[220610 Àú³Î¹ßÇ¥] Faulty autolysosome acidification in Alzheimer's disease mouse models induces autophagic build-up of A¥â in neurons, yielding senile plaques ±èÁöÀº ¦¢ 2022-06-09 HIT 50535 |
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. 2022 Jun;25(6):688-701. Faulty autolysosome acidification in Alzheimer's disease mouse models induces autophagic build-up of A¥â in neurons, yielding senile plaquesAffiliations
AbstractAutophagy is markedly impaired in Alzheimer's disease (AD). Here we reveal unique autophagy dysregulation within neurons in five AD mouse models in vivo and identify its basis using a neuron-specific transgenic mRFP-eGFP-LC3 probe of autophagy and pH, multiplex confocal imaging and correlative light electron microscopy. Autolysosome acidification declines in neurons well before extracellular amyloid deposition, associated with markedly lowered vATPase activity and build-up of A¥â/APP-¥âCTF selectively within enlarged de-acidified autolysosomes. In more compromised yet still intact neurons, profuse A¥â-positive autophagic vacuoles (AVs) pack into large membrane blebs forming flower-like perikaryal rosettes. This unique pattern, termed PANTHOS (poisonous anthos (flower)), is also present in AD brains. Additional AVs coalesce into peri-nuclear networks of membrane tubules where fibrillar ¥â-amyloid accumulates intraluminally. Lysosomal membrane permeabilization, cathepsin release and lysosomal cell death ensue, accompanied by microglial invasion. Quantitative analyses confirm that individual neurons exhibiting PANTHOS are the principal source of senile plaques in amyloid precursor protein AD models. |
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