Purpose of review: This review aims to address the temporal sequencing of involvement of amyloid-beta (Aβ) and tau in the pathogenesis of Alzheimer's disease and reconcile apparently conflicting neuropathologic and biomarker data.
Recent findings: Although neuropathologic studies show that limbic system tau disease occurs ubiquitously in middle-aged individuals before the appearance of amyloid plaques, biomarker studies in living individuals suggest that Aβ disease is the initiating event in Alzheimer's disease and precedes cerebrospinal fluid tau changes. Evidence from neuropathologic, biomarker, genetic and cellular/mouse studies shows that tau accumulation in limbic regions occurs slowly with age and does not induce widespread neurodegeneration, but that Aβ interacts with tau in some way to accelerate neurofibrillary disease and induce neurodegeneration.
Summary: Aβ aggregation is the key initial trigger of Alzheimer's disease pathologic changes and interacts with tau to exacerbate age-related tauopathy and induce neurodegeneration.