A Broad RNA Virus Survey Reveals Both miRNA Dependence and Functional Sequestration

Scheel, Troels K. H.; Luna, Joseph M.; Liniger, Matthias; Nishiuchi, Eiko; Rozen-Gagnon, Kathryn; Shlomai, Amir; Auray, Gaël; Gerber, Marlène; Fak, John; Keller, Irene; Bruggmann, Rémy; Darnell, Robert B.; Ruggli, Nicolas; Rice, Charles M.

doi:10.1016/j.chom.2016.02.007

Cited by 114 publications

(169 citation statements)

References 56 publications

(75 reference statements)

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“…On the other hand, miR-17 enhances the infection of HeV as well as RSV, suggesting that the pro-viral effects of miR-17 are broadly applied to the paramyxovirus family, and perhaps beyond this family. For instance, miR-17 has recently been shown to be critical for the replication of pestiviruses, primarily via enhancing viral translation and vRNA stability [12]. Cross-referencing of results from the siRNA screen of host genes associated with HeV infection suggests that miR-181 and miR-17~93 target multiple host genes which are anti-viral for HeV, and that the net outcome of cellular expression of miR-181 or miR-17~93 is likely a host microenvironment that is more conducive for henipavirus infection.…”

Section: Discussionmentioning

confidence: 99%

“…Trobaugh et al showed that the alphavirus Eastern equine encephalitis virus (EEEV) utilizes host-derived miR-142-3p to define cell tropism and to suppress innate immunity, indirectly promoting neuropathogenesis [11]. A comprehensive survey of 15 RNA viruses from 7 families identified miR-17 and let-7 binding to pestivirus 3’ UTR as critical for enhanced viral translation, RNA stability and virus production [12]. The Argonaute protein, a key component of functional miRNA complexes, was also found to be associated with viral RNA of virtually all of the viruses assessed, including paramyxoviruses [12].…”

Section: Introductionmentioning

confidence: 99%

“…A comprehensive survey of 15 RNA viruses from 7 families identified miR-17 and let-7 binding to pestivirus 3’ UTR as critical for enhanced viral translation, RNA stability and virus production [12]. The Argonaute protein, a key component of functional miRNA complexes, was also found to be associated with viral RNA of virtually all of the viruses assessed, including paramyxoviruses [12]. These Argonaute-viral RNA interactions also often exhibit preferential clustering on the viral subgenomes, implying specificities in the miRNA targeting.…”

Section: Introductionmentioning

confidence: 99%

“…Enterovirus infection induces host miR-141 expression, which is then co-opted by the virus to silence cellular translation initiation factor eIF4E, resulting in host translational shutoff [13]. One emerging concept from such studies is the sequestration or “sponging” of anti-viral host miRNAs by genomes of some RNA viruses to derepress cellular transcripts that might enhance infection [9, 12]. These reports suggest that RNA viruses can adopt host miRNAs for their own utility via a diversity of mechanisms, and that this aspect of virus-host interactions is currently understudied.…”

Section: Introductionmentioning

confidence: 99%

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Dual microRNA Screens Reveal That the Immune-Responsive miR-181 Promotes Henipavirus Entry and Cell-Cell Fusion

et al. 2016

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Hendra and Nipah viruses (family Paramyxoviridae, genus Henipavirus) are bat-borne viruses that cause fatal disease in humans and a range of other mammalian species. Gaining a deeper understanding of host pathways exploited by henipaviruses for infection may identify targets for new anti-viral therapies. Here we have performed genome-wide high-throughput agonist and antagonist screens at biosafety level 4 to identify host-encoded microRNAs (miRNAs) impacting henipavirus infection in human cells. Members of the miR-181 and miR-17~93 families strongly promoted Hendra virus infection. miR-181 also promoted Nipah virus infection, but did not affect infection by paramyxoviruses from other genera, indicating specificity in the virus-host interaction. Infection promotion was primarily mediated via the ability of miR-181 to significantly enhance henipavirus-induced membrane fusion. Cell signalling receptors of ephrins, namely EphA5 and EphA7, were identified as novel negative regulators of henipavirus fusion. The expression of these receptors, as well as EphB4, were suppressed by miR-181 overexpression, suggesting that simultaneous inhibition of several Ephs by the miRNA contributes to enhanced infection and fusion. Immune-responsive miR-181 levels was also up-regulated in the biofluids of ferrets and horses infected with Hendra virus, suggesting that the host innate immune response may promote henipavirus spread and exacerbate disease severity. This study is the first genome-wide screen of miRNAs influencing infection by a clinically significant mononegavirus and nominates select miRNAs as targets for future anti-viral therapy development.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Dual microRNA Screens Reveal That the Immune-Responsive miR-181 Promotes Henipavirus Entry and Cell-Cell Fusion

et al. 2016

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“…When applied with RNA-induced silencing complex (RISC) factor Argonaute (AGO), AGO HITS-CLIP allows for empirical mapping of miRNA targeting events through isolation of endogenous AGO:miRNA:mRNA (ternary) complexes (Chi et al, 2009, Moore et al, 2014. Application of AGO HITS-CLIP was instrumental for the discovery of novel miRNA mechanisms in unique biological contexts, including coordinate control of viral latency, viral sequestration of host miRNAs, viral genome propagation by 3'UTR targeting (Riley et al, 2012;Luna et al, 2015;Scheel et al, 2016), and cell invasion networks in cancer (Bracken et al, 2014). Recent modification of CLIP (CLEAR-CLIP) utilizes covalent ligation of RNAs within AGO ternary complexes to garner miRNA-target chimeras for the precise identification of in vivo miRNA targeting events in mammalian tissues (Moore et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

AGO CLIP reveals an activated network for acute regulation of brain glutamate homeostasis after ischemic stroke

Kobayashi

Benakis

Anderson

et al. 2018

Preprint

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Altered miRNA expression in various disease states have been identified, but their global targets contributing to the collective regulatory power to promote or attenuate pathology remains poorly defined. Here we applied a combination of hi-throughput RNA profiling techniques, including AGO CLIP, miRNAseq, RNAseq and ribosomal profiling, to develop an unbiased and comprehensive view of miRNA:mRNA functional interactions following ischemia/reperfusion (IR) injury in the mouse brain. Upon acute I/R insult miR-29 family members were most prominently lost, with corresponding de-regulation of their global target sites. This leads to a dynamic, cascading mode of miR-29 target transcript activation, orchestrated by an initial translational activation and subsequent increase in target mRNA levels. Unexpectedly, activated genes include factors essential for glutamate signaling and reuptake, indicating a fundamental role for this regulatory network in modulating critical endogenous neuroprotective programs to restore brain homeostasis. We integrated this data with human brain AGO CLIP profiles to infer target site variants that determine miRNA binding and to explore the role of non-coding site polymorphisms in stroke. Together these results establish a new strategy for understanding RNA regulatory networks in complex neurological disease.

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MicroRNAs: Small molecules with big impacts in liver injury

Halim

Rudayni

Chaudhary

et al. 2022

Journal Cellular Physiology

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A type of small noncoding RNAs known as microRNAs (miRNAs) fine-tune gene expression posttranscriptionally by binding to certain messenger RNA targets.Numerous physiological processes in the liver, such as differentiation, proliferation, and apoptosis, are regulated by miRNAs. Additionally, there is growing evidence that miRNAs contribute to liver pathology. Extracellular vesicles like exosomes, which contain secreted miRNAs, may facilitate paracrine and endocrine communication between various tissues by changing the gene expression and function of distal cells.The use of stable miRNAs as noninvasive biomarkers was made possible by the discovery of these molecules in body fluids. Circulating miRNAs reflect the conditions of the liver that are abnormal and may serve as new biomarkers for the early detection, prognosis, and evaluation of liver pathological states. miRNAs are appealing therapeutic targets for a range of liver disease states because altered miRNA expression is associated with deregulation of the liver's metabolism, liver damage, liver fibrosis, and tumor formation. This review provides a comprehensive review and update on miRNAs biogenesis pathways and mechanisms of miRNAmediated gene silencing. It also outlines how miRNAs affect hepatic cell proliferation, death, and regeneration as well as hepatic detoxification. Additionally, it highlights the diverse functions that miRNAs play in the onset and progression of various liver diseases, including nonalcoholic fatty liver disease, alcoholic liver disease, fibrosis, hepatitis C virus infection, and hepatocellular carcinoma. Further, it summarizes the diverse liver-specific miRNAs, illustrating the potential merits and possible caveats of their utilization as noninvasive biomarkers and appealing therapeutic targets for liver illnesses.

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A Broad RNA Virus Survey Reveals Both miRNA Dependence and Functional Sequestration

Cited by 114 publications

References 56 publications

Dual microRNA Screens Reveal That the Immune-Responsive miR-181 Promotes Henipavirus Entry and Cell-Cell Fusion

Dual microRNA Screens Reveal That the Immune-Responsive miR-181 Promotes Henipavirus Entry and Cell-Cell Fusion

AGO CLIP reveals an activated network for acute regulation of brain glutamate homeostasis after ischemic stroke

MicroRNAs: Small molecules with big impacts in liver injury

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