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W2896849380 abstract "Most neurodegenerative disorders, such as Alzheimer's disease (AD) or Parkinson's disease (PD), are chronic, not only is the clinical course after the onset but is also the prodromal neurodegenerative process, which is believed to take decades. This is true in the relevant animal models as well, in which synaptic/dendritic degeneration and behavioral deficits occur long before significant neuronal loss is evident. Therefore, it appears that central nervous system (CNS) neurons can afford to lose their distal terminals without triggering the neuronal death. This is almost like trees losing their leaves in the winter, which is a survival strategy and deemed to fully replenish in the spring. Our question is that given the decade-long time window of having these many “winterized” neurons, would it be possible to revitalize these degenerating CNS neurons before they head to their destination of death? To explore such a possibility that the “winterized” degenerating CNS neurons can stop the degenerative process and regenerate their neurites, we employed single neuron culture technique and observed primary hippocampal neurons for their spontaneous degenerative process and regenerative activities, if any. We found that 42.3% of the primary hippocampal neurons (PHN) underwent rapid necrotic dell death whereas 57.7% PHN underwent a chronic neurodegeneration resembling the “dying-back” process. Although the durations varied among different neurons, there was a clearly identifiable time window between the initial distal neurite fragmentation and the eventual lysis of the cell body. Surprisingly, we found that a few hippocampal neurons can lose their neurites up to 92% without triggering the cell death; moreover, they fully regrow their neurites just like a winterized tree revitalizing in the spring. This observation implicates that, given the right conditions, the “winterized” degenerating CNS neurons in AD or PD possess the ability to fully regenerate and revitalize that may offer a great therapeutic opportunity even more realistic than stem cell transplantation." @default.
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W2896849380 date "2018-07-01" @default.
W2896849380 modified "2023-10-02" @default.
W2896849380 title "P4‐187: AN ALTERNATIVE FATE OF DEGENERATIVE HIPPOCAMPAL NEURONS" @default.
W2896849380 doi "https://doi.org/10.1016/j.jalz.2018.06.2592" @default.
W2896849380 hasPublicationYear "2018" @default.
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