RESUMO
The amyloid-beta peptide (Aß) is thought to have prion-like properties promoting its spread throughout the brain in Alzheimer's disease (AD). However, the cellular mechanism(s) of this spread remains unclear. Here, we show an important role of intracellular Aß in its prion-like spread. We demonstrate that an intracellular source of Aß can induce amyloid plaques in vivo via hippocampal injection. We show that hippocampal injection of mouse AD brain homogenate not only induces plaques, but also damages interneurons and affects intracellular Aß levels in synaptically connected brain areas, paralleling cellular changes seen in AD. Furthermore, in a primary neuron AD model, exposure of picomolar amounts of brain-derived Aß leads to an apparent redistribution of Aß from soma to processes and dystrophic neurites. We also observe that such neuritic dystrophies associate with plaque formation in AD-transgenic mice. Finally, using cellular models, we propose a mechanism for how intracellular accumulation of Aß disturbs homeostatic control of Aß levels and can contribute to the up to 10,000-fold increase of Aß in the AD brain. Our data indicate an essential role for intracellular prion-like Aß and its synaptic spread in the pathogenesis of AD.
