Review of the Different Outcomes Produced by Genetic Knock Out of the Long Non-coding microRNA-host-gene MIR22HG versus Pharmacologic Antagonism of its Intragenic microRNA product miR-22-3p.

MicroRNA (Shariqah, United Arab Emirates) Pub Date : 2024-06-28 DOI:10.2174/0122115366282339240604042154

Marc Thibonnier, Sujoy Ghosh

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Abstract

Background: Publications reveal different outcomes achieved by genetically knocking out a long non-coding microRNA-host-gene (lncMIRHG) versus the administration of pharma-cologic antagomirs specifically targeting the guide strand of such intragenic microRNA. This suggests that lncMIRHGs may perform diverse functions unrelated to their role as intragenic miRNA precursors.

Objective: This review synthesizes in silico, in vitro, and in vivo findings from our lab and others to compare the effects of knocking out the long non-coding RNA MIR22HG, which hosts miR-22, versus administering pharmacological antagomirs targeting miR-22-3p.

Methods: In silico analyses at the gene, pathway, and network levels reveal both distinct and overlapping targets of hsa-miR-22-3p and its host gene, MIR22HG. While pharmacological an-tagomirs targeting miR-22-3p consistently improve various metabolic parameters in cell culture and animal models across multiple studies, genetic knockout of MIR22HG yields inconsistent results among different research groups.

Results: Additionally, MIR22HG functions as a circulating endogenous RNA (ceRNA) or "sponge" that simultaneously modulates multiple miRNA-mRNA interactions by competing for binding to several miRNAs.

Conclusions: From a therapeutic viewpoint, genetic inactivation of a lncMIRHG and pharmaco-logic antagonism of the guide strand of its related intragenic miRNA produce different results. This should be expected as lncMIRHGs play dual roles, both as lncRNA and as a source for primary miRNA transcripts.

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回顾基因敲除长非编码 microRNA 宿主基因 MIR22HG 与药物拮抗其基因内 microRNA 产物 miR-22-3p 所产生的不同结果。

背景：有文献显示，基因敲除长非编码microRNA-host-基因（lncMIRHG）与服用特异性靶向这种基因内microRNA引导链的药物抗凝剂所取得的结果不同。这表明，lncMIRHGs可能具有与其作为基因内miRNA前体的作用无关的多种功能：本综述综合了我们实验室和其他实验室的硅学、体外和体内研究结果，比较了敲除宿主 miR-22 的长非编码 RNA MIR22HG 与施用靶向 miR-22-3p 的药理抗凝剂的效果：方法：在基因、通路和网络水平上进行的硅学分析表明，hsa-miR-22-3p 及其宿主基因 MIR22HG 的靶标既不同又重叠。在多项研究中，以 miR-22-3p 为靶点的药理标记物能持续改善细胞培养和动物模型中的各种代谢参数，而基因敲除 MIR22HG 在不同研究小组中产生的结果却不一致：此外，MIR22HG 作为一种循环内源性 RNA（ceRNA）或 "海绵"，通过与多个 miRNA 竞争结合，同时调节多个 miRNA-mRNA 的相互作用：结论：从治疗的角度来看，lncMIRHG 的基因失活和相关基因内 miRNA 引导链的药物逻辑拮抗会产生不同的结果。这在意料之中，因为 lncMIRHG 具有双重作用，既是 lncRNA，又是主要 miRNA 转录本的来源。

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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MicroRNA (Shariqah, United Arab Emirates) Medicine-Medicine (all)

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