Luteolin alleviates depression‐like behavior by modulating glycerophospholipid metabolism in the hippocampus and prefrontal cortex of LOD rats

Author:

Wu Xiaofeng1ORCID,Xu Hanfang1,Zeng Ningxi2,Li Huizhen3,Yao Gaolei1,Liu Kaige1,Yan Can1,Wu Lili1ORCID

Affiliation:

1. Integrative Medicine Research Center, School of Basic Medical Sciences, Guangzhou University of Chinese Medicine Guangzhou University of Chinese Medicine Guangzhou China

2. Department of Rehabilitation Medicine, The People's Hospital of Longhua District Shenzhen China

3. Key Laboratory of Depression Animal Model Based on TCM Syndrome, Key Laboratory of TCM for Prevention and Treatment of Brain Diseases with Cognitive Dysfunction Jiangxi University of Chinese Medicine Nanchang China

Abstract

AbstractBackgroundLate‐onset depression (LOD) is defined as primary depression that first manifests after the age of 65. Luteolin (LUT) is a natural flavonoid that has shown promising antidepressant effects and improvement in neurological function in previous studies.AimsIn this study, we utilized UPLC–MS/MS non‐targeted metabolomics techniques, along with molecular docking technology and experimental validation, to explore the mechanism of LUT in treating LOD from a metabolomics perspective.ResultsThe behavioral results of our study demonstrate that LUT significantly ameliorated anxiety and depression‐like behaviors while enhancing cognitive function in LOD rats. Metabolomic analysis revealed that the effects of LUT on LOD rats were primarily mediated through the glycerophospholipid metabolic pathway in the hippocampus and prefrontal cortex. The levels of key lipid metabolites, phosphatidylserine (PS), phosphatidylcholine (PC), and phosphatidylethanolamine (PE), in the glycerophospholipid metabolic pathway were significantly altered by LUT treatment, with PC and PE showing significant correlations with behavioral indices. Molecular docking analysis indicated that LUT had strong binding activity with phosphatidylserine synthase 1 (PTDSS1), phosphatidylserine synthase 2 (PTDSS2), and phosphatidylserine decarboxylase (PISD), which are involved in the transformation and synthesis of PC, PE, and PS. Lastly, our study explored the reasons for the opposing trends of PC, PE, and PS in the hippocampus and prefrontal cortex from the perspective of autophagy, which may be attributable to the bidirectional regulation of autophagy in distinct brain regions.ConclusionsOur results revealed significant alterations in the glycerophospholipid metabolism pathways in both the hippocampus and prefrontal cortex of LOD rats. Moreover, LUT appears to regulate autophagy disorders by specifically modulating glycerophospholipid metabolism in different brain regions of LOD rats, consequently alleviating depression‐like behavior in these animals.

Funder

National Natural Science Foundation of China

Publisher

Wiley

Subject

Pharmacology (medical),Physiology (medical),Psychiatry and Mental health,Pharmacology

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