CA3 Pyramidal Neuron Activation Promotes Cognitive Resilience to Inflammation‐Induced Cognitive Inflexibility
Wenqiang Zuo, Suwen Fang, Tiantian Xu, Yumeng Li, Jianshuai Zhao, Xiaoyan Xie, Taozhi Wang, Wugang Hou, Minghui Wang

TL;DR
This study shows that activating specific neurons in the hippocampus can help protect against cognitive issues caused by inflammation.
Contribution
The study identifies dCA3 pyramidal neuron activation as a novel mechanism for cognitive resilience against inflammation-induced inflexibility.
Findings
Systemic inflammation impairs cognitive flexibility but not learning or memory.
Cognitively resilient mice show increased dCA3 neuronal activity during task reversal.
Activation of dCA3 pyramidal neurons mitigates inflammation-induced cognitive inflexibility.
Abstract
Cognitive dysfunction represents a prominent symptom in numerous prevalent mental illnesses, with systemic inflammation induced by cytokines recognized as a critical factor contributing to cognitive impairments. However, a significant proportion of individuals exposed to systemic inflammation do not develop cognitive dysfunction; instead, they exhibit adaptive responses to this adverse condition. This study aims to investigate the neural activity patterns within the hippocampus and the potential mechanisms that mediate cognitive resilience, particularly in the context of inflammation. We investigated the effects of systemic IL‐1β (Interleukin‐1β) on learning, spatial memory, and cognitive flexibility using the Barnes maze test (BMT). We further analyzed specific activity changes in the hippocampus of mice exhibiting cognitive resilience versus susceptibility through immunofluorescence,…
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Taxonomy
TopicsTryptophan and brain disorders · Neuroinflammation and Neurodegeneration Mechanisms · Stress Responses and Cortisol
