Emerging concepts of how β-amyloid proteins and pro-inflammatory cytokines might collaborate to produce an ‘Alzheimer brain’ (Review)

分子医学 癌基因 促炎细胞因子 神经科学 炎症 淀粉样蛋白(真菌学) 细胞周期 淀粉样β 生物 神经炎症 细胞凋亡 免疫学 计算生物学 医学 疾病 遗传学 病理 植物
作者
Balu Chakravarthy,James Whitfield,Ubaldo Armato,Raffaella Pacchiana,Ilaria Dal Prà,Anna Chiarini
出处
期刊:Molecular Medicine Reports [Spandidos Publishing]
卷期号:1 (2): 173-8 被引量:11
标识
DOI:10.3892/mmr.1.2.173
摘要

Three steps lead to the development of full-blown sporadic or late-onset Alzheimer's disease or dementia (AD). In the young brain, amyloid β-(1-42) (Aβ 42) is a normal aggregation-prone protein product of neuronal activity that is kept at a safe low level by proteolysis in neurons and glial cells, and by expulsion across the blood-brain barrier. But clearance declines with advancing age. Step 1: Because of the normal decline with age of the Aβ 42-clearing mechanisms, toxic amyloid-derived diffusible ligands (ADDLs) made of dodecamers of the aggregation-prone Aβ 42 start accumulating. These Aβ 42 dodecamers selectively target the initially huge numbers of excitatory synapses of neurons and cause them to start slowly dropping, which increasingly impairs plasticity and sooner or later starts noticeably affecting memory formation. At a certain point, this increasing loss of synapses induces the neurons to redirect their still-expressed cell cycle proteins from post-mitotic jobs, such as maintaining synapses, to starting a cell cycle and partially or completely replicating DNA without entering mitosis. The resulting aneuploid or tetraploid neurons survive for as long as 6-12 months as quasi-functional 'undead zombies', with developing tangles of hyperphosphorylated τ protein disrupting the vital anterograde axonal transport of mitochondria and other synapse-vital components. Step 2: The hallmark AD plaques appear as Aβ 42 clearance continues to decline and the formation of Aβ 42 non-diffusible fibrils begins in the aging brain. Step 3: A terminal cytokine-driven maëlstrom begins in the aging brain when microglia, the brain's professional macrophages, are activated in and around the plaques. They produce pro-inflammatory cytokines, such as IFN-γ, IL-1β and TNF-α. One of these, IFN-γ, causes the astrocytes enwrapping the neuronal synapses to express their β-secretase (BACE1) genes and produce and release Aβ 42, which can kill the closely apposed neurons by binding to their p75NTR receptors, which generate apoptogenic signals. Astrocytes are also stimulated by the same cytokines to turn on their nitric oxide synthase (NOS)-2 genes and start pouring large amounts of nitric oxide (NO) and its cytocidal derivative peroxynitrite (ONOO-) directly out onto the closely apposed neurons.

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