1. Analysis of neuron-astrocyte metabolic cooperation in the brain of db/db mice with cognitive decline using 13C NMR spectroscopy.
- Author
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Hong Zheng, Yongquan Zheng, Dan Wang, Aimin Cai, Qiuting Lin, Liangcai Zhao, Minjiang Chen, Mingjie Deng, Xinjian Ye, and Hongchang Gao
- Abstract
Type 2 diabetes has been linked to cognitive impairment, but its potential metabolic mechanism is still unclear. The present study aimed to explore neuron-astrocyte metabolic cooperation in the brain of diabetic (db/db, BKS.Cg-m
+/+ Leprdb/J) mice with cognitive decline using13 C NMR technique in combination with intravenous [2-13 C]-acetate and [3-13 C]-lactate infusions. We found that the13 C-enrichment from [2-13 C]-acetate into tricarboxylic acid cycle intermediate, succinate, was significantly decreased in db/db mice with cognitive decline compared with wild-type (WT, C57BLKS/J) mice, while an opposite result was obtained after [3-13 C]-lactate infusion. Relative to WT mice, db/db mice with cognitive decline had significantly lower13 C labeling percentages in neurotransmitters including glutamine, glutamate, and g-aminobutyric acid after [2-13 C]-acetate infusion. However, [3-13 C]-lactate resulted in increased13 C-enrichments in neurotransmitters in db/db mice with cognitive decline. This may indicate that the disturbance of neurotransmitter metabolism occurred during the development of cognitive decline. In addition, a reduction in13 C-labeling of lactate and an increase in gluconeogenesis were found from both labeled infusions in db/db mice with cognitive decline. Therefore, our results suggest that the development of cognitive decline in type 2 diabetes may be implicated to an unbalanced metabolism in neuron-astrocyte cooperation and an enhancement of gluconeogenesis. [ABSTRACT FROM AUTHOR]- Published
- 2017
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