating the disease process decades prior to the onset of cognitive deficits, but an unclear understanding of events immediately preceding and precipitating cognitive decline is a major factor limiting the rapid development of adequate prevention and treatment strategies. Multiple pathways are known to contribute to cognitive deficits by disruption of neuronal signal transduction pathways involved in memory. These pathways are altered by aberrant signaling, inflammation, oxidative damage, tau pathology, neuron loss, and synapse loss. We need to develop stage-specific interventions that not only block causal events in pathogenesis (aberrant tau phosphorylation, Abeta production and accumulation, and oxidative damage), but also address damage from these pathways that will not be reversed by targeting prodromal pathways. This approach would not only focus on blocking early events in pathogenesis, but also adequately correct for loss of synapses, substrates for neuroprotective pathways (e.g., docosahexaenoic acid), defects in energy metabolism, and adverse consequences of inappropriate compensatory responses (aberrant sprouting). Monotherapy targeting early single steps in this complicated cascade may explain disappointments in trials with agents inhibiting production, clearance, or aggregation of the initiating Abeta peptide or its aggregates. Both plaque and tangle pathogenesis have already reached AD levels in the more vulnerable brain regions during the "prodromal" period prior to conversion to "mild cognitive impairment (MCI)." Furthermore, many of the pathological events are no longer proceeding in series, but are going on in parallel. By the MCI stage, we stand a greater chance of success by considering pleiotropic drugs or cocktails that can independently limit the parallel steps of the AD cascade at all stages, but that do not completely inhibit the constitutive normal functions of these pathways. Based on this hypothesis, efforts in our laboratories have focused on the pleiotropic activities of omega-3 fatty acids and the anti-inflammatory, antioxidant, and anti-amyloid activity of curcumin in multiple models that cover many steps of the AD pathogenic cascade (Cole and Frautschy, Alzheimers Dement 2:284-286, 2006).
阿尔茨海默病(AD)涉及一个复杂的病理级联反应,据认为最初是由β-淀粉样蛋白(Abeta)肽聚集物或异常淀粉样前体蛋白(APP)加工的积累引发的。在认知缺陷发生前几十年,人们已经了解了引发疾病过程的许多因素,但对认知能力下降之前和立即发生的事件的认识不清,是限制快速制定充分预防和治疗策略的一个主要因素。多种途径通过破坏参与记忆的神经元信号转导途径导致认知功能障碍。这些途径会因异常信号、炎症、氧化损伤、tau 病理学、神经元丢失和突触丢失而改变。我们需要开发特定阶段的干预措施,不仅要阻断发病机制中的因果事件(异常 tau 磷酸化、Abeta 产生和积累以及氧化损伤),还要解决这些途径的损伤,而针对前趋途径的治疗不会逆转这些损伤。这种方法不仅要关注阻断发病机制中的早期事件,还要充分纠正突触丢失、神经保护途径的底物(如二十二碳六烯酸)、能量代谢缺陷以及不适当的代偿反应的不良后果(异常发芽)。针对这一复杂级联反应早期的单一步骤的单一疗法可能解释了针对抑制起始 Abeta 肽或其聚集物产生、清除或聚集的药物的试验中的失望。在向“轻度认知障碍(MCI)”转化之前的“前驱期”,斑块和缠结发病已经达到 AD 水平。此外,许多病理事件不再按顺序进行,而是同时进行。在 MCI 阶段,通过考虑具有多种作用的药物或鸡尾酒,可以独立地限制 AD 级联反应的所有阶段的并行步骤,而不会完全抑制这些途径的组成性正常功能,我们有更大的成功机会。基于这一假设,我们实验室的努力集中在ω-3 脂肪酸的多效性活性以及姜黄素的抗炎、抗氧化和抗淀粉样蛋白活性上,这些活性涵盖了 AD 发病级联的许多步骤(Cole 和 Frautschy,Alzheimers Dement 2:284-286, 2006)。
