MicroRNAs (miRNAs) are small non-coding RNAs important in gene regulation. They are able to regulate mRNA translation through base-pair complementarity. Cellular miRNAs have been involved in the regulation of nearly all cellular pathways, and their deregulation has been associated with several diseases such as cancer. Given the importance of microRNAs to cell homeostasis, it is no surprise that viruses have evolved to take advantage of this cellular pathway. Viruses have been reported to be able to encode and express functional viral microRNAs that target both viral and cellular transcripts. Moreover, viral inhibition of key proteins from the microRNA pathway and important changes in cellular microRNA pool have been reported upon viral infection. In addition, viruses have developed multiple mechanisms to avoid being targeted by cellular microRNAs. This complex interaction between host and viruses to control the microRNA pathway usually favors viral infection and persistence by either reducing immune detection, avoiding apoptosis, promoting cell growth, or promoting lytic or latent infection. One of the best examples of this virus-host-microRNA interplay emanates from members of the Herperviridae family, namely the herpes simplex virus type 1 and type 2 (HSV-1 and HSV-2), human cytomegalovirus (HCMV), human herpesvirus 8 (HHV-8), and the Epstein–Barr virus (EBV). In this review, we will focus on the general functions of microRNAs and the interactions between herpesviruses, human hosts, and microRNAs and will delve into the related mechanisms that contribute to infection and pathogenesis.
MicroRNAs are small non-coding RNAs that modulate protein production by post-transcriptional gene regulation. They impose gene expression control by interfering with mRNA translation and stability in cell cytoplasm through a mechanism involving specific binding to mRNA based on base pair complementarity. Because of their intracellular replication cycle it is no surprise that viruses evolved in a way that allows them to use microRNAs to infect, replicate and persist in host cells. Several ways of interference between virus and host-cell microRNA machinery have been described. Most of the time, viruses drastically alter host-cell microRNA expression or synthesize their own microRNA to facilitate infection and pathogenesis. HIV and HCV are two prominent examples of this complex interplay revealing how fine-tuning of microRNA expression is crucial for controlling key host pathways that allow viral infection and replication, immune escape and persistence. In this review we delve into the mechanisms underlying cellular and viral-encoded microRNA functions in the context of HIV and HCV infections. We focus on which microRNAs are differently expressed and deregulated upon viral infection and how these alterations dictate the fate of virus and cell. Copyright © 2016 John Wiley & Sons, Ltd.
MicroRNAs (miRNAs) are powerful regulators of gene expression and fine-tuning genes in all tissues. Cellular miRNAs can control 100s of biologic processes (e.g., morphogenesis of embryonic structures, differentiation of tissue-specific cells, and metabolic control in specific cell types) and have been involved in the regulation of nearly all cellular pathways. Inherently to their involvement in different physiologic processes, miRNAs deregulation has been associated with several diseases. Moreover, several viruses have been described as either, avoid and block cellular miRNAs or synthesize their own miRNA to facilitate infection and pathogenesis. Adenoviruses genome encodes two non-coding RNAs, known as viral-associated (VA) RNAI and VA RNAII, which seem to play an important role either by blocking important proteins from miRNA pathway, such as Exportin-5 and Dicer, or by targeting relevant cellular factors. Drastic changes in cellular miRNA expression profile are also noticeable and several cellular functions are affected by these changes. This review focuses on the mechanisms underlying the biogenesis and molecular interactions of miRNAs providing basic concepts of their functions as well as in the interplay between miRNAs and human adenoviruses.
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