单细胞和大量RNA测序分析结合机器学习揭示了精神分裂症中受损线粒体自噬的表达模式。

Analyses of single-cell and bulk RNA sequencing combined with machine learning reveal the expression patterns of disrupted mitophagy in schizophrenia.

作者信息

Yang Wei, Lian Kun, Ye Jing, Cheng Yuqi, Xu Xiufeng

机构信息

Department of Psychiatry, The First Affiliated Hospital of Kunming Medical University, Kunming, Yunnan, China.

Department of Psychiatry, The Second People's Hospital of Yuxi, Yuxi, Yunnan, China.

出版信息

Front Psychiatry. 2024 Sep 17;15:1429437. doi: 10.3389/fpsyt.2024.1429437. eCollection 2024.

DOI:10.3389/fpsyt.2024.1429437

PMID:39355378

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11442249/

Abstract

BACKGROUND

Mitochondrial dysfunction is an important factor in the pathogenesis of schizophrenia. However, the relationship between mitophagy and schizophrenia remains to be elucidated.

METHODS

Single-cell RNA sequencing datasets of peripheral blood and brain organoids from SCZ patients and healthy controls were retrieved. Mitophagy-related genes that were differentially expressed between the two groups were screened. The diagnostic model based on key mitophagy genes was constructed using two machine learning methods, and the relationship between mitophagy and immune cells was analyzed. Single-cell RNA sequencing data of brain organoids was used to calculate the mitophagy score (Mitoscore).

RESULTS

We found 7 key mitophagy genes to construct a diagnostic model. The mitophagy genes were related to the infiltration of neutrophils, activated dendritic cells, resting NK cells, regulatory T cells, resting memory T cells, and CD8 T cells. In addition, we identified 12 cell clusters based on the Mitoscore, and the most abundant neurons were further divided into three subgroups. Results at the single-cell level showed that Mitohigh_Neuron established a novel interaction with endothelial cells via SPP1 signaling pathway, suggesting their distinct roles in SCZ pathogenesis.

CONCLUSION

We identified a mitophagy signature for schizophrenia that provides new insights into disease pathogenesis and new possibilities for its diagnosis and treatment.

摘要

背景

线粒体功能障碍是精神分裂症发病机制中的一个重要因素。然而，线粒体自噬与精神分裂症之间的关系仍有待阐明。

方法

检索精神分裂症患者和健康对照者外周血和脑类器官的单细胞RNA测序数据集。筛选两组之间差异表达的线粒体自噬相关基因。使用两种机器学习方法构建基于关键线粒体自噬基因的诊断模型，并分析线粒体自噬与免疫细胞之间的关系。利用脑类器官的单细胞RNA测序数据计算线粒体自噬评分（Mitoscore）。

结果

我们发现7个关键的线粒体自噬基因来构建诊断模型。线粒体自噬基因与中性粒细胞、活化树突状细胞、静息自然杀伤细胞、调节性T细胞、静息记忆T细胞和CD8 T细胞的浸润有关。此外，我们根据Mitoscore确定了12个细胞簇，并且将最丰富的神经元进一步分为三个亚组。单细胞水平的结果表明，Mitohigh_Neuron通过SPP1信号通路与内皮细胞建立了一种新的相互作用，表明它们在精神分裂症发病机制中具有不同的作用。

结论

我们确定了精神分裂症的线粒体自噬特征，为疾病发病机制提供了新的见解，并为其诊断和治疗提供了新的可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/973a/11442249/9974c67de431/fpsyt-15-1429437-g001.jpg

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单细胞和大量RNA测序分析结合机器学习揭示了精神分裂症中受损线粒体自噬的表达模式。

Analyses of single-cell and bulk RNA sequencing combined with machine learning reveal the expression patterns of disrupted mitophagy in schizophrenia.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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