RNA-dependent Amplification of Mammalian mRNA Encoding Extracellullar Matrix Proteins: Identification of Chimeric RNA Intermediates for α1, β1, and γ1 Chains of Laminin.

V. Volloch, S. Rits, B. Olsen
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引用次数: 10

Abstract

De novo production of RNA on RNA template, a process known as RNA-dependent RNA synthesis, RdRs, and the enzymatic activity conducting it, RNA-dependent RNA polymerase, RdRp, were initially considered to be exclusively virus-specific. Eventually, however, the occurrence of RdRs and the ubiquitous presence of conventional RdRp were demonstrated in numerous eukaryotic organisms. The evidence that the enzymatic machinery capable of RdRs is present in mammalian cells was derived from studies of viruses, such as hepatitis delta virus, HDV, that do not encode RdRp yet undergo a robust RNA replication once inside the mammalian host; thus firmly establishing its occurrence and functionality. Moreover, it became clear that RdRp activity, apparently in a non-conventional form, is constitutively present in most, if not in all, mammalian cells. Because such activity was shown to produce short transcripts, given its apparent involvement in RNA interference phenomena, and because double-stranded RNA is known to trigger cellular responses leading to its degradation, it was generally assumed that its role in mammalian cells is restricted to a regulatory function. However, at the same time, an enzymatic activity capable of generating complete antisense RNA complements of mRNAs was discovered in mammalian cells undergoing terminal differentiation. Moreover, observations of widespread synthesis of antisense RNAs initiating at the 3'poly(A) of mRNAs in human cells suggested an extensive cellular utilization of mammalian RdRp. These results led to the development of a model of RdRp-facilitated and antisense RNA-mediated amplification of mammalian mRNA. Recent detection of the major model-predicted identifiers, chimeric RNA intermediates containing both sense and antisense RNA strands covalently joined in a rigorously predicted and uniquely defined manner, as well as the identification of a putative chimeric RNA end product of this process, validated the proposed model. The results corroborating mammalian RNA-dependent mRNA amplification were obtained in vivo with cells undergoing terminal erythroid differentiation and programmed for only a short survival span. This raises a question of whether mammalian RNA-dependent mRNA amplification is a specialized occurrence limited to extreme circumstances of terminal differentiation or a general physiological phenomenon. The present study addresses this question by testing for the occurrence of RNA-dependent amplification of mRNA encoding extracellular matrix proteins abundantly produced throughout the tissue and organ development and homeostasis, an exceptionally revealing indicator of the range and scope of this phenomenon. We report here the detection of major identifiers of RNA-dependent amplification of mRNA encoding α1, β1, and γ1 chains of laminin in mouse tissues producing large quantities of extracellular matrix proteins. The results obtained warrant reinterpretation of the mechanisms involved in ubiquitous and abundant production and deposition of extracellular matrix proteins, confirm the occurrence of mammalian RNA-dependent mRNA amplification as a new mode of genomic protein-encoding information transfer, and establish it as a general physiological phenomenon.
哺乳动物细胞外基质蛋白mRNA的RNA依赖性扩增:层粘连蛋白α1、β1和γ1链嵌合RNA中间体的鉴定
在RNA模板上从头生产RNA的过程称为RNA依赖性RNA合成(RdRs),以及进行该过程的酶活性RNA依赖性RNA聚合酶(RdRp)最初被认为是病毒特异性的。然而,最终在许多真核生物中证实了rdr的发生和常规RdRp的普遍存在。能够产生rdr的酶机制存在于哺乳动物细胞中的证据来自对病毒(如丁型肝炎病毒,HDV)的研究,这些病毒不编码RdRp,但一旦进入哺乳动物宿主,就会进行强大的RNA复制;从而牢固地确立了它的发生和功能。此外,很明显,RdRp活性以一种非常规的形式存在于大多数(如果不是全部的话)哺乳动物细胞中。由于这种活性被证明产生短转录本,鉴于其明显参与RNA干扰现象,并且由于双链RNA已知会触发导致其降解的细胞反应,因此通常认为其在哺乳动物细胞中的作用仅限于调节功能。然而,与此同时,在处于终末分化的哺乳动物细胞中发现了一种能够产生mrna的完全反义RNA补体的酶活性。此外,在人类细胞中观察到广泛的反义rna合成,从mrna的3'poly(A)开始,这表明哺乳动物RdRp在细胞中被广泛利用。这些结果导致了rdrp促进和反义rna介导的哺乳动物mRNA扩增模型的建立。最近对主要模型预测标识符的检测,包括以严格预测和独特定义的方式共价连接的正义和反义RNA链的嵌合RNA中间体,以及该过程中推定的嵌合RNA最终产物的鉴定,验证了所提出的模型。结果证实了哺乳动物rna依赖的mRNA扩增是在体内获得的,细胞处于终末红系分化,并且仅在短时间内存活。这就提出了一个问题:哺乳动物rna依赖性mRNA扩增是一种局限于末端分化极端情况下的特殊现象,还是一种普遍的生理现象?本研究通过检测在整个组织和器官发育和体内平衡中大量产生的编码细胞外基质蛋白的mRNA的rna依赖性扩增的发生来解决这个问题,这是一个特别揭示这种现象的范围和范围的指标。我们在此报告了在产生大量细胞外基质蛋白的小鼠组织中检测到编码层粘连蛋白α1、β1和γ1链的mRNA的rna依赖扩增的主要标识符。本研究结果为重新解释细胞外基质蛋白广泛产生和沉积的机制提供了依据,证实了哺乳动物rna依赖性mRNA扩增是基因组蛋白编码信息传递的新模式,并将其确立为一种普遍的生理现象。
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