Potential modifier genes for cystic fibrosis disease

IF 0.5 Q4 GENETICS & HEREDITY

Human Gene Pub Date : 2025-02-01 DOI:10.1016/j.humgen.2025.201377

Hajra Aqeel , Muhammad Usman Ghani , Zartashay Naeem , Farheena Iqbal Awan , Muhammad Umer Khan , Shazia Tanveer , Nauman Chaudary , Rehan Sadiq Shaikh

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Abstract

Background

Cystic Fibrosis (CF) is a genetic disease caused primarily by mutations in the CFTR gene. However, CF patients with the same mutations in the CFTR gene can manifest the disease with varying severity, likely due to the role of modifier genes.

Methodology

To uncover the underlying non-CFTR genetic factors, we compiled a list of CF modifier genes through an extensive literature review and conducted pathway enrichment analysis using ENRICHR and DAVID tools to understand their biological significance and functional roles in CF disease. We also used the STRING tool to explore the protein-protein interaction of genes identified by pathway enrichment analysis with the CFTR gene.

Results

The literature review identified 36 CF modifier genes: GSTM1, IL10, SLC26A9, IL1B, MUC6, CLC-2, CXCL8/IL8, EDNRA, DCTN4, SLC9A3, ADRB2, AGER, EZR, HLAII, HFE, CFTR, IFRD1, CAV1, PRKAR2B, PPP2R4, MBL2, EHF, SCNN1A, SERPINA1, AHSAI, SNAP23, SCNN1B, SCNN1G, PRSS8, SLC9A3R1/NHERF1, KRT19, Nedd4L, TGFB1, CALR, SLC6A14, MMP9 and MIF. Pathway enrichment analysis predicted three key pathways linked to CF and enriched with 13 modifier genes. Furthermore, the STRING tool predicted that six out of the thirteen modifier genes (SLC9A3R1, EZR, ADRB2, SERPINA1, IL1B, and IFRD1) interact with CFTR, indicating a complex network of functional relationships supported by various evidence.

Conclusion

This research identified 36 modifier genes associated with cystic fibrosis, alongwith three key pathways enriched with 13 of these genes. Six of these genes were found to have a complex network of interactions with CFTR genes, highlighting their probable role as CF modifier genes.

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囊性纤维化病的潜在修饰基因

囊性纤维化（CF）是一种主要由CFTR基因突变引起的遗传性疾病。然而，CFTR基因相同突变的CF患者表现出不同程度的疾病，可能与修饰基因的作用有关。为了揭示潜在的非cftr遗传因素，我们通过广泛的文献综述编制了CF修饰基因列表，并使用enrichment和DAVID工具进行途径富集分析，以了解其在CF疾病中的生物学意义和功能作用。我们还使用STRING工具探索通过途径富集分析鉴定的基因与CFTR基因之间的蛋白-蛋白相互作用。结果共鉴定出36个CF修饰基因：GSTM1、IL10、SLC26A9、IL1B、MUC6、CLC-2、CXCL8/IL8、EDNRA、DCTN4、SLC9A3、ADRB2、AGER、EZR、HLAII、HFE、CFTR、IFRD1、CAV1、PRKAR2B、PPP2R4、MBL2、EHF、SCNN1A、SERPINA1、AHSAI、SNAP23、SCNN1B、SCNN1G、PRSS8、SLC9A3R1/NHERF1、KRT19、Nedd4L、TGFB1、CALR、SLC6A14、MMP9和MIF。途径富集分析预测了三条与CF相关的关键途径，并富集了13个修饰基因。此外，STRING工具预测，13个修饰基因中有6个（SLC9A3R1、EZR、ADRB2、SERPINA1、IL1B和IFRD1）与CFTR相互作用，表明有各种证据支持一个复杂的功能关系网络。本研究确定了36个与囊性纤维化相关的修饰基因，以及其中13个基因富集的3个关键通路。其中6个基因被发现与CFTR基因具有复杂的相互作用网络，突出了它们作为CF修饰基因的可能作用。

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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