MicroRNA时代:从短rna的角度看COVID-19大流行。

Alberto Izzotti
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摘要

尽管基于微RNA的生物体(如RNA病毒)具有生物学上的简单性,但目前显示它们对包括人类在内的哺乳动物构成了意想不到的威胁。由SARS-CoV-2传播引发的COVID-19大流行就是这种情况的例证。RNA病毒比DNA病毒更古老。的确,从进化的角度来看,RNA是比DNA更古老的分子。与DNA病毒相比,RNA病毒的优势在于其简单性和不稳定性。RNA病毒的不稳定性,如人类免疫缺陷病毒(HIV)和流感病毒,会产生突变体以逃避宿主的防御机制。SARS-CoV-2最近取得了令人敬畏的致命性和传染性的结合。复杂的基于dna的防御系统使用toll样受体来拦截细胞内的病毒RNA。toll样受体的激活会引发炎症,激活淋巴细胞和单核细胞,导致血栓素释放。在SARS-CoV-2感染的情况下,这一过程导致细胞因子风暴和肺血栓栓塞。当前的大流行可以被设想为高度进化的复杂DNA生物(即人类)与进化较差的简单RNA生物(即SARS-CoV-2病毒)之间的斗争。非常令人惊讶的是,复杂的有机体在击败简单的有机体方面有一个严重的问题。然而,人类终于开发出一种新的有效武器来对抗SARS-CoV-2病毒,矛盾的是,基于rna的疫苗。这些考虑强调了microRNAs在治疗和预防医学中作为强大工具的相关性。
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The MicroRNA Days: The COVID-19 Pandemic from the Point of View of Short RNAs.

Despite their biological simplicity, microRNA-based organisms, such as RNA viruses, are currently shown to be unexpected threats to mammals, including humans. This situation is exemplified by the COVID-19 pandemic triggered by the spread of SARS-CoV-2. RNA viruses are older than DNA viruses. Indeed, from an evolutionary standpoint, RNA is an older molecule than DNA. The strength of RNA viruses, compared to DNA viruses, resides in their simplicity and instability. The instability of RNA viruses, such as human immunodeficiency virus (HIV) and flu viruses, generates mutants to escape the host's defense mechanisms. A formidable combination of lethality and infectivity was recently achieved by SARS-CoV-2. Complex DNAbased defense systems use Toll-like receptors to intercept viral RNA inside a cell. Activation of Toll-like receptors triggers inflammation and activates lymphocytes and monocytes, causing thromboxane release. In the case of SARS-CoV-2 infection, this process results in cytokine storms and lung thromboembolism. The ongoing pandemic can be envisioned as a struggle between highly evolved complex DNA organisms, i.e., humans, and poorly evolved simple RNA organisms, i.e., SARS-CoV-2 virus. Quite surprisingly, the complex organism has a serious problem defeating the simplistic organism. However, humans are finally developing a new effective weapon in fighting the SARS-CoV-2 virus, paradoxically, RNA-based vaccines. These considerations underscore the relevance of microRNAs as powerful tools in therapeutic and preventive medicine.

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