在胰岛素抵抗状态下,识别所有胰岛素敏感组织中一种新的共同治疗靶点和药物。
The identification of a novel shared therapeutic target and drug across all insulin-sensitive tissues under insulin resistance.
作者信息
Xu Jinyuan, Zhu Lilin, Xu Jie, Lin Kailong, Wang Juan, Bi Yan-Long, Xu Guo-Tong, Tian Haibin, Gao Furong, Jin Caixia, Lu Lixia
机构信息
Department of Ophthalmology, Shanghai Tongji Hospital Affiliated to Tongji University, School of Medicine, Tongji Eye Institute, Shanghai, China.
Department of Biochemistry and Molecular Biology, School of Medicine, Tongji University, Shanghai, China.
出版信息
Front Nutr. 2024 Mar 26;11:1381779. doi: 10.3389/fnut.2024.1381779. eCollection 2024.
BACKGROUND
To identify key and shared insulin resistance (IR) molecular signatures across all insulin-sensitive tissues (ISTs), and their potential targeted drugs.
METHODS
Three datasets from Gene Expression Omnibus (GEO) were acquired, in which the ISTs (fat, muscle, and liver) were from the same individual with obese mice. Integrated bioinformatics analysis was performed to obtain the differentially expressed genes (DEGs). Weighted gene co-expression network analysis (WGCNA) was carried out to determine the "most significant trait-related genes" (MSTRGs). Enrichment analysis and PPI network were performed to find common features and novel hub genes in ISTs. The shared genes of DEGs and genes between DEGs and MSTRGs across four ISTs were identified as key IR therapeutic target. The Attie Lab diabetes database and obese rats were used to verify candidate genes. A medical drug-gene interaction network was conducted by using the Comparative Toxicogenomics Database (CTD) to find potential targeted drugs. The candidate drug was validated in Hepa1-6 cells.
RESULTS
Lipid metabolic process, mitochondrion, and oxidoreductase activity as common features were enriched from ISTs under an obese context. Thirteen shared genes (Ubd, Lbp, Hp, Arntl, Cfd, Npas2, Thrsp., Tpx2, Pkp1, Sftpd, Mthfd2, Tnfaip2, and Vnn3) of DEGs across ISTs were obtained and confirmed. Among them, Ubd was the only shared gene between DEGs and MSTRGs across four ISTs. The expression of Ubd was significantly upregulated across four ISTs in obese rats, especially in the liver. The IR Hepa1-6 cell models treated with dexamethasone (Dex), palmitic acid (PA), and 2-deoxy-D-ribose (dRib) had elevated expression of Ubd. Knockdown of Ubd increased the level of p-Akt. A lowing Ubd expression drug, promethazine (PMZ) from CTD analysis rescued the decreased p-Akt level in IR Hepa1-6 cells.
CONCLUSION
This study revealed Ubd, a novel and shared IR molecular signature across four ISTs, as an effective biomarker and provided new insight into the mechanisms of IR. PMZ was a candidate drug for IR which increased p-Akt level and thus improved IR by targeting Ubd and downregulation of Ubd expression. Both Ubd and PMZ merit further clinical translational investigation to improve IR.
背景
识别所有胰岛素敏感组织(ISTs)中关键且共有的胰岛素抵抗(IR)分子特征及其潜在的靶向药物。
方法
获取来自基因表达综合数据库(GEO)的三个数据集,其中ISTs(脂肪、肌肉和肝脏)来自同一肥胖小鼠个体。进行综合生物信息学分析以获得差异表达基因(DEGs)。开展加权基因共表达网络分析(WGCNA)以确定“最显著的性状相关基因”(MSTRGs)。进行富集分析和蛋白质-蛋白质相互作用(PPI)网络分析以发现ISTs中的共同特征和新的枢纽基因。将四个ISTs中DEGs的共享基因以及DEGs与MSTRGs之间的基因确定为关键的IR治疗靶点。使用阿蒂实验室糖尿病数据库和肥胖大鼠验证候选基因。利用比较毒理基因组学数据库(CTD)构建药物-基因相互作用网络以寻找潜在的靶向药物。在Hepa1-6细胞中验证候选药物。
结果
在肥胖背景下,脂质代谢过程、线粒体和氧化还原酶活性作为共同特征在ISTs中富集。获得并确认了四个ISTs中DEGs的13个共享基因(泛素D(Ubd)、脂多糖结合蛋白(Lbp)、结合珠蛋白(Hp)、芳香烃受体核转运蛋白样蛋白(Arntl)、补体因子D(Cfd)、神经元 PAS 结构域蛋白 2(Npas2)、甲状腺激素应答蛋白(Thrsp.)、动粒蛋白 2(Tpx2)、桥粒斑蛋白(Pkp1)、肺表面活性物质关联蛋白 D(Sftpd)、亚甲基四氢叶酸脱氢酶 2(Mthfd2)、肿瘤坏死因子α诱导蛋白 2(Tnfaip2)和范科尼贫血蛋白 3(Vnn3))。其中,Ubd是四个ISTs中DEGs与MSTRGs之间唯一的共享基因。在肥胖大鼠的四个ISTs中,Ubd的表达显著上调,尤其是在肝脏中。用 dexamethasone(Dex)、棕榈酸(PA)和 2-脱氧-D-核糖(dRib)处理的IR Hepa1-6细胞模型中Ubd的表达升高。敲低Ubd可提高p-Akt水平。CTD分析中一种降低Ubd表达的药物异丙嗪(PMZ)挽救了IR Hepa1-6细胞中降低的p-Akt水平。
结论
本研究揭示了Ubd,一种四个ISTs中新型且共有的IR分子特征,作为一种有效的生物标志物,并为IR机制提供了新的见解。PMZ是一种针对IR的候选药物,它通过靶向Ubd并下调Ubd表达来提高p-Akt水平,从而改善IR。Ubd和PMZ都值得进一步进行临床转化研究以改善IR。
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