期刊
JOURNAL OF NEUROSCIENCE
卷 39, 期 46, 页码 9083-9097出版社
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.1492-19.2019
关键词
Alzheimer's disease; glia; LTP; metaplasticity; neuroinflammation; TNF alpha
资金
- Health Research Council of New Zealand
- Neurological Foundation of New Zealand
- University of Otago
LTP, a fundamental mechanism of learning and memory, is a highly regulated process. One form of regulation is metaplasticity (i.e., the activity-dependent and long-lasting changes in neuronal state that orchestrate the direction, magnitude, and persistence of future synaptic plasticity). We have previously described a heterodendritic metaplasticity effect, whereby strong high-frequency priming stimulation in stratum oriens inhibits subsequent LTP in the stratum radiatum of hippocampal area CA1, potentially by engagement of the enmeshed astrocytic network. This effect may occur due to neuron-glia interactions in response to priming stimulation that leads to the release of gliotransmitters. Here we found in male rats that TNF alpha and associated signal transduction enzymes, but not interleukin-1 beta (IL-1 beta), were responsible for mediating the metaplasticity effect. Replacing priming stimulation with TNF alpha incubation reproduced these effects. As TNF alpha levels are elevated in Alzheimer's disease, we examined whether heterodendritic metaplasticity is dysregulated in a transgenic mouse model of the disease, either before or after amyloid plaque formation. We showed that TNF alpha and IL-1 beta levels were significantly increased in aged but not young transgenic mice. Although control LTP was impaired in the young transgenic mice, it was not TNF alpha-dependent. In the older transgenic mice, however, LTP was impaired in a way that occluded further reduction by heterosynaptic metaplasticity, whereas LTP was entirely rescued by incubation with a TNF alpha antibody, but not an IL-1 beta antibody. Thus, TNF alpha mediates a heterodendritic metaplasticity in healthy rodents that becomes constitutively and selectively engaged in a mouse model of Alzheimer's disease.
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