Identifying behavior regulatory leverage over mental disorders transcriptomic network hubs toward lifestyle-dependent psychiatric drugs repurposing.

IF 3.8 3区医学 Q2 GENETICS & HEREDITY

Human Genomics Pub Date : 2025-03-19 DOI:10.1186/s40246-025-00733-w

Mennatullah Abdelzaher Turky, Ibrahim Youssef, Azza El Amir

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引用次数: 0

Abstract

Background: There is a vast prevalence of mental disorders, but patient responses to psychiatric medication fluctuate. As food choices and daily habits play a fundamental role in this fluctuation, integrating machine learning with network medicine can provide valuable insights into disease systems and the regulatory leverage of lifestyle in mental health.

Methods: This study analyzed coexpression network modules of MDD and PTSD blood transcriptomic profile using modularity optimization method, the first runner-up of Disease Module Identification DREAM challenge. The top disease genes of both MDD and PTSD modules were detected using random forest model. Afterward, the regulatory signature of two predominant habitual phenotypes, diet-induced obesity and smoking, were identified. These transcription/translation regulating factors (TRFs) signals were transduced toward the two disorders' disease genes. A bipartite network of drugs that target the TRFS together with PTSD or MDD hubs was constructed.

Results: The research revealed one MDD hub, the CENPJ, which is known to influence intellectual ability. This observation paves the way for additional investigations into the potential of CENPJ as a novel target for MDD therapeutic agents development. Additionally, most of the predicted PTSD hubs were associated with multiple carcinomas, of which the most notable was SHCBP1. SHCBP1 is a known risk factor for glioma, suggesting the importance of continuous monitoring of patients with PTSD to mitigate potential cancer comorbidities. The signaling network illustrated that two PTSD and three MDD biomarkers were co-regulated by habitual phenotype TRFs. 6-Prenylnaringenin and Aflibercept were identified as potential candidates for targeting the MDD and PTSD hubs: ATP6V0A1 and PIGF. However, habitual phenotype TRFs have no leverage over ATP6V0A1 and PIGF.

Conclusion: Combining machine learning and network biology succeeded in revealing biomarkers for two notoriously spreading disorders, MDD and PTSD. This approach offers a non-invasive diagnostic pipeline and identifies potential drug targets that could be repurposed under further investigation. These findings contribute to our understanding of the complex interplay between mental disorders, daily habits, and psychiatric interventions, thereby facilitating more targeted and personalized treatment strategies.

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识别精神障碍转录组网络中心对生活方式依赖的精神药物再利用的行为调节杠杆。

背景：精神障碍普遍存在，但患者对精神药物的反应波动。由于食物选择和日常习惯在这种波动中起着重要作用，将机器学习与网络医学相结合，可以为疾病系统和生活方式对心理健康的调节作用提供有价值的见解。方法：本研究采用模块化优化方法分析MDD和PTSD血液转录组谱的共表达网络模块，该方法是疾病模块识别DREAM挑战赛亚军。采用随机森林模型检测MDD和PTSD模块的顶级疾病基因。随后，确定了两种主要的习惯性表型的调节特征，即饮食诱导的肥胖和吸烟。这些转录/翻译调节因子（TRFs）信号被转导到两种疾病的疾病基因上。我们构建了一个针对TRFS和PTSD或MDD中心的双侧药物网络。结果：研究揭示了一个MDD中心，CENPJ，它被认为会影响智力。这一观察结果为进一步研究CENPJ作为重度抑郁症治疗剂开发的新靶点的潜力铺平了道路。此外，大多数预测的PTSD中心与多种癌相关，其中最显著的是SHCBP1。SHCBP1是已知的神经胶质瘤危险因子，提示持续监测PTSD患者以减轻潜在的癌症合并症的重要性。信号网络表明，两种PTSD和三种MDD生物标志物受习惯性表型TRFs的共同调节。6- prenylnaringin和afliberept被确定为靶向MDD和PTSD中心：ATP6V0A1和PIGF的潜在候选药物。然而，习惯性表型trf对ATP6V0A1和PIGF没有影响。结论：结合机器学习和网络生物学成功地揭示了两种众所周知的传播障碍，重度抑郁症和创伤后应激障碍的生物标志物。这种方法提供了一种非侵入性的诊断管道，并确定了潜在的药物靶点，可以在进一步的研究中重新利用。这些发现有助于我们理解精神障碍、日常习惯和精神干预之间复杂的相互作用，从而促进更有针对性和个性化的治疗策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Human Genomics GENETICS & HEREDITY-

CiteScore

6.00

自引率

2.20%

发文量

审稿时长

11 weeks

期刊介绍： Human Genomics is a peer-reviewed, open access, online journal that focuses on the application of genomic analysis in all aspects of human health and disease, as well as genomic analysis of drug efficacy and safety, and comparative genomics. Topics covered by the journal include, but are not limited to: pharmacogenomics, genome-wide association studies, genome-wide sequencing, exome sequencing, next-generation deep-sequencing, functional genomics, epigenomics, translational genomics, expression profiling, proteomics, bioinformatics, animal models, statistical genetics, genetic epidemiology, human population genetics and comparative genomics.