miR-708-5p 和 miR-34c-5p 参与了营养不良环境中 nNOS 的调节。
miR-708-5p and miR-34c-5p are involved in nNOS regulation in dystrophic context.
机构信息
Sorbonne Université-UMRS974-Inserm-Institut de Myologie, 105 bd de l'Hôpital, 75013, Paris, France.
AP-HP, Centre de Référence Maladies Neuromusculaire Nord, Est, Ile-de-France, G.H. Pitié-Salpêtrière, F-75013, Paris, France.
出版信息
Skelet Muscle. 2018 Apr 27;8(1):15. doi: 10.1186/s13395-018-0161-2.
BACKGROUND
Duchenne (DMD) and Becker (BMD) muscular dystrophies are caused by mutations in the DMD gene coding for dystrophin, a protein being part of a large sarcolemmal protein scaffold that includes the neuronal nitric oxide synthase (nNOS). The nNOS was shown to play critical roles in a variety of muscle functions and alterations of its expression and location in dystrophic muscle fiber leads to an increase of the muscle fatigability. We previously revealed a decrease of nNOS expression in BMD patients all presenting a deletion of exons 45 to 55 in the DMD gene (BMDd45-55), impacting the nNOS binding site of dystrophin. Since several studies showed deregulation of microRNAs (miRNAs) in dystrophinopathies, we focused on miRNAs that could target nNOS in dystrophic context.
METHODS
By a screening of 617 miRNAs in BMDd45-55 muscular biopsies using TLDA and an in silico study to determine which one could target nNOS, we selected four miRNAs. In order to select those that targeted a sequence of 3'UTR of NOS1, we performed luciferase gene reporter assay in HEK393T cells. Finally, expression of candidate miRNAs was modulated in control and DMD human myoblasts (DMDd45-52) to study their ability to target nNOS.
RESULTS
TLDA assay and the in silico study allowed us to select four miRNAs overexpressed in muscle biopsies of BMDd45-55 compared to controls. Among them, only the overexpression of miR-31, miR-708, and miR-34c led to a decrease of luciferase activity in an NOS1-3'UTR-luciferase assay, confirming their interaction with the NOS1-3'UTR. The effect of these three miRNAs was investigated on control and DMDd45-52 myoblasts. First, we showed a decrease of nNOS expression when miR-708 or miR-34c were overexpressed in control myoblasts. We then confirmed that DMDd45-52 cells displayed an endogenous increased of miR-31, miR-708, and miR-34c and a decreased of nNOS expression, the same characteristics observed in BMDd45-55 biopsies. In DMDd45-52 cells, we demonstrated that the inhibition of miR-708 and miR-34c increased nNOS expression, confirming that both miRNAs can modulate nNOS expression in human myoblasts.
CONCLUSION
These results strongly suggest that miR-708 and miR-34c, overexpressed in dystrophic context, are new actors involved in the regulation of nNOS expression in dystrophic muscle.
背景
杜氏肌营养不良症(DMD)和贝克肌营养不良症(BMD)是由 DMD 基因突变引起的,该基因编码肌营养不良蛋白,是一种大的肌膜蛋白支架的一部分,包括神经元型一氧化氮合酶(nNOS)。nNOS 被证明在多种肌肉功能中起着关键作用,其在营养不良肌纤维中的表达和位置的改变导致肌肉疲劳性增加。我们之前发现,所有携带 DMD 基因外显子 45 至 55 缺失(BMDd45-55)的 BMD 患者的 nNOS 表达均降低,这影响了肌营养不良蛋白的 nNOS 结合位点。由于多项研究表明微小 RNA(miRNA)在肌营养不良蛋白病中失调,我们专注于在营养不良环境中可以靶向 nNOS 的 miRNA。
方法
通过使用 TLDA 对 BMDd45-55 肌肉活检进行 617 种 miRNA 的筛选,并通过计算机研究确定哪种 miRNA 可以靶向 nNOS,我们选择了四种 miRNA。为了选择靶向 NOS1 3'UTR 的序列的 miRNA,我们在 HEK393T 细胞中进行了荧光素酶基因报告基因测定。最后,在对照和 DMD 人成肌细胞(DMDd45-52)中调节候选 miRNA 的表达,以研究它们靶向 nNOS 的能力。
结果
TLDA 检测和计算机研究使我们能够选择与对照相比在 BMDd45-55 肌肉活检中过度表达的四种 miRNA。其中,只有 miR-31、miR-708 和 miR-34c 的过度表达在 NOS1-3'UTR-荧光素酶测定中导致荧光素酶活性降低,证实它们与 NOS1-3'UTR 相互作用。在对照和 DMDd45-52 成肌细胞中研究了这三种 miRNA 的作用。首先,我们发现 miR-708 或 miR-34c 在对照成肌细胞中过度表达时,nNOS 表达降低。然后,我们证实 DMDd45-52 细胞显示内源性增加的 miR-31、miR-708 和 miR-34c 以及 nNOS 表达降低,与 BMDd45-55 活检中观察到的特征相同。在 DMDd45-52 细胞中,我们证明了 miR-708 和 miR-34c 的抑制增加了 nNOS 的表达,证实这两种 miRNA 都可以在人类成肌细胞中调节 nNOS 的表达。
结论
这些结果强烈表明,在营养不良环境中过度表达的 miR-708 和 miR-34c 是新的参与调节营养不良肌肉中 nNOS 表达的因子。
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