小鼠嗅觉功能障碍期间共生微生物群对代谢网络的调节

Commensal Microbiota Regulation of Metabolic Networks During Olfactory Dysfunction in Mice.

作者信息

Wang Haiyang, Liu Lanxiang, Rao Xuechen, Chai Tingjia, Zeng Benhua, Zhang Xiaotong, Yu Ying, Zhou Chanjuan, Pu Juncai, Zhou Wei, Li Wenxia, Zhang Hanping, Wei Hong, Xie Peng

机构信息

NHC Key Laboratory of Diagnosis and Treatment on Brain Functional Diseases, The First Affiliated Hospital of Chongqing Medical University, Chongqing 400016, People's Republic of China.

College of Biomedical Engineering, Chongqing Medical University, Chongqing 400016, People's Republic of China.

出版信息

Neuropsychiatr Dis Treat. 2020 Mar 19;16:761-769. doi: 10.2147/NDT.S236541. eCollection 2020.

DOI:10.2147/NDT.S236541

PMID:32256072

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7090175/

Abstract

INTRODUCTION

Recently, an increasing number of studies have focused on commensal microbiota. These microorganisms have been suggested to impact human health and disease. However, only a small amount of data exists to support the assessment of the inﬂuences that commensal microbiota exert on olfactory function.

METHODS

We used a buried food pellet test (BFPT) to investigate and compare olfactory functions in adult, male, germ-free (GF) and specific-pathogen-free (SPF) mice, then examined and compared the metabolomic profiles for olfactory bulbs (OBs) isolated from GF and SPF mice to uncover the mechanisms associated with olfactory dysfunction.

RESULTS

We found that the absence of commensal microbiota was able to influence olfactory function and the metabolic signatures of OBs, with 38 metabolites presenting significant differences between the two groups. These metabolites were primarily associated with disturbances in glycolysis, the tricarboxylic acid (TCA) cycle, amino acid metabolism, and purine catabolism. Finally, the commensal microbiota regulation of metabolic networks during olfactory dysfunction was identified, based on an integrated analysis of metabolite, protein, and mRNA levels.

CONCLUSION

This study demonstrated that the absence of commensal microbiota may impair olfactory function and disrupt metabolic networks. These findings provide a new entry-point for understanding olfactory-associated disorders and their potential underlying mechanisms.

摘要

引言

最近，越来越多的研究聚焦于共生微生物群。这些微生物被认为会影响人类健康和疾病。然而，仅有少量数据支持对共生微生物群对嗅觉功能影响的评估。

方法

我们使用埋食颗粒试验（BFPT）来研究和比较成年雄性无菌（GF）小鼠和无特定病原体（SPF）小鼠的嗅觉功能，然后检测并比较从GF和SPF小鼠分离出的嗅球（OBs）的代谢组学图谱，以揭示与嗅觉功能障碍相关的机制。

结果

我们发现共生微生物群的缺失能够影响嗅觉功能以及OBs的代谢特征，两组之间有38种代谢物存在显著差异。这些代谢物主要与糖酵解、三羧酸（TCA）循环、氨基酸代谢和嘌呤分解代谢的紊乱有关。最后，基于对代谢物、蛋白质和mRNA水平的综合分析，确定了嗅觉功能障碍期间共生微生物群对代谢网络的调节作用。

结论

本研究表明，共生微生物群的缺失可能损害嗅觉功能并破坏代谢网络。这些发现为理解嗅觉相关疾病及其潜在的潜在机制提供了一个新的切入点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5fce/7090175/09a2cffffb42/NDT-16-761-g0001.jpg

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小鼠嗅觉功能障碍期间共生微生物群对代谢网络的调节

Commensal Microbiota Regulation of Metabolic Networks During Olfactory Dysfunction in Mice.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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