Astrocytic lactate dehydrogenase A regulates neuronal excitability and depressive-like behaviors through lactate homeostasis in mice.
Shan YaoMin-Dong XuYing WangShen-Ting ZhaoJin WangGui-Fu ChenWen-Bing ChenJian LiuGuo-Bin HuangWen-Juan SunYan-Yan ZhangHuan-Li HouLei LiXiang-Dong SunPublished in: Nature communications (2023)
Alterations in energy metabolism are associated with depression. However, the role of glycolysis in the pathogenesis of depression and the underlying molecular mechanisms remain unexplored. Through an unbiased proteomic screen coupled with biochemical verifications, we show that the levels of glycolysis and lactate dehydrogenase A (LDHA), a glycolytic enzyme that catalyzes L-lactate production, are reduced in the dorsomedial prefrontal cortex (dmPFC) of stress-susceptible mice in chronic social defeat stress (CSDS) model. Conditional knockout of LDHA from the brain promotes depressive-like behaviors in both male and female mice, accompanied with reduced L-lactate levels and decreased neuronal excitability in the dmPFC. Moreover, these phenotypes could be duplicated by knockdown of LDHA in the dmPFC or specifically in astrocytes. In contrast, overexpression of LDHA reverses these phenotypic changes in CSDS-susceptible mice. Mechanistic studies demonstrate that L-lactate promotes neuronal excitability through monocarboxylic acid transporter 2 (MCT2) and by inhibiting large-conductance Ca 2+ -activated potassium (BK) channel. Together, these results reveal a role of LDHA in maintaining neuronal excitability to prevent depressive-like behaviors.
Keyphrases
- high fat diet induced
- prefrontal cortex
- stress induced
- transcranial direct current stimulation
- bipolar disorder
- cerebral ischemia
- depressive symptoms
- healthcare
- magnetic resonance
- wild type
- magnetic resonance imaging
- transcription factor
- signaling pathway
- computed tomography
- multiple sclerosis
- brain injury
- dna methylation
- working memory
- case control