1. CCL5 promotion of bioenergy metabolism is crucial for hippocampal synapse complex and memory formation
- Author
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Hui Min Chen, Yuan Chin Hsiung, Yuan Hao Chen, Cheng Yang Lee, Wen Chang Chang, Man Hau Ho, Chiu Jing-Yuan, Yung Hsiao Chiang, Szu Yi Chou, Tzu Hao Chang, Yun Wang, Chun A. Changou, You Yin Chen, Barry J. Hoffer, Reni Ajoy, and Yu Chun Lo
- Subjects
0301 basic medicine ,Physiology ,Long-Term Potentiation ,Hippocampus ,Carbohydrate metabolism ,Hippocampal formation ,Article ,Synapse ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,Mice ,0302 clinical medicine ,stomatognathic system ,Memory ,Premovement neuronal activity ,Animals ,Glycolysis ,Molecular Biology ,Mice, Knockout ,Neuronal Plasticity ,Chemistry ,Glutamate receptor ,Long-term potentiation ,Cell biology ,Psychiatry and Mental health ,stomatognathic diseases ,030104 developmental biology ,Synapses ,030217 neurology & neurosurgery ,Neuroscience - Abstract
Glucoregulatory efficiency and ATP production are key regulators for neuronal plasticity and memory formation. Besides its chemotactic and neuroinflammatory functions, the CC chemokine––CCL5 displays neurotrophic activity. We found impaired learning-memory and cognition in CCL5-knockout mice at 4 months of age correlated with reduced hippocampal long-term potentiation and impaired synapse structure. Re-expressing CCL5 in knockout mouse hippocampus restored synaptic protein expression, neuronal connectivity and cognitive function. Using metabolomics coupled with FDG-PET imaging and seahorse analysis, we found that CCL5 participates in hippocampal fructose and mannose degradation, glycolysis, gluconeogenesis as well as glutamate and purine metabolism. CCL5 additionally supports mitochondrial structural integrity, purine synthesis, ATP generation, and subsequent aerobic glucose metabolism. Overexpressing CCL5 in WT mice also enhanced memory-cognition performance as well as hippocampal neuronal activity and connectivity through promotion of de novo purine and glutamate metabolism. Thus, CCL5 actions on glucose aerobic metabolism are critical for mitochondrial function which contribute to hippocampal spine and synapse formation, improving learning and memory., In addition to neuroinflammatory functions, chemokine CCL5 shows strong neurotrophic properties. In this study, we found that CCL5 facilitates hippocampal glucoregulatory efficiency. CCL5 promotes aerobic glucose metabolism, mitochondrial ATP generation and purine synthesis, improving synaptic plasticity and enhancing memory and cognition functions.
- Published
- 2020