Deletion of Murine APP Aggravates Tau and Amyloid Pathologies in the 5xFADXTg30 Alzheimer's Disease Model.

Alzheimer's disease is characterized by two key neuropathological lesions: amyloid plaques composed of amyloid β and neurofibrillary tangles formed by hyperphosphorylated tau. Amyloid β is produced through successive cleavages of amyloid precursor protein (APP) via the amyloidogenic pathway. While increasing evidence suggests that APP plays critical roles in neuronal function and that its proteolytic derivative, sAPPα, has neurotrophic effects, the impact of APP deletion on both amyloid and tau pathologies remains poorly understood. Here, we introduce a novel transgenic mouse model, 5xFAD×Tg30XAPP-/-, in which murine APP is deleted in the presence of both amyloid and tau pathologies. Using this innovative model, we demonstrate for the first time that deletion of APP exacerbates tau aggregation, amyloid deposition, and gliosis compared to control 5xFAD×Tg30 mice. This study provides the first in vivo evidence that APP deletion has profound and detrimental effects on both amyloid and tau pathologies in a transgenic model of Alzheimer's disease, highlighting the previously unappreciated role of APP in the regulation of these neurodegenerative processes.