Biphasic regulation of miR-17∼92 transcription during hypoxia: roles of HIF1 and p53 hyperphosphorylation at ser15.

IF 3.6 2区医学 Q1 PHYSIOLOGY American journal of physiology. Lung cellular and molecular physiology Pub Date : 2024-07-01 Epub Date: 2024-03-19 DOI:10.1152/ajplung.00127.2023

Miranda R Sun, Susana Gonzalez, Jason B Huang, Qiyuan Zhou, Arjun Cherukuri, Rohan Adavadkar, Hong-Li Yan, Shu-Han Sun, Guofei Zhou, J Usha Raj, Tianji Chen

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Abstract

We have reported previously that during hypoxia exposure, the expression of mature miR-17∼92 was first upregulated and then downregulated in pulmonary artery smooth muscle cells (PASMC) and in mouse lungs in vitro and in vivo. Here, we investigated the mechanisms regulating this biphasic expression of miR-17∼92 in PASMC in hypoxia. We measured the level of primary miR-17∼92 in PASMC during hypoxia exposure and found that short-term hypoxia exposure (3% O₂, 6 h) induced the level of primary miR-17∼92, whereas long-term hypoxia exposure (3% O₂, 24 h) decreased its level, suggesting a biphasic regulation of miR-17∼92 expression at the transcriptional level. We found that short-term hypoxia-induced upregulation of miR-17∼92 was hypoxia-inducible factor 1α (HIF1α) and E2F1 dependent. Two HIF1α binding sites on miR-17∼92 promoter were identified. We also found that long-term hypoxia-induced suppression of miR-17∼92 expression could be restored by silencing of p53. Mutation of the p53-binding sites in the miR-17∼92 promoter increased miR-17∼92 promoter activity in both normoxia and hypoxia. Our findings suggest that the biphasic transcriptional regulation of miR-17∼92 during hypoxia is controlled by HIF1/E2F1 and p53 in PASMC: during short-term hypoxia exposure, stabilization of HIF1 and induction of E2F1 induce the transcription of miR-17∼92, whereas during long-term hypoxia exposure, hyperphosphorylation of p53 suppresses the expression of miR-17∼92.NEW & NOTEWORTHY We showed that the biphasic transcriptional regulation of miR-17∼92 during hypoxia is controlled by two distinct mechanisms: during short-term hypoxia exposure, induction of HIF1 and E2F1 upregulates miR-17∼92. Longer hypoxia exposure induces hyperphosphorylation of p53 at ser15, which leads to its binding to miR-17∼92 promoter and inhibition of its expression. Our findings provide novel insights into the spatiotemporal regulation of miR-17∼92 that may play a role in the development of human lung diseases including pulmonary hypertension (PH).

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缺氧时 miR-17~92 转录的双相调控：HIF1 和 p53 在 ser15 处过度磷酸化的作用。

我们以前曾报道过，在缺氧暴露过程中，成熟 miR-17~92 在肺动脉平滑肌细胞（PASMC）和小鼠肺部的体外和体内表达先上调后下调。在这里，我们研究了缺氧时 PASMC 中 miR-17~92 双相表达的调控机制。我们测量了缺氧暴露时 PASMC 中一级 miR-17~92 的水平，发现短期缺氧暴露（3%O2，6 小时）会诱导一级 miR-17~92 的水平，而长期缺氧暴露（3%O2，24 小时）会降低其水平，这表明 miR-17~92 的表达在转录水平上存在双相调控。我们发现，短期缺氧诱导的 miR-17~92 上调依赖于 HIF1α 和 E2F1。在 miR-17~92 启动子上发现了两个 HIF1α 结合位点。我们还发现，长期缺氧诱导的 miR-17~92 表达抑制可以通过沉默 p53 恢复。突变 miR-17~92 启动子中的 p53 结合位点可增加 miR-17~92 启动子在正常缺氧和低氧条件下的活性。我们的研究结果表明，缺氧时 miR-17~92 的双相转录调控受 PASMC 中 HIF1/E2F1 和 p53 的控制：在短期缺氧暴露中，HIF1 的稳定和 E2F1 的诱导诱导了 miR-17~92 的转录；而在长期缺氧暴露中，p53 的过度磷酸化抑制了 miR-17~92 的表达。

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来源期刊

American journal of physiology. Lung cellular and molecular physiology 医学-呼吸系统

CiteScore

9.20

自引率

4.10%

发文量

146

审稿时长

2 months

期刊介绍： The American Journal of Physiology-Lung Cellular and Molecular Physiology publishes original research covering the broad scope of molecular, cellular, and integrative aspects of normal and abnormal function of cells and components of the respiratory system. Areas of interest include conducting airways, pulmonary circulation, lung endothelial and epithelial cells, the pleura, neuroendocrine and immunologic cells in the lung, neural cells involved in control of breathing, and cells of the diaphragm and thoracic muscles. The processes to be covered in the Journal include gas-exchange, metabolic control at the cellular level, intracellular signaling, gene expression, genomics, macromolecules and their turnover, cell-cell and cell-matrix interactions, cell motility, secretory mechanisms, membrane function, surfactant, matrix components, mucus and lining materials, lung defenses, macrophage function, transport of salt, water and protein, development and differentiation of the respiratory system, and response to the environment.