Nicholas R. Powell, Tyler Shugg, Jacob Leighty, Matthew Martin, Rolf P. Kreutz, Michael T. Eadon, Dongbing Lai, Tao Lu, Todd C. Skaar
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引用次数: 0
Abstract
Background
Hypertension (HTN) involves genetic variability in the renin-angiotensin system and influences antihypertensive response. We previously reported that angiotensinogen (AGT) messenger RNA (mRNA) is endogenously bound by miR-122-5p and rs699 A > G decreases reporter mRNA in the microRNA functional-assay PASSPORT-seq. The AGT promoter variant rs5051 C > T is in linkage disequilibrium (LD) with rs699 A > G and increases AGT transcription. The independent effect of these variants is understudied due to their LD therefore we aimed to test the hypothesis that increased AGT by rs5051 C > T counterbalances AGT decreased by rs699 A > G, and when these variants occur independently, it translates to HTN-related phenotypes.
Methods
We used in silico, in vitro, in vivo, and retrospective models to test this hypothesis.
Results
In silico, rs699 A > G is predicted to increase miR-122-5p binding affinity by 3%. Mir-eCLIP results show rs699 is 40–45 nucleotides from the strongest microRNA-binding site in the AGT mRNA. Unexpectedly, rs699 A > G increases AGT mRNA in an AGT-plasmid-cDNA HepG2 expression model. Genotype-Tissue Expression (GTEx) and UK Biobank analyses demonstrate liver AGT expression and HTN phenotypes are not different when rs699 A > G occurs independently from rs5051 C > T. However, GTEx and the in vitro experiments suggest rs699 A > G confers cell-type-specific effects on AGT mRNA abundance, and suggest paracrine renal renin-angiotensin-system perturbations could mediate the rs699 A > G associations with HTN.
Conclusions
We found that rs5051 C > T and rs699 A > G significantly associate with systolic blood pressure in Black participants in the UK Biobank, demonstrating a fourfold larger effect than in White participants. Further studies are warranted to determine if altered antihypertensive response in Black individuals might be due to rs5051 C > T or rs699 A > G. Studies like this will help clinicians move beyond the use of race as a surrogate for genotype.
背景 高血压(HTN)涉及肾素-血管紧张素系统的遗传变异,并影响降压反应。我们以前曾报道,血管紧张素原(AGT)信使 RNA(mRNA)与 miR-122-5p 内源结合,在微 RNA 功能测定 PASSPORT-seq 中,rs699 A > G 会降低报告 mRNA。AGT 启动子变异 rs5051 C > T 与 rs699 A > G 存在连锁不平衡(LD),会增加 AGT 的转录。由于这些变体的 LD,它们的独立效应还未得到充分研究,因此我们的目的是检验这样一个假设:rs5051 C > T 增加的 AGT 抵消了 rs699 A > G 减少的 AGT,当这些变体独立出现时,就会转化为高血压相关的表型。 方法 我们使用硅学、体外、体内和回顾性模型来验证这一假设。 结果 在硅学中,rs699 A > G 预测会使 miR-122-5p 结合亲和力增加 3%。Mir-eCLIP 结果显示,rs699 与 AGT mRNA 中最强的 microRNA 结合位点相距 40-45 个核苷酸。意外的是,在 AGT 质粒-DNA HepG2 表达模型中,rs699 A > G 会增加 AGT mRNA。基因型-组织表达(GTEx)和英国生物库分析表明,当 rs699 A > G 独立于 rs5051 C > T 出现时,肝脏 AGT 表达和高血压表型并无不同。然而,GTEx 和体外实验表明,rs699 A > G 对 AGT mRNA 丰度具有细胞类型特异性影响,并表明肾脏肾素-血管紧张素系统的旁分泌干扰可能介导 rs699 A > G 与 HTN 的关联。 结论 我们发现,在英国生物库中,rs5051 C > T 和 rs699 A > G 与黑人参与者的收缩压密切相关,其影响是白人参与者的四倍。我们有必要开展进一步的研究,以确定黑人降压反应的改变是否可能是由 rs5051 C > T 或 rs699 A > G 引起的。
期刊介绍:
This journal aims to promote progress from basic research to clinical practice and to provide a forum for communication among basic, translational, and clinical research practitioners and physicians from all relevant disciplines. Chronic diseases such as cardiovascular diseases, cancer, diabetes, stroke, chronic respiratory diseases (such as asthma and COPD), chronic kidney diseases, and related translational research. Topics of interest for Chronic Diseases and Translational Medicine include Research and commentary on models of chronic diseases with significant implications for disease diagnosis and treatment Investigative studies of human biology with an emphasis on disease Perspectives and reviews on research topics that discuss the implications of findings from the viewpoints of basic science and clinical practic.
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