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综合生物信息学分析揭示马蹄内翻足潜在的通路生物标志物及其相互作用。

Integrated Bioinformatics Analysis Reveals Potential Pathway Biomarkers and Their Interactions for Clubfoot.

作者信息

Ding Jing, Liang Zhenpeng, Feng Weijia, Cai Qixun, Zhang Ziming

机构信息

Department of Pediatric Orthopaedics, Xin Hua Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, Shanghai, China (mainland).

出版信息

Med Sci Monit. 2020 Aug 23;26:e925249. doi: 10.12659/MSM.925249.

DOI:10.12659/MSM.925249
PMID:32829375
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7462570/
Abstract

BACKGROUND Congenital talipes equinovarus (clubfoot), one of the most regular pediatric congenital skeletal anomalies, seriously affects the normal growth and development of about 1 in 1000 newborns. Although it has been investigated widely, the etiology and pathogenesis of clubfoot are still controversial. MATERIAL AND METHODS g: Profiler, NetworkAnalyst and WebGestalt were used to probe the enriched signaling pathways by using the Gene Ontology (GO), Human Phenotype Ontology (HP), Kyoto Encyclopedia of Genes and Genomes (KEGG), Reactome (REAC), and WikiPathways (WP) databases. Large numbers of enriched signaling pathways were identified using the integrated bioinformatics enrichment analyses. RESULTS Apoptosis or programmed cell death (PCD), disease, muscle contraction, metabolism, and immune system were the top functions. Embryo or organ morphogenesis and development, cell or muscle contraction, and apoptosis were the top biological processes, and cell/muscle contraction and apoptosis were the top molecular functions using enriched GO terms analysis. There were a large number of complex interactions in the genes, enriched pathways, and transcription factor (TF)-miRNA co-regulatory networks. Transcription factors such as FOXN3, GLI3, HOX, and NCOR2 family regulated the gene expression of APAF1, BCL2, BID, CASP, MTHFR, and TPM family. CONCLUSIONS The results of bioinformatics enrichment analysis not only supported the previously proposed hypotheses, e.g., extracellular matrix (ECM) abnormality, fetal movement reducing, genetic abnormality, muscle abnormality, neurological abnormality, skeletal abnormality and vascular abnormality, but also indicated that cellular or immune responses to external stimulus, molecular transport and metabolism may be new etiological mechanisms in clubfoot.

摘要

背景

先天性马蹄内翻足是最常见的小儿先天性骨骼畸形之一,严重影响约千分之一新生儿的正常生长发育。尽管对此进行了广泛研究,但马蹄内翻足的病因和发病机制仍存在争议。

材料与方法

使用g:Profiler、NetworkAnalyst和WebGestalt,通过基因本体论(GO)、人类表型本体论(HP)、京都基因与基因组百科全书(KEGG)、Reactome(REAC)和WikiPathways(WP)数据库来探究富集的信号通路。通过综合生物信息学富集分析确定了大量富集的信号通路。

结果

凋亡或程序性细胞死亡(PCD)、疾病、肌肉收缩、代谢和免疫系统是首要功能。使用富集的GO术语分析,胚胎或器官形态发生与发育、细胞或肌肉收缩以及凋亡是首要生物学过程,而细胞/肌肉收缩和凋亡是首要分子功能。在基因、富集通路和转录因子(TF)-miRNA共调控网络中存在大量复杂的相互作用。转录因子如FOXN3、GLI3、HOX和NCOR2家族调节APAF1、BCL2、BID、CASP、MTHFR和TPM家族的基因表达。

结论

生物信息学富集分析结果不仅支持了先前提出的假设,如细胞外基质(ECM)异常、胎儿活动减少、基因异常、肌肉异常、神经异常、骨骼异常和血管异常,还表明细胞或免疫对外界刺激反应、分子转运和代谢可能是马蹄内翻足新的致病机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3692/7462570/2270590d6913/medscimonit-26-e925249-g006.jpg
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